Home
  >  
Section 73

EurekaMag Full Text Articles Chapter 72,634



References:

Silva, J.P.; Valadares, L.; Vieira, M.E.L.; Teseo, S.; Châline, N. 2021: Tandem running by foraging Pachycondyla striata workers in field conditions vary in response to food type, food distance, and environmental conditions. Current Zoology 67(5): 541-549
Zhang, S.; Greenhalgh, M.D.; Slawin, A.M.Z.; Smith, A.D. 2020: Tandem sequential catalytic enantioselective synthesis of highly-functionalised tetrahydroindolizine derivatives. Chemical Science 11(15): 3885-3892
Stubbs, H.E.; Bensing, B.A.; Yamakawa, I.; Sharma, P.; Yu, H.; Chen, X.; Sullam, P.M.; Iverson, T.M. 2020: Tandem sialoglycan-binding modules in a Streptococcus sanguinis serine-rich repeat adhesin create target dependent avidity effects. Journal of Biological Chemistry 295(43): 14737-14749
Yi, C.; Wu, Y.; Gao, Y.; Du, Q. 2021: Tandem solar cells efficiency prediction and optimization via deep learning. Physical Chemistry Chemical Physics: Pccp 23(4): 2991-2998
Robert, C.; de Montigny, Fédéric.; Thomas, C.M. 2011: Tandem synthesis of alternating polyesters from renewable resources. Nature Communications 2: 586
Kossman, C.R.; Stamato, T.D.; Pettijohn, D.E. 1971: Tandem synthesis of the 16S and 23S ribosomal RNA sequences of Escherichia coli. Nature: new Biology 234(47): 102-104
Fitoussi, O.; Simon, D.; Brice, P.; Makke, J.; Scrobohaci, M.L.; Bibi Triki, T.; Hennequin, C.; Fermé, C.; Gisselbrecht, C. 1999: Tandem transplant of peripheral blood stem cells for patients with poor-prognosis Hodgkins's disease or non-Hodgkin's lymphoma. Bone Marrow Transplantation 24(7): 747-755
Papadopoulos, K.P.; Noguera-Irizarry, W.; Hesdorffer, C.S. 2001: Tandem transplantation in lymphoma. Bone Marrow Transplantation 28(6): 529-535
Chevallier, P.; Fornecker, L.; Lioure, B.; Béné, M.C.; Pigneux, A.; Recher, C.; Witz, B.; Fegueux, N.; Bulabois, C-E.; Daliphard, S.; Bouscary, D.; Vey, N.; Delain, M.; Bay, J-O.; Turlure, P.; Bernard, M.; Himberlin, C.; Luquet, I.; Ifrah, N.; Harousseau, J-L. 2010: Tandem versus Single Autologous Peripheral Blood Stem cell Transplantation as Post-Remission Therapy in Adult Acute Myeloid Leukemia Patients under 60 in first Complete Remission: Results of the Multicenter Prospective Phase Iii Goelams Lam-2001 Trial. Leukemia 24(7): 1380-1385
Hayakawa, F.; Towatari, M.; Kiyoi, H.; Tanimoto, M.; Kitamura, T.; Saito, H.; Naoe, T. 2000: Tandem-duplicated Flt3 constitutively activates STAT5 and MAP kinase and introduces autonomous cell growth in IL-3-dependent cell lines. Oncogene 19(5): 624-631
Cavalier, E.; Le Goff, C. 2020: Tandem-mess spectrometry coupled with liquid chromatography (LCMS/MS) : a revolution in the clinical chemistry laboratory. Revue Medicale de Liege 75(5-6): 457-459
Lee, Y.Keun.; Lee, H.; Park, J.Young. 2014: Tandem-structured, hot electron based photovoltaic cell with double Schottky barriers. Scientific Reports 4: 4580
Liu, F.C.; Ridgeway, M.E.; Winfred, J.S.R.V.; Polfer, N.C.; Lee, J.; Theisen, A.; Wootton, C.A.; Park, M.A.; Bleiholder, C. 2021: Tandem-trapped ion mobility spectrometry/mass spectrometry coupled with ultraviolet photodissociation. Rapid Communications in Mass Spectrometry: Rcm 35(22): E9192
Peng, L.; Zheng, M.; Pan, T.; Su, G.; Li, Q. 2021: Tandem-wing interactions on aerodynamic performance inspired by dragonfly hovering. Royal Society Open Science 8(8): 202275
Elison, D.; McCabe, J. 2020: TandemHeart-Assisted Balloon Aortic Valvuloplasty for Acute Transcatheter Aortic Valve Replacement Thrombosis. Jacc. Case Reports 2(3): 437-439
Mikheenko, A.; Bzikadze, A.V.; Gurevich, A.; Miga, K.H.; Pevzner, P.A. 2020: TandemTools: mapping long reads and assessing/improving assembly quality in extra-long tandem repeats. Bioinformatics 36(Suppl_1): I75-I83
Dunn, J.T.; Mroczek, J.; Patel, H.R.; Ragozzino, M.E. 2020: Tandospirone, a Partial 5-HT1A Receptor Agonist, Administered Systemically or into Anterior Cingulate Attenuates Repetitive Behaviors in Shank3B Mice. International Journal of Neuropsychopharmacology 23(8): 533-542
Jin, Y.H.; Akaike, N. 1998: Tandospirone-induced K+ current in acutely dissociated rat dorsal raphe neurones. British Journal of Pharmacology 124(5): 897-904
Brownlow, N.; Vaid, M.; Dibb, N.J. 2008: Tandutinib inhibits FMS receptor signalling, and macrophage and osteoclast formation in vitro. Leukemia 22(7): 1452-1453
Onuora, S. 2020: Tanezumab improves difficult-to-treat OA. Nature Reviews. Rheumatology 16(6): 296
Zhang, Q.; Huang, Y.; Li, X.; Liu, H.; He, B.; Wang, B.; Ma, Y.; Zhou, X.; Liu, Y.; Wu, S. 2019: Tangduqing Granules Attenuate Insulin Resistance and Abnormal Lipid Metabolism through the Coordinated Regulation of PPAR γ and DGAT2 in Type 2 Diabetic Rats. Journal of Diabetes Research 2019: 7403978
Dümmer, M.; Spasić, S.Z.; Feil, M.; Michalski, C.; Forreiter, C.; Galland, P. 2021: Tangent algorithm for photogravitropic balance in plants and Phycomyces blakesleeanus: Roles for EHB1 and NPH3 of Arabidopsis thaliana. Journal of Plant Physiology 260: 153396
Qureshi, M.; Inam, O.; Qazi, S.A.; Aslam, I.; Omer, H. 2021: Tangent vector-based gradient method with l12-regularization: Iterative half thresholding algorithm for CS-MRi. Journal of Magnetic Resonance 333: 107080
Kiehlmann, M.V.; Morandi, E.M.; Kühn, S.; Spennato, S.; Schloßhauer, T.; Djedovic, G.; Rieger, U.M. 2021: Tangential Excision of Rhinophyma with the Disposable Razor Blade: Simple and Cost Efficient with Aesthetically Good Results. Journal of Cutaneous and Aesthetic Surgery 14(1): 72-76
López-González, L.; Alonso, A.; García-Calero, E.; de Puelles, E.; Puelles, L. 2021: Tangential Intrahypothalamic Migration of the Mouse Ventral Premamillary Nucleus and Fgf8 Signaling. Frontiers in Cell and Developmental Biology 9: 676121
Zamora, P.; Baran, G.; Nagle, C.; Hammoud, A.; Dominello, M.M. 2021: Tangential VMAT vs. 3D-Conformal Radiotherapy for Left-Sided Whole Breast and Regional Lymph Node Irradiation. International Journal of Radiation Oncology Biology Physics 111(3s): E529
Diogo, A.Cinira.M.; Lima, B.; Soares, J.G.M.; Gattass, R. 2020: Tangential distribution of cell type and direction selectivity in monkey area MT. Anais da Academia Brasileira de Ciencias 92(2): E20190564
Andreatta, Dênico.; Shonza, N.Samson.; Muniz, E.Perini.; Bacelos, M.Silveira.; Dalmaschio, C.José.; Porto, P.Sérgio.da.Silva. 2021: Tangential effluent inlet in a cylindrical electrocoagulation reactor containing curved electrodes, and its use in crude oil in water treatment. Environmental Technology 2021: 1-24
Qin, D.; Jiang, Y.-R. 2020: Tangeretin Inhibition of High-Glucose-Induced IL-1β, IL-6, TGF-β1, and VEGF Expression in Human RPE Cells. Journal of Diabetes Research 2020: 9490642
Chiangsaen, P.; Maneesai, P.; Kukongviriyapan, U.; Tong-Un, T.; Ishida, W.; Prachaney, P.; Pakdeechote, P. 2020: Tangeretin ameliorates erectile and testicular dysfunction in a rat model of hypertension. Reproductive Toxicology 96: 1-10
Alhamad, D.W.; Elgendy, S.M.; Al-Tel, T.H.; Omar, H.A. 2021: Tangeretin as an adjuvant and chemotherapeutic sensitizer against various types of cancers: a comparative overview. Journal of Pharmacy and Pharmacology 73(5): 601-610
Mdkhana, B.; Zaher, D.M.; Abdin, S.M.; Omar, H.A. 2021: Tangeretin boosts the anticancer activity of metformin in breast cancer cells via curbing the energy production. Phytomedicine: International Journal of PhytoTherapy and Phytopharmacology 83: 153470
Wang, Y.; Jin, R.; Chen, J.; Cao, J.; Xiao, J.; Li, X.; Sun, C. 2021: Tangeretin maintains antioxidant activity by reducing CUL3 mediated NRF2 ubiquitination. Food Chemistry 365: 130470
Sanaullah, I.; Bashir, M.; Batool, T.; Riaz, S.; Ali, D.; Sabri, A.N.; Naseem, S. 2021: Tangerine mediated synthesis of zirconia as potential protective dental coatings. Materials Science and Engineering. C Materials for Biological Applications 120: 111653
Tanambell, H.; Bishop, K.Suzanne.; Quek, S.Young. 2020: Tangerine tomatoes: origin, biochemistry, potential health benefits and future prospects. Critical Reviews in Food Science and Nutrition 2020: 1-12
El Barnossi, A.; Moussaid, F.; Iraqi Housseini, A. 2021: Tangerine, banana and pomegranate peels valorisation for sustainable environment: a review. Biotechnology Reports 29: E00574
Yao, Z.; Luo, Y.; Li, S. 2021: Tangguoa gen. nov., one new genus of daddy-long-leg spiders (Araneae: Pholcidae) from southern China. Zootaxa 4938(1)
Harwood, H.B.; Hall, M.E.L.; Edwards, K.J.; Hill, P.C. 2022: Tangible Experiences of Grace: a Qualitative Investigation of Divine Grace in Roman Catholics. Pastoral Psychology 71(3): 359-376
Culpin, I.; Dermott, E.; Ives, J.; MacLeavy, J. 2021: Tangible co-production? Engaging and creating with fathers. Area 53(1): 30-37
Lee, S.-Y.; Tung, H.-H.; Liu, C.-Y.; Wei, J.; Chen, L.-K. 2021: Tangible dynamic changes in resilience, nutrition, and leisure activity of older patients with cardiovascular disease and possible sarcopenia: a longitudinal study. Archives of Gerontology and Geriatrics 95: 104416
Urbánek, R.; Tichý, L.áš; Freiberger, T.áš 2020: Tangier disease in family with the phenotype of familial hypercholesterolemia. Vnitrni Lekarstvi 66(7): 443-446
Rust, S.; Rosier, M.; Funke, H.; Real, J.; Amoura, Z.; Piette, J.C.; Deleuze, J.F.; Brewer, H.B.; Duverger, N.; Denèfle, P.; Assmann, G. 1999: Tangier disease is caused by mutations in the gene encoding ATP-binding cassette transporter 1. Nature Genetics 22(4): 352-355
Holzbaur, E.L.F. 2004: Tangled NUDELs?. Nature Cell Biology 6(7): 569-570
Moskowitz, C. 2016: Tangled Up in Spacetime. Scientific American 316(1): 32-37
M, A.; Mohan, R.; Gondhale, H.P. 2020: Tangled Vasculature in the Eye of a Young Girl. JAMA Ophthalmology 138(11): E202045
McCabe, H.; Wright, J. 2000: Tangled tale of a lost, stolen and disputed coelacanth. Nature 406(6792): 114
Danton, M.H.D. 2021: Tangled up in blue: the complexities of pulmonary artery augmentation. European Journal of Cardio-Thoracic Surgery: Official Journal of the European Association for Cardio-Thoracic Surgery 60(5): 1102-1103
Yang, X.; Yao, W.; Liu, H.; Gao, Y.; Liu, R.; Xu, L. 2017: Tangluoning, a traditional Chinese medicine, attenuates in vivo and in vitro diabetic peripheral neuropathy through modulation of PERK/Nrf2 pathway. Scientific Reports 7(1): 1014
Koh, Y.; Noh, G. 2020: Tango therapy for Parkinson's disease: Effects of rush elemental tango therapy. Clinical Case Reports 8(6): 970-977
Kang, Y.; Neuman, S.D.; Bashirullah, A. 2017: Tango7 regulates cortical activity of caspases during reaper-triggered changes in tissue elasticity. Nature Communications 8(1): 603
Maan, M.; Agrawal, N.J.; Padmanabhan, J.; Leitzinger, C.C.; Rivera-Rivera, Y.; Saavedra, H.I.; Chellappan, S.P. 2021: Tank Binding Kinase 1 modulates spindle assembly checkpoint components to regulate mitosis in breast and lung cancer cells. Biochimica et Biophysica Acta. Molecular Cell Research 1868(3): 118929
Pillai, S.; Nguyen, J.; Johnson, J.; Haura, E.; Coppola, D.; Chellappan, S. 2015: Tank binding kinase 1 is a centrosome-associated kinase necessary for microtubule dynamics and mitosis. Nature Communications 6: 10072
Galon, L.; Brunetto, L.; Loureiro da Silva, A.Marcos.; Soligo, Vícius.; Cavaletti, D.Cristian.; da Silva, A.Ferreira.; Gallina, A.; Franceschetti, M.Barretta.; Forte, C.Tiago.; Perin, G.Francisco. 2021: Tank mixture of glyphosate and 2,4-D applied on RR® maize crop. Journal of Environmental Science and Health. Part. B Pesticides Food Contaminants and Agricultural Wastes 2021: 1-6
Li, X.-X.; He, L.-F.; Pang, X.-Y.; Gao, Y.-Y.; Liu, Y.; Zhang, P.; Wei, G.; Mu, W.; Li, B.-X.; Liu, F. 2021: Tank-mixing adjuvants enhanced the efficacy of fludioxonil on cucumber anthracnose by ameliorating the penetration ability of active ingredients on target interface. Colloids and Surfaces. B Biointerfaces 204: 111804
Hu, B.; Liu, T.L. 2021: Tanking up energy through atypical charging. Science 372(6544): 788-789
Kim, M.Kyung.; Dudognon, C.; Smith, S. 2012: Tankyrase 1 regulates centrosome function by controlling CPAP stability. Embo Reports 13(8): 724-732
Li, N.; Wang, Y.; Neri, S.; Zhen, Y.; Fong, L.Wolf.R.; Qiao, Y.; Li, X.; Chen, Z.; Stephan, C.; Deng, W.; Ye, R.; Jiang, W.; Zhang, S.; Yu, Y.; Hung, M-Chie.; Chen, J.; Lin, S.H. 2019: Tankyrase disrupts metabolic homeostasis and promotes tumorigenesis by inhibiting LKB1-AMPK signalling. Nature Communications 10(1): 4363
Kuusela, S.; Wang, H.; Wasik, A.A.; Suleiman, H.; Lehtonen, S. 2016: Tankyrase inhibition aggravates kidney injury in the absence of CD2AP. Cell Death and Disease 7: E2302
Wang, H.; Kuusela, S.; Rinnankoski-Tuikka, R.; Dumont, V.; Bouslama, R.; Ramadan, U.Abo.; Waaler, J.; Linden, A-Maija.; Chi, N-Wen.; Krauss, S.; Pirinen, E.; Lehtonen, S. 2020: Tankyrase inhibition ameliorates lipid disorder via suppression of PGC-1α PARylation in db/db mice. International Journal of Obesity 44(8): 1691-1702
Manglani, K.; Dey, C.S. 2020: Tankyrase inhibition augments neuronal insulin sensitivity and glucose uptake via AMPK-AS160 mediated pathway. Neurochemistry International 141: 104854
Kim, S.; Han, S.; Kim, Y.; Kim, H-Seop.; Gu, Y-Ran.; Kang, D.; Cho, Y.; Kim, H.; Lee, J.; Seo, Y.; Chang, M.Jong.; Chang, C.Bum.; Kang, S-Baik.; Kim, J-Hong. 2019: Tankyrase inhibition preserves osteoarthritic cartilage by coordinating cartilage matrix anabolism via effects on SOX9 PARylation. Nature Communications 10(1): 4898
Waaler, J.; Mygland, L.; Tveita, A.; Strand, M.Frank.; Solberg, N.Therese.; Olsen, P.Angell.; Aizenshtadt, A.; Fauskanger, M.; Lund, K.; Brinch, S.Alam.; Lycke, M.; Dybing, E.; Nygaard, V.; Bøe, S.Læines.; Heintz, K-Marie.; Hovig, E.; Hammarström, C.; Corthay, A.; Krauss, S. 2020: Tankyrase inhibition sensitizes melanoma to PD-1 immune checkpoint blockade in syngeneic mouse models. Communications Biology 3(1): 196
Huang, S-Min.A.; Mishina, Y.M.; Liu, S.; Cheung, A.; Stegmeier, F.; Michaud, G.A.; Charlat, O.; Wiellette, E.; Zhang, Y.; Wiessner, S.; Hild, M.; Shi, X.; Wilson, C.J.; Mickanin, C.; Myer, V.; Fazal, A.; Tomlinson, R.; Serluca, F.; Shao, W.; Cheng, H.; Shultz, M.; Rau, C.; Schirle, M.; Schlegl, J.; Ghidelli, S.; Fawell, S.; Lu, C.; Curtis, D.; Kirschner, M.W.; Lengauer, C.; Finan, P.M.; Tallarico, J.A.; Bouwmeester, T.; Porter, J.A.; Bauer, A.; Cong, F. 2009: Tankyrase inhibition stabilizes axin and antagonizes Wnt signalling. Nature 461(7264): 614-620
Almasoud, N.; Binhamdan, S.; Younis, G.; Alaskar, H.; Alotaibi, A.; Manikandan, M.; Alfayez, M.; Kassem, M.; AlMuraikhi, N. 2020: Tankyrase inhibitor XAV-939 enhances osteoblastogenesis and mineralization of human skeletal (mesenchymal) stem cells. Scientific Reports 10(1): 16746
Ha, G-H.; Kim, H-S.; Go, H.; Lee, H.; Seimiya, H.; Chung, D.H.; Lee, C-W. 2012: Tankyrase-1 function at telomeres and during mitosis is regulated by Polo-like kinase-1-mediated phosphorylation. Cell Death and Differentiation 19(2): 321-332
Chang, P.; Coughlin, M.; Mitchison, T.J. 2005: Tankyrase-1 polymerization of poly(ADP-ribose) is required for spindle structure and function. Nature Cell Biology 7(11): 1133-1139
Riffell, J.L.; Lord, C.J.; Ashworth, A. 2012: Tankyrase-targeted therapeutics: expanding opportunities in the PARP family. Nature Reviews. Drug Discovery 11(12): 923-936
Zamudio-Martinez, E.; Herrera-Campos, A.B.én.; Muñoz, A.; Rodríguez-Vargas, J.é M.; Oliver, F.J. 2021: Tankyrases as modulators of pro-tumoral functions: molecular insights and therapeutic opportunities. Journal of Experimental and Clinical Cancer Research: Cr 40(1): 144
D'Alessandro, S.; Beaugelin, I.ès.; Havaux, M. 2020: Tanned or Sunburned: how Excessive Light Triggers Plant Cell Death. Molecular Plant 13(11): 1545-1555
Cole, T.J. 2020: Tanner's tempo of growth in adolescence: recent SITAR insights with the Harpenden Growth Study and ALSPAC. Annals of Human Biology 47(2): 181-198
Hu, X.; Zhang, Q.; Zhang, M.; Yang, X.; Zeng, T-S.; Zhang, J-Y.; Zheng, J.; Kong, W.; Min, J.; Tian, S-H.; Zhu, R.; Yuan, Z.; Wu, C.; Chen, L-L. 2018: Tannerella forsythia and coating color on the tongue dorsum, and fatty food liking associate with fat accumulation and insulin resistance in adult catch-up fat. International Journal of Obesity 42(2): 121-128
Ansbro, K.; Wade, W.G.; Stafford, G.P. 2020: Tannerella serpentiformis sp. nov., isolated from the human mouth. International Journal of Systematic and Evolutionary Microbiology 70(6): 3749-3754
Sehati, F.; Ahmadi, I.; Farivar, N.; Ranjbaran, M.; Sadat-Shirazi, M.-S.; Nabavizadeh, F.; Mahla Shavakandi, S.; Ashabi, G. 2021: Tannic acid protects aged brain against cerebral hypoperfusion via modulation of Nrf2 and inflammatory pathways. Neuroscience Letters 765: 136263
Salman, M.; Tabassum, H.; Parvez, S. 2020: Tannic Acid Provides Neuroprotective Effects Against Traumatic Brain Injury Through the PGC-1α/Nrf2/HO-1 Pathway. Molecular Neurobiology 57(6): 2870-2885
Weber, F.; Sagstuen, E.; Zhong, Q.-Z.; Zheng, T.; Tiainen, H. 2020: Tannic Acid Radicals in the Presence of Alkali Metal Salts and their Impact on the Formation of Silicate-Phenolic Networks. Acs Applied Materials and Interfaces 12(47): 52457-52466
Shin, M.; Kim, K.; Shim, W.; Yang, J.W.; Lee, H. 2016: Tannic Acid as a Degradable Mucoadhesive Compound. Acs Biomaterials Science and Engineering 2(4): 687-696
Sam, S.; Anand, S.K.; Mathew, M.R.; Kumar, K.G. 2021: Tannic Acid Capped Copper Nanoclusters as a Cost-Effective Fluorescence Probe for Hemoglobin Determination. Analytical Sciences: the International Journal of the Japan Society for Analytical Chemistry 37(4): 599-603
Kawano, M.; Saika, K.; Takagi, R.; Matsui, M.; Matsushita, S. 2020: Tannic acid acts as an agonist of the dopamine D2L receptor, regulates immune responses, and ameliorates experimentally induced colitis in mice. BrainBehaviorandImmunity-Health 5: 100071
Jung, M.Kyung.; Hur, D.Young.; Song, S.Bean.; Park, Y.; Kim, T.Sung.; Bang, S.Ik.; Kim, S.; Song, H.Keun.; Park, H.; Cho, D.Ho. 2010: Tannic acid and quercetin display a therapeutic effect in atopic dermatitis via suppression of angiogenesis and TARC expression in Nc/Nga mice. Journal of Investigative Dermatology 130(5): 1459-1463
Raverdino, E. 1956: Tannic acid and trachoma. Revue Internationale du Trachome. International Review of Trachoma 33(2): 229-233
Xu, Y.; Liu, P.; Xu, S.; Koroleva, M.; Zhang, S.; Si, S.; Jin, Z.Gen. 2017: Tannic acid as a plant-derived polyphenol exerts vasoprotection via enhancing KLF2 expression in endothelial cells. Scientific Reports 7(1): 6686
Li, M.; Liu, P.; Xue, Y.; Liang, Y.; Shi, J.; Han, X.; Zhang, J.; Chu, X.; Chu, L. 2020: Tannic acid attenuates hepatic oxidative stress, apoptosis and inflammation by activating the Keap1‑Nrf2/ARE signaling pathway in arsenic trioxide‑toxicated rats. Oncology Reports 44(5): 2306-2316
Awuah Boadi, E.; Shin, S.; Bandyopadhyay, B.C. 2021: Tannic acid attenuates vascular calcification-induced proximal tubular cells damage through paracrine signaling. Biomedicine and PharmacoTherapy 140: 111762
Kasiram, M.Z.; Hapidin, H.; Abdullah, H.; Hashim, N.M.; Azlina, A.; Sulong, S. 2022: Tannic acid enhances cisplatin effect on cell proliferation and apoptosis of human osteosarcoma cell line (U2OS). Pharmacological Reports: Pr 74(1): 175-188
De Veras, B.O.; da Silva, M.ár.V.; Cabral Ribeiro, P.P. 2021: Tannic acid is a gastroprotective that regulates inflammation and oxidative stress. Food and Chemical Toxicology: An International Journal Published for the British Industrial Biological Research Association 156: 112482
Wang, T.; Jing, L.-C.; Zhu, Q.; Sagadevan Ethiraj, A.; Fan, X.; Liu, H.; Tian, Y.; Zhu, Z.; Meng, Z.; Geng, H.-Z. 2020: Tannic acid modified graphene/CNT three-dimensional conductive network for preparing high-performance transparent flexible heaters. Journal of Colloid and Interface Science 577: 300-310
Wu, J.; Li, J.; Liu, Y.; Liao, X.; Wu, D.; Chen, Y.; Liang, Z.; Yuan, Z.; Li, R.; Yi, J.; Wen, L. 2021: Tannic acid repair of zearalenone-induced damage by regulating the death receptor and mitochondrial apoptosis signaling pathway in mice. Environmental Pollution 287: 117557
Kharouf, N.; Zghal, J.; Addiego, F.éd.ér.; Gabelout, M.; Jmal, H.; Haikel, Y.; Bahlouli, N.; Ball, V. 2021: Tannic acid speeds up the setting of mineral trioxide aggregate cements and improves its surface and bulk properties. Journal of Colloid and Interface Science 589: 318-326
Wang, S.-C.; Chen, Y.; Wang, Y.-C.; Wang, W.-J.; Yang, C.-S.; Tsai, C.-L.; Hou, M.-H.; Chen, H.-F.; Shen, Y.-C.; Hung, M.-C. 2020: Tannic acid suppresses SARS-CoV-2 as a dual inhibitor of the viral main protease and the cellular TMPRSS2 protease. American Journal of Cancer Research 10(12): 4538-4546
Li, Y.; Lin, R.; Lv, F.; Zhao, X.; Yong, T.; Zuo, X. 2022: Tannic acid-Fe complex derivative-modified electrode with pH regulating function for environmental remediation by electro-Fenton process. Environmental Research 204(Part A): 111994
Xing, Y.; Li, J.; Chen, M.; Wang, X.; Hou, X. 2021: Tannic acid-directed synthesis of magnetic and boronic acid-functionalized metal-organic frameworks for selective extraction and quantification of catecholamines in human urine. Mikrochimica Acta 188(7): 225
Kim, S.; Chung, J.; Lee, S.Hyun.; Yoon, J.Hyeon.; Kweon, D-Hyuk.; Chung, W-Jae. 2021: Tannic acid-functionalized HEPA filter materials for influenza virus capture. Scientific Reports 11(1): 979
Shim, G.; Ko, S.; Park, J.Y.; Suh, J.H.; Le, Q.-V.; Kim, D.; Kim, Y.B.; Im, G.H.; Kim, H.N.; Choe, Y.S.; Cho, J.; Kim, S.; Oh, Y.-K. 2020: Tannic acid-functionalized boron nitride nanosheets for theranostics. Journal of Controlled Release: Official Journal of the Controlled Release Society 327: 616-626
Tan, L.; Zhou, X.; Wu, K.; Yang, D.; Jiao, Y.; Zhou, C. 2020: Tannic acid/CaIi anchored on the surface of chitin nanofiber sponge by layer-by-layer deposition: Integrating effective antibacterial and hemostatic performance. International Journal of Biological Macromolecules 159: 304-315
Hao, B.; Wang, F.; Huang, H.; Wu, Y.; Jia, S.; Liao, Y.; Mao, H. 2021: Tannin foam immobilized with ferric ions for efficient removal of ciprofloxacin at low concentrations. Journal of Hazardous Materials 414: 125567
Sun, X.; Zhang, J.; Ding, G.; You, Y. 2020: Tannin-based biosorbent encapsulated into calcium alginate beads for Cr(VI) removal. Water Science and Technology: a Journal of the International Association on Water Pollution Research 81(5): 936-948
Teixeira, M.S.; Speranza, L.G.; da Silva, I.C.; Moruzzi, R.B.; Silva, G.H.R. 2022: Tannin-based coagulant for harvesting microalgae cultivated in wastewater: Efficiency, floc morphology and products characterization. Science of the Total Environment 807(Part 1): 150776
Sobeh, M.; Mahmoud, M.F.; Hasan, R.A.; Abdelfattah, M.A.O.; Sabry, O.M.; Ghareeb, M.A.; El-Shazly, A.M.; Wink, M. 2018: Tannin-rich extracts from Lannea stuhlmannii and Lannea humilis (Anacardiaceae) exhibit hepatoprotective activities in vivo via enhancement of the anti-apoptotic protein Bcl-2. Scientific Reports 8(1): 9343
Glade, D.C.; Smith, A.C.; Fisher-Shiu, V.T.; Gilson, R.T. 2021: Tanning Attitudes and Behaviors in Adolescents and Young Adults. Cutis 107(5): 261-263
Emerson, S.G. 2004: Tanning before transplant: lancing the Langerhans cell. Nature Medicine 10(5): 451-452
Chang, Z.; Jian, P.; Zhang, Q.; Liang, W.; Zhou, K.; Hu, Q.; Liu, Y.; Liu, R.; Zhang, L. 2021: Tannins in Terminalia bellirica inhibit hepatocellular carcinoma growth by regulating EGFR-signaling and tumor immunity. Food and Function 12(8): 3720-3739
Khalifa, I.; Zhu, W.; Mohammed, H.H.H.; Dutta, K.; Li, C. 2020: Tannins inhibit SARS-CoV-2 through binding with catalytic dyad residues of 3CLpro : An in silico approach with 19 structural different hydrolysable tannins. Journal of Food Biochemistry 2020: E13432
Qu, C.-C.; Zhao, G.-Z.; Wang, X.-P.; Xu, X.-L.; Li, B.; Guo, Y.-H.; Liu, Q.-Q. 2020: Tanreqing Injection () for Patients with Influenza: a Systematic Review and Meta-analysis of Randomized Controlled Trials. Chinese Journal of Integrative Medicine 26(12): 936-942
Yang, L.; Zhou, G.; Liu, J.; Song, J.; Zhang, Z.; Huang, Q.; Wei, F. 2021: Tanshinone i and Tanshinone IIA/B attenuate LPS-induced mastitis via regulating the NF-κB. Biomedicine and PharmacoTherapy 137: 111353
Zhuo, Y.; Yuan, R.; Chen, X.; He, J.; Chen, Y.; Zhang, C.; Sun, K.; Yang, S.; Liu, Z.; Gao, H. 2021: Tanshinone i exerts cardiovascular protective effects in vivo and in vitro through inhibiting necroptosis via Akt/Nrf2 signaling pathway. Chinese Medicine 16(1): 48
Sun, S.; Zhu, L.; Lai, M.; Cheng, R.; Ge, Y. 2021: Tanshinone i inhibited growth of human chronic myeloid leukemia cells via JNK/ERK mediated apoptotic pathways. Brazilian Journal of Medical and Biological Research 54(8): E10685
Huang, Y.; Yu, S.-H.; Zhen, W.-X.; Cheng, T.; Wang, D.; Lin, J.-B.; Wu, Y.-H.; Wang, Y.-F.; Chen, Y.; Shu, L.-P.; Wang, Y.; Sun, X.-J.; Zhou, Y.; Yang, F.; Hsu, C.-H.; Xu, P.-F. 2021: Tanshinone I, a new EZH2 inhibitor restricts normal and malignant hematopoiesis through upregulation of MMP9 and ABCG2. Theranostics 11(14): 6891-6904
Lou, G.; Hu, W.; Wu, Z.; Xu, H.; Yao, H.; Wang, Y.; Huang, Q.; Wang, B.; Wen, L.; Gong, D.; Chen, X.; Shi, Y.; Yang, L.; Xu, Y.; Wang, Y. 2020: Tanshinone II A attenuates vascular remodeling through klf4 mediated smooth muscle cell phenotypic switching. Scientific Reports 10(1): 13858
Li, S.; Wu, C.; Fan, C.; Zhang, P.; Yu, G.; Li, K. 2021: Tanshinone Ii a improves the chemosensitivity of breast cancer cells to doxorubicin by inhibiting β-catenin nuclear translocation. Journal of Biochemical and Molecular Toxicology 35(1): E22620
Xu, H.; Li, H.; Zhu, P.; Liu, Y.; Zhou, M.; Chen, A. 2020: Tanshinone IIA Ameliorates Progression of CAD Through Regulating Cardiac H9c2 Cells Proliferation and Apoptosis by miR-133a-3p/EGFR Axis. Drug Design Development and Therapy 14: 2853-2863
Song, Q.; Yang, L.; Han, Z.; Wu, X.; Li, R.; Zhou, L.; Liu, N.; Sui, H.; Cai, J.; Wang, Y.; Ji, Q.; Li, Q. 2020: Tanshinone IIA Inhibits Epithelial-to-Mesenchymal Transition Through Hindering β-Arrestin1 Mediated β-Catenin Signaling Pathway in Colorectal Cancer. Frontiers in Pharmacology 11: 586616
Hu, C.; Zhu, X.; Zhang, T.; Deng, Z.; Xie, Y.; Yan, F.; Cai, L. 2021: Tanshinone IIA Inhibits Osteosarcoma Growth through a Src Kinase-Dependent Mechanism. Evidence-BasedComplementaryandAlternativeMedicine:Ecam 2021: 5563691
Wang, J.; Ni, G.; Liu, Y.; Han, Y.; Jia, L.; Wang, Y. 2020: Tanshinone IIA Promotes Axonal Regeneration in Rats with Focal Cerebral Ischemia Through the Inhibition of Nogo-A/NgR1/RhoA/ROCKII/MLC Signaling. Drug Design Development and Therapy 14: 2775-2787
Chen, M.; Chen, Q.; Tao, T. 2020: Tanshinone IIA Promotes M2 Microglia by ERβ/IL-10 Pathway and Attenuates Neuronal Loss in Mouse TBi Model. Neuropsychiatric Disease and Treatment 16: 3239-3250
You, S.; He, X.; Wang, M.; Mao, L.; Zhang, L. 2020: Tanshinone IIA Suppresses Glioma Cell Proliferation, Migration and Invasion Both in vitro and in vivo Partially Through miR-16-5p/Talin-1 (TLN1) Axis. Cancer Management and Research 12: 11309-11320
Du, H.; Wang, Y.; Zeng, Y.; Huang, X.; Liu, D.; Ye, L.; Li, Y.; Chen, X.; Liu, T.; Li, H.; Wu, J.; Yu, Q.; Wu, Y.; Jie, L. 2020: Tanshinone IIA Suppresses Proliferation and Inflammatory Cytokine Production of Synovial Fibroblasts from Rheumatoid Arthritis Patients Induced by TNF-α and Attenuates the Inflammatory Response in AIA Mice. Frontiers in Pharmacology 11: 568
Liu, H.; Liu, C.; Wang, M.; Sun, D.; Zhu, P.; Zhang, P.; Tan, X.; Shi, G. 2021: Tanshinone IIA affects the malignant growth of Cholangiocarcinoma cells by inhibiting the PI3K-Akt-mTOR pathway. Scientific Reports 11(1): 19268
Li, Y.; Fu, Y.; Sun, J.; Shen, J.; Liu, F.; Ning, B.; Lu, Z.; Wei, L.; Jiang, X. 2022: Tanshinone IIA alleviates NLRP3 inflammasome-mediated pyroptosis in Mycobacterium tuberculosis-(H37Ra-) infected macrophages by inhibiting endoplasmic reticulum stress. Journal of Ethnopharmacology 282:: 114595
Gong, Y.; Zhang, Y.-L.; Wang, Z.; Song, H.-H.; Liu, Y.-C.; Lv, A.-W.; Tian, L.-L.; Zhu, W.-L.; Fu, Y.; Ding, X.-L.; Cui, L.-J.; Yan, Y.-P. 2020: Tanshinone IIA alleviates brain damage in a mouse model of neuromyelitis optica spectrum disorder by inducing neutrophil apoptosis. Journal of Neuroinflammation 17(1): 198
Wang, J.; Tong, H.; Wang, X.; Wang, X.; Wang, Y. 2020: Tanshinone IIA alleviates the damage of neurocytes by targeting GLUT1 in ischaemia reperfusion model (in vivo and in vitro experiments). Folia Neuropathologica 58(2): 176-193
Zhang, D.; Wang, Y.; Li, G.; Zhang, B. 2021: Tanshinone IIA alleviates vitiligo by suppressing AKT mediated CD8+  T cells activation in a mouse model. Dermatologic Therapy 34(5): E15086
Du, X.; Wang, X.; Cui, K.; Chen, Y.; Zhang, C.; Yao, K.; Hao, Y.; Chen, Y. 2021: Tanshinone IIA and Astragaloside IV Inhibit miR-223/JAK2/STAT1 Signalling Pathway to Alleviate Lipopolysaccharide-Induced Damage in Nucleus Pulposus Cells. Disease Markers 2021: 6554480
Liu, L.; Gao, H.; Wen, T.; Gu, T.; Zhang, S.; Yuan, Z. 2021: Tanshinone IIA attenuates AOM/DSS-induced colorectal tumorigenesis in mice via inhibition of intestinal inflammation. Pharmaceutical Biology 59(1): 89-96
Ding, B.; Lin, C.; Liu, Q.; He, Y.; Ruganzu, J.B.; Jin, H.; Peng, X.; Ji, S.; Ma, Y.; Yang, W. 2020: Tanshinone IIA attenuates neuroinflammation via inhibiting RAGE/NF-κB signaling pathway in vivo and in vitro. Journal of Neuroinflammation 17(1): 302
Xu, L.; Xu, Y.; Zhu, Z.; Gu, H.; Chen, C.; Chen, J. 2021: Tanshinone IIA attenuates renal injury during hypothermic preservation via the MEK/ERK1/2/GSK-3β pathway. BMC complementary medicine and therapies 21(1): 257
Tai, H.; Jiang, X.-L.; Lan, Z.-M.; Li, Y.; Kong, L.; Yao, S.-C.; Song, N.; Lv, M.-J.; Wu, J.; Yang, P.; Xiao, X.-S.; Yang, G.-L.; Kuang, J.-S.; Jia, L.-Q. 2021: Tanshinone IIA combined with CsA inhibit myocardial cell apoptosis induced by renal ischemia-reperfusion injury in obese rats. Bmc Complementary Medicine and Therapies 21(1): 100
Fu, K.; Feng, C.; Shao, L.; Mei, L.; Cao, R. 2021: Tanshinone IIA exhibits anti-inflammatory and antioxidative effects in LPS-stimulated bovine endometrial epithelial cells by activating the Nrf2 signaling pathway. Research in Veterinary Science 136: 220-226
Zhou, X.; Lv, L.; Tan, Y.; Zhang, Z.; Wei, S.; Xiao, S. 2021: Tanshinone IIA sensitizes TRAIL-induced apoptosis in glioblastoma through inducing the expression of death receptors (and suppressing STAT3 activation). Brain Research 1766: 147515
Chiu, S.C.; Huang, S.Y.; Chen, S.P.; Su, C.C.; Chiu, T.L.; Pang, C.Y. 2013: Tanshinone IIA inhibits human prostate cancer cells growth by induction of endoplasmic reticulum stress in vitro and in vivo. Prostate Cancer and Prostatic Diseases 16(4): 315-322
Li, M.; Gao, F.; Zhao, Q.; Zuo, H.; Liu, W.; Li, W. 2020: Tanshinone IIA inhibits oral squamous cell carcinoma via reducing Akt-c-Myc signaling-mediated aerobic glycolysis. Cell Death and Disease 11(5): 381
Kwak, H.Bok.; Yang, D.; Ha, H.; Lee, J.Ho.; Kim, H.Neui.; Woo, E.Ran.; Lee, S.; Kim, H.Hee.; Lee, Z.Hee. 2006: Tanshinone IIA inhibits osteoclast differentiation through down-regulation of c-Fos and NFATc1. Experimental and Molecular Medicine 38(3): 256-264
Xie, Z.; He, B.; Jiang, Z.; Zhao, L. 2020: Tanshinone IIA inhibits osteosarcoma growth through modulation of AMPK-Nrf2 signaling pathway. Journal of Receptor and Signal Transduction Research 40(6): 591-598
Li, K.; Wang, X.; Fan, C.; Wu, C.; Li, S.; Liu, H. 2020: Tanshinone IIA promotes cardiac differentiation and improves cell motility by modulating the Wnt/β‑catenin signaling pathway. Molecular Medicine Reports 22(3): 1839-1846
He, L.; Liu, Y.-Y.; Wang, K.; Li, C.; Zhang, W.; Li, Z.-Z.; Huang, X.-Z.; Xiong, Y. 2021: Tanshinone IIA protects human coronary artery endothelial cells from ferroptosis by activating the NRF2 pathway. Biochemical and Biophysical Research Communications 575: 1-7
Wu, L-Cai.; Lin, X.; Sun, H. 2012: Tanshinone IIA protects rabbits against LPS-induced disseminated intravascular coagulation (DIC). Acta Pharmacologica Sinica 33(10): 1254-1259
Zhang, Z.; Zhu, D.; Zhang, X.; Liu, Y.; Wang, J.; Yan, L. 2021: Tanshinone IIA regulates fibroblast proliferation and migration and post-surgery arthrofibrosis through the autophagy-mediated PI3K and AMPK-mTOR signaling pathway. American Journal of Translational Research 13(2): 565-584
Nie, Z.-Y.; Zhao, M.-H.; Cheng, B.-Q.; Pan, R.-F.; Wang, T.-R.; Qin, Y.; Zhang, X.-J. 2020: Tanshinone IIA regulates human AML cell proliferation, cell cycle, and apoptosis through miR-497-5p/AKT3 axis. Cancer Cell International 20: 379
Zhou, J.; Jiang, Y.-Y.; Wang, X.-X.; Wang, H.-P.; Chen, H.; Wu, Y.-C.; Wang, L.; Pu, X.; Yue, G.-Z.; Zhang, L. 2020: Tanshinone IIA suppresses ovarian cancer growth through inhibiting malignant properties and angiogenesis. Annals of Translational Medicine 8(20): 1295
Sung, H.J.; Choi, S.M.; Yoon, Y.; An, K.S. 1999: Tanshinone IIA, an ingredient of Salvia miltiorrhiza BUNGE, induces apoptosis in human leukemia cell lines through the activation of caspase-3. Experimental and Molecular Medicine 31(4): 174-178
Fang, Z.-Y.; Zhang, M.; Liu, J.-N.; Zhao, X.; Zhang, Y.-Q.; Fang, L. 2020: Tanshinone IIA: a Review of its Anticancer Effects. Frontiers in Pharmacology 11: 611087
Subedi, L.; Gaire, B.P. 2021: Tanshinone IIA: a phytochemical as a promising drug candidate for neurodegenerative diseases. Pharmacological Research 169: 105661
Pan, Y.; Chen, L.; Li, R.; Liu, Y.; Nan, M.; Hou, L. 2021: Tanshinone IIa Induces Autophagy and Apoptosis via PI3K/Akt/mTOR Axis in Acute Promyelocytic Leukemia NB4 Cells. Evidence-BasedComplementaryandAlternativeMedicine:Ecam 2021: 3372403
Fu, K.; Shao, L.; Mei, L.; Li, H.; Feng, Y.; Tian, W.; Huan, Y.; Cao, R. 2021: Tanshinone ⅡA inhibits the lipopolysaccharide-induced epithelial-mesenchymal transition and protects bovine endometrial epithelial cells from pyolysin-induced damage by modulating the NF-κB/Snail2 signaling pathway. Theriogenology 176: 217-224
Xu, L.; Feng, J-M.; Li, J-X.; Zhu, J-M.; Song, S-S.; Tong, L-J.; Chen, Y.; Yang, X-Y.; Shen, Y-Y.; Lian, F-L.; Li, Y-P.; Lin, D-H.; Ding, J.; Miao, Z-H. 2013: Tanshinone-1 induces tumor cell killing, enhanced by inhibition of secondary activation of signaling networks. Cell Death and Disease 4: E905
Fu, D.-Y.; Lou, H.-Y.; Hu, R.-C.; Kong, C.-C.; Chen, Y.-R.; Le Wang, L.-; Chen, B.-B.; Dai, A.-G. 2021: Tanshinone-IIA inhibits the inflammatory response and proliferation of PAECs under hypoxic conditions by repressing HMGB1 via the TLR4/NF-κB signalling pathway. Pulmonary Pharmacology and Therapeutics 2021: 101990
Sieniawska, E.; Sawicki, R.; Marchev, A.S.; Truszkiewicz, W.; Georgiev, M.I. 2021: Tanshinones from Salvia miltiorrhiza inhibit Mycobacterium tuberculosis via disruption of the cell envelope surface and oxidative stress. Food and Chemical Toxicology: An International Journal Published for the British Industrial Biological Research Association 156: 112405
Zhou, X.; Pan, Y.; Wang, Y.; Wang, B.; Yan, Y.; Qu, Y.; Ke, X. 2021: Tanshinones induce tumor cell apoptosis via directly targeting FHIT. Scientific Reports 11(1): 12217
Yue, H.; Yang, Z.; Ou, Y.; Liang, S.; Deng, W.; Chen, H.; Zhang, C.; Hua, L.; Hu, W.; Sun, P. 2021: Tanshinones inhibit NLRP3 inflammasome activation by alleviating mitochondrial damage to protect against septic and gouty inflammation. International Immunopharmacology 97: 107819
Newton, R.P.; Roef, L.; Witters, E.; VAN Onckelen, H. 1999: Tansley Review No. 106: Cyclic nucleotides in higher plants: the enduring paradox. New Phytologist 143(3): 427-455
Arditti, J.; Ghani, A.K.A. 2000: Tansley Review No. 110.: Numerical and physical properties of orchid seeds and their biological implications. New Phytologist 145(3): 367-421
Cakmak, I. 2000: Tansley Review No. 111: Possible roles of zinc in protecting plant cells from damage by reactive oxygen species. New Phytologist 146(2): 185-205
Black, V.J.; Black, C.R.; Roberts, J.A.; Stewart, C.A. 2000: Tansley Review No. 115: Impact of ozone on the reproductive development of plants. New Phytologist 147(3): 421-447
Rai, A.N.; Söderbäck, E.; Bergman, B. 2000: Tansley Review No. 116: Cyanobacterium-plant symbioses. New Phytologist 147(3): 449-481
Palmqvist, K. 2000: Tansley Review No. 117: Carbon economy in lichens. New Phytologist 148(1): 11-36
Kingston-Smith, A.H.; Theodorou, M.K. 2000: Tansley Review No. 118: Post-ingestion metabolism of fresh forage. New Phytologist 148(1): 37-55
Rock, C.D. 2000: Tansley Review No. 120: Pathways to abscisic acid-regulated gene expression. New Phytologist 148(3): 357-396
Deverall, B.J. 1989: Tansley Review No. 18 Mechanisms of resistance and pathogenic specialization in rust-wheat interactions. New Phytologist 113(3): 233-244
Stenlid, J.; Rayner, A.D.M. 1989: Tansley Review No. 19 Environmental and endogenous controls of developmental pathways: variation and its significance in the forest pathogen, Heterobasidion annosum. New Phytologist 113(3): 245-258
Tester, M. 1990: Tansley Review No. 21 Plant ion channels: whole-cell and single channel studies. New Phytologist 114(3): 305-340
Canny, M.J. 1990: Tansley Review No. 22 what becomes of the transpiration stream?. New Phytologist 114(3): 341-368
Wellburn, A.R. 1990: Tansley Review No. 24 Why are atmospheric oxides of nitrogen usually phytotoxic and not alternative fertilizers?. New Phytologist 115(3): 395-429
Wardlaw, I.F. 1990: Tansley Review No. 27 the control of carbon partitioning in plants. New Phytologist 116(3): 341-381
Kranz, J.ür. 1990: Tansley Review No. 28 Fungal diseases in multispecies plant communities. New Phytologist 116(3): 383-405
Walker, D. 1992: Tansley Review No. 36 Excited leaves. New Phytologist 121(3): 325-345
Wilkins, M.B. 1992: Tansley Review No. 37 Circadian rhythms: their origin and control. New Phytologist 121(3): 347-375
Wessels, J.G.H. 1993: Tansley Review No. 45 Wall growth, protein excretion and morphogenesis in fungi. New Phytologist 123(3): 397-413
Schuepp, P.H. 1993: Tansley Review No. 59 Leaf boundary layers. New Phytologist 125(3): 477-507
Lyndon, R.F. 1994: Tansley Review No. 74 Control of organogenesis at the shoot apex. New Phytologist 128(1): 1-18
Pyke, K. 1994: Tansley Review No. 75 Arabidopsis- its use in the genetic and molecular analysis of plant morphogenesis. New Phytologist 128(1): 19-37
Garbaye, J. 1994: Tansley Review No. 76 Helper bacteria: a new dimension to the mycorrhizal symbiosis. New Phytologist 128(2): 197-210
Smith, C.J. 1996: Tansley Review No. 86 Accumulation of phytoalexins: defence mechanism and stimulus response system. New Phytologist 132(1): 1-45
Högberg, P. 1997: Tansley Review No. 95 15 N natural abundance in soil-plant systems. New Phytologist 137(2): 179-203
Buffetaut, E. 2001: Tantalizing glimpse of a vanishing dinosaur. Nature 414(6860): 147
Almansoori, A.A.; Hwang, C.; Lee, S.-H.; Kim, B.; Kim, H.-E.; Lee, J.-H. 2020: Tantalum - Poly (L-lactic acid) nerve conduit for peripheral nerve regeneration. Neuroscience Letters 731: 135049
Wang, X.; Ning, B.; Pei, X. 2021: Tantalum and its derivatives in orthopedic and dental implants: Osteogenesis and antibacterial properties. Colloids and Surfaces. B Biointerfaces 208: 112055
Wang, Q.; Qiao, Y.; Cheng, M.; Jiang, G.; He, G.; Chen, Y.; Zhang, X.; Liu, X. 2016: Tantalum implanted entangled porous titanium promotes surface osseointegration and bone ingrowth. Scientific Reports 6: 26248
Mir Y Mir, L.; Oller Daurella, J. 1948: Tantalum in reconstructive surgery. Revista Clinica Espanola 29(1): 36-39
Koontz, A.R. 1951: Tantalum mesh in hernia repair. Journal of the International College of Surgeons 15(6): 748-753
Splitthoff, L.; Wolff, M.A.; Grottke, T.; Schuck, C. 2020: Tantalum pentoxide nanophotonic circuits for integrated quantum technology. Optics Express 28(8): 11921-11932
Hwang, C.; Park, S.; Kang, I.-G.; Kim, H.-E.; Han, C.-M. 2020: Tantalum-coated polylactic acid fibrous membranes for guided bone regeneration. Materials Science and Engineering. C Materials for Biological Applications 115: 111112
Nagrath, M.; Gallant, R.; Yazdi, A.R.; Mendonca, A.; Rahman, S.; Chiu, L.; Waldman, S.D.; Ni, H.; Towler, M.R. 2021: Tantalum-containing mesoporous bioactive glass powder for hemostasis. Journal of Biomaterials Applications 35(8): 924-932
Diaz-Stransky, A.; Rowley, S.; Zecher, E.; Grodberg, D.; Sukhodolsky, D.G. 2020: Tantrum Tool: Development and Open Pilot Study of Online Parent Training for Irritability and Disruptive Behavior. Journal of Child and Adolescent Psychopharmacology 30(9): 558-566
Müller-Fielitz, H.; Stahr, M.; Bernau, M.; Richter, M.; Abele, S.; Krajka, V.; Benzin, A.; Wenzel, J.; Kalies, K.; Mittag, J.; Heuer, H.; Offermanns, S.; Schwaninger, M. 2017: Tanycytes control the hormonal output of the hypothalamic-pituitary-thyroid axis. Nature Communications 8(1): 484
Prevot, V.; Nogueiras, R.; Schwaninger, M. 2021: Tanycytes in the infundibular nucleus and median eminence and their role in the blood-brain barrier. Handbook of Clinical Neurology 180: 253-273
Lee, D.A.; Bedont, J.L.; Pak, T.; Wang, H.; Song, J.; Miranda-Angulo, A.; Takiar, V.; Charubhumi, V.; Balordi, F.; Takebayashi, H.; Aja, S.; Ford, E.; Fishell, G.; Blackshaw, S. 2012: Tanycytes of the hypothalamic median eminence form a diet-responsive neurogenic niche. Nature Neuroscience 15(5): 700-702
Zhao, C.; Kang, Z.; Xu, Y.; Zhang, X. 2021: Tanyptera (Tanyptera) hebeiensis Yang et Yang (Diptera: Tipulidae) newly recorded from Shandong, China: sequencing and phylogenetic analysis of the mitochondrial genome. Mitochondrial Dna. Part B Resources 6(1): 115-118
Makoni, M. 2021: Tanzania refuses COVID-19 vaccines. Lancet 397(10274): 566
Chahalis, E.; McGhie, J.; Mulokozi, G.; Barham, S.; Chappell, C.; Schenk, C.; Linehan, M.; Torres, S.; Dearden, K.A.; West, J.H.; Hall, P.C.; Crookston, B.T. 2021: Tanzanian men's engagement in household chores is associated with improved antenatal care seeking and maternal health. Bmc Pregnancy and Childbirth 21(1): 666
Emgård, M.; Mwangi, R.; Mayo, C.; Mshana, E.; Nkini, G.; Andersson, R.; Msuya, S.E.; Lepp, M.; Muro, F.; Skovbjerg, S. 2021: Tanzanian primary healthcare workers' experiences of antibiotic prescription and understanding of antibiotic resistance in common childhood infections: a qualitative phenomenographic study. Antimicrobial Resistance and Infection Control 10(1): 94
Hao, P.; Zhang, Y.; Li, Z.; Xi, J.; Tan, F. 2020: Tao Li, China CDC's Chief Expert in Occupational Health. China Cdc Weekly 2(32): 622-623
Wang, M.; Liu, Z.; Hu, S.; Duan, X.; Zhang, Y.; Peng, C.; Peng, D.; Han, L. 2020: Taohong Siwu Decoction Ameliorates Ischemic Stroke Injury Via Suppressing Pyroptosis. Frontiers in Pharmacology 11: 590453
Wang, N.; Fei, C.; Chu, F.; Huang, S.; Pan, L.; Peng, D.; Duan, X. 2021: Taohong Siwu Decoction Regulates Cell Necrosis and Neuroinflammation in the Rat Middle Cerebral Artery Occlusion Model. Frontiers in Pharmacology 12: 732358
Tan, Z.; Jiang, X.; Zhou, W.; Deng, B.; Cai, M.; Deng, S.; Xu, Y.; Ding, W.; Chen, G.; Chen, R.; Zhang, S.; Zhou, Y.; Liu, B.; Zhang, J. 2021: Taohong siwu decoction attenuates myocardial fibrosis by inhibiting fibrosis proliferation and collagen deposition via TGFBR1 signaling pathway. Journal of Ethnopharmacology 270:: 113838
Yao, R.; Cao, Y.; Wang, C.; Xu, L.; Zhang, X.; Deng, Y.; Li, F.; Wang, S. 2021: Taohuajing reduces oxidative stress and inflammation in diabetic cardiomyopathy through the sirtuin 1/nucleotide-binding oligomerization domain-like receptor protein 3 pathway. Bmc Complementary Medicine and Therapies 21(1): 78
Cowdry, E.V. 1921: Taoist Ideas of Human Anatomy. Annals of Medical History 3(4): 301-309
Wang, Y.; Jia, Q.; Zhang, Y.; Wei, J.; Liu, P. 2020: Taoren Honghua Drug Attenuates Atherosclerosis and Plays an Anti-Inflammatory Role in ApoE Knock-Out Mice and RAW264.7 Cells. Frontiers in Pharmacology 11: 1070
Zhan, Y.Peng.; Liu, L.; Zhu, Y. 2016: Taotie neurons regulate appetite in Drosophila. Nature Communications 7: 13633
Baker, A.W.; Stout, J.E.; Anderson, D.J.; Sexton, D.J.; Smith, B.; Moehring, R.W.; Huslage, K.; Hostler, C.J.; Lewis, S.S. 2021: Tap Water Avoidance Decreases Rates of Hospital-onset Pulmonary Nontuberculous Mycobacteria. Clinical Infectious Diseases: An Official Publication of the Infectious Diseases Society of America 73(3): 524-527
Arduino, M.J. 2021: Tap Water Avoidance Decreases Rates of Hospital-onset Pulmonary Nontuberculous Mycobacteria: a Call for Water Management in Healthcare. Clinical Infectious Diseases: An Official Publication of the Infectious Diseases Society of America 73(3): 528-530
Ota, N. 2020: Tap dancers in the wild: field observations of multimodal courtship displays in socially monogamous songbirds. Die Naturwissenschaften 107(4): 30
Ota, N.; Gahr, M.; Soma, M. 2015: Tap dancing birds: the multimodal mutual courtship display of males and females in a socially monogamous songbird. Scientific Reports 5: 16614
Wee, S.Y.; Aris, A.Z.; Yusoff, F.M.; Praveena, S.M. 2021: Tap water contamination: Multiclass endocrine disrupting compounds in different housing types in an urban settlement. Chemosphere 264(Part 1): 128488
Minervini, F.; Dinardo, F.Rita.; De Angelis, M.; Gobbetti, M. 2019: Tap water is one of the drivers that establish and assembly the lactic acid bacterium biota during sourdough preparation. Scientific Reports 9(1): 570
Zhang, Y.Z.; Xiong, P.; Zhao, H.D.; Chen, Z.C.; Wei, X.Y.; Liu, Q.; Chen, F.Y.; Cheng, Y.; Hu, J.; Li, S.N.; Yang, J.; Zhang, Q. 2020: Tap-hammer elicited vestibular-evoked myogenic potentials system: its design and preliminary application. Zhonghua Er Bi Yan Hou Tou Jing Wai Ke Za Zhi 55(10): 957-961
Peaper, D.R.; Wearsch, P.A.; Cresswell, P. 2005: Tapasin and ERp57 form a stable disulfide-linked dimer within the MHC class I peptide-loading complex. EMBO Journal 24(20): 3613-3623
Chen, X.; Tang, Y.; Zhang, Y.; Zhuo, M.; Tang, Z.; Yu, Y.; Zang, G. 2014: Tapasin modification on the intracellular epitope HBcAg18-27 enhances HBV-specific CTL immune response and inhibits hepatitis B virus replication in vivo. Laboratory Investigation; a Journal of Technical Methods and Pathology 94(5): 478-490
Clausen, M-Lisa.; Slotved, H-C.; Krogfelt, K.A.; Agner, T. 2016: Tape Stripping Technique for Stratum Corneum Protein Analysis. Scientific Reports 6: 19918
Wang, Q.; Han, W.; Wang, Y.; Lu, M.; Dong, L. 2018: Tape nanolithography: a rapid and simple method for fabricating flexible, wearable nanophotonic devices. Microsystems and Nanoengineering 4: 31
Ono, S.; Eda, N.; Mori, T.; Otsuka, A.; Nakamura, N.; Inai, Y.; Ota, N.; Akama, T. 2020: Tape stripping method is useful for the quantification of antimicrobial peptides on the human skin surface including the stratum corneum. Scientific Reports 10(1): 15259
Keurentjes, A.J.; Jakasa, I.; John, S.M.; Ulrich, C.; Bekkenk, M.W.; Rustemeyer, T.; Kezic, S. 2020: Tape stripping the stratum corneum for biomarkers of ultraviolet radiation exposure at sub-erythemal dosages: a study in human volunteers. Biomarkers: Biochemical Indicators of Exposure Response and Susceptibility to Chemicals 25(6): 490-497
Jeong, S.Hee.; Hjort, K.; Wu, Z. 2015: Tape transfer atomization patterning of liquid alloys for microfluidic stretchable wireless power transfer. Scientific Reports 5: 8419
He, H.; Olesen, C.M.; Pavel, A.B.; Clausen, M.-L.; Wu, J.; Estrada, Y.; Zhang, N.; Agner, T.; Guttman-Yassky, E. 2020: Tape-Strip Proteomic Profiling of Atopic Dermatitis on Dupilumab Identifies Minimally Invasive Biomarkers. Frontiers in Immunology 11: 1768
Lécrevisse, T.; Bascuñán, J.; Hahn, S.; Kim, Y.; Song, J.; Iwasa, Y. 2015: Tape-to-Tape Joint Resistances of a Magnet Assembled from (RE)BCO Double-Pancake Coils. IEEE Transactions on Applied Superconductivity: a Publication of the IEEE Superconductivity Committee 25(3)
Howard, R.F.; Radic, T.; Sohns, M.; Eerdekens, M.ël.; Waßmuth, A. 2020: Tapentadol Prolonged Release for Long-Term Treatment of Pain in Children. Journal of Pain Research 13: 3157-3170
Eissa, A.; Tarau, E.; Beuter, C.; Radic, T.; Watson, E.; Sohns, M.; Lefeber, C.; Hammer, G.B. 2021: Tapentadol for the Treatment of Moderate-to-Severe Acute Pain in Children Under the Age of two Years. Journal of Pain Research 14: 229-248
Takemura, M.; Niki, K.; Okamoto, Y.; Matsuda, Y.; Omae, T.; Takagi, T.; Ueda, M. 2021: Tapentadol in Cancer Patients with Neuropathic Pain: a Comparison of Methadone, Oxycodone, Fentanyl, and Hydromorphone. Biological and Pharmaceutical Bulletin 44(9): 1286-1293
Mark, E.B.; Nedergaard, R.B.; Hansen, T.M.; Nissen, T.D.; Frøkjaer, J.B.øn.; Scott, S.M.; Krogh, K.; Drewes, A.ør.M. 2021: Tapentadol results in less deterioration of gastrointestinal function and symptoms than standard opioid therapy in healthy male volunteers. Neurogastroenterology and Motility: the Official Journal of the European Gastrointestinal Motility Society 33(11): E14131
Van de Donk, T.; van Cosburgh, J.; van Dasselaar, T.; van Velzen, M.; Drewes, A.ør.M.; Dahan, A.; Niesters, M. 2020: Tapentadol treatment results in long-term pain relief in patients with chronic low back pain and associates with reduced segmental sensitization. Pain Reports 5(6): E877
Erosa, S.C.; Haffey, P.R.; Mehta, N.; Gulati, A. 2021: Tapentadol, Buprenorphine, and Levorphanol for the Treatment of Neuropathic Pain: a Systematic Review. Current Pain and Headache Reports 25(3): 18
Basu, D.; Mahintamini, T.; Ghosh, A.; Roub, F.; Subodh, B.N.; Mattoo, S.K.; Avasthi, A. 2020: Tapentadol, the new kid on the block in India: Is it time to worry?. Indian Journal of Psychiatry 62(6): 697-702
Morlock, M.M.; Hube, R.; Wassilew, G.; Prange, F.; Huber, G.; Perka, C. 2020: Taper corrosion: a complication of total hip arthroplasty. Efort Open Reviews 5(11): 776-784
Freccero, D.M.; McAlpine, K.J.; Smith, E.L. 2020: Taper fretting corrosion with Stryker Anato stem after hip replacement. Arthroplasty Today 6(2): 210-213
Mueller, U.; Bormann, T.; Schroeder, S.; Kretzer, J.P. 2021: Taper junctions in modular hip joint replacements: what affects their stability?. Journal of the Mechanical Behavior of Biomedical Materials 116: 104258
Chen, M.; Xue, T.; Tian, Q.; Xu, Z.; Liu, S.F. 2021: Tapered Coaxial Arrays for Photon- and Plasmon-Enhanced Light Harvesting in Perovskite Solar Cells: a Theoretical Investigation Using the Finite Element Method. Chempluschem 86(6): 858-864
Gibson, S.J.; van Kasteren, B.; Tekcan, B.; Cui, Y.; van Dam, D.; Haverkort, J.E.M.; Bakkers, E.P.A.M.; Reimer, M.E. 2019: Tapered InP nanowire arrays for efficient broadband high-speed single-photon detection. Nature Nanotechnology 14(5): 473-479
Yan, Y.; Fan, M.; Zhou, S.; Sun, X.; Ma, L.; Li, R.; Kost, A.R. 2021: Tapered Mach-Zehnder interferometer based on PbS quantum dots modified by polymers for copper ion sensing. Applied Optics 60(16): 4807-4813
Huang, L.; Lai, W.; Ma, P.; Wang, J.; Su, R.; Ma, Y.; Li, C.; Zhi, D.; Zhou, P. 2020: Tapered Yb-doped fiber enabled monolithic high-power linearly polarized single-frequency laser. Optics Letters 45(14): 4001-4004
Jasty, V.S.; Haddad, D.; Mohan, B.; Zhou, W.; Siracuse, J.J.; Tan, T.-W. 2022: Tapered and non-tapered prosthetic grafts in upper extremity dialysis access: a systematic review and meta-analysis. Journal of Vascular Access 23(1): 42-49
Ohashi, Y.; Ranjan, B.; Saito, Y.; Umakoshi, T.; Verma, P. 2019: Tapered arrangement of metallic nanorod chains for magnified plasmonic nanoimaging. Scientific Reports 9(1): 2656
Liu, M.; Domino, L.; Vella, D. 2020: Tapered elasticæ as a route for axisymmetric morphing structures. Soft Matter 16(33): 7739-7750
Jia, M.; Wen, J.; Pan, X.; Xin, Z.; Pang, F.; He, L.; Wang, T. 2021: Tapered fiber radiation sensor based on Ce/Tb:YAG crystals for remote γ-ray dosimetry. Optics Express 29(2): 1210-1220
Guo, D.; Wu, L.; Yu, H.; Zhou, A.; Li, Q.; Mumtaz, F.; Du, C.; Hu, W. 2020: Tapered multicore fiber interferometer for refractive index sensing with graphene enhancement. Applied Optics 59(13): 3927-3932
Smith, L.; Gomma, W.; Esmaeilsabzali, H.; Darcie, T. 2021: Tapered transmission lines for terahertz systems. Optics Express 29(11): 17295-17303
Cooper, N.; Hill, Q.A.; Grainger, J.; Westwood, J.-P.; Bradbury, C.; Provan, D.; Thachil, J.; Ramscar, N.; Roy, A. 2021: Tapering and Discontinuation of Thrombopoietin Receptor Agonist Therapy in Patients with Immune Thrombocytopenia: Results from a Modified Delphi Panel. Acta Haematologica 144(4): 418-426
Hirata, S.; Kohno, H.; Watanabe, H.; Tokunaga, T.; Yoshida, Y.; Sugimoto, T.; Mokuda, S.; Oda, K.; Nojima, T.; Sugiyama, E. 2020: Tapering and discontinuation of oral glucocorticoids without deterioration of disease status in patients with rheumatoid arthritis under a stable treatment. Modern Rheumatology 2020: 1-15
Shi, L.; Lian, N.; Liu, L.; Chen, M. 2020: Tapering and discontinuation of systemic medications in psoriasis patients with low disease activity. Dermatologic Therapy 33(4): E13599
Horowitz, M.A.; Moncrieff, J.; de Haan, L.; Bogers, J.P.A.M.; Gangadin, S.S.; Kikkert, M.; Veling, W.; Sommer, I.E.C. 2022: Tapering antipsychotic medication: practical considerations. Psychological Medicine 52(1): 32-35
Ziade, N.R.; Baraliakos, X. 2019: Tapering bDMARDs in axial SpA - what is the current evidence?. Nature Reviews. Rheumatology 15(6): 322-324
Ono, S.; Ito, S.; Maejima, K.; Hosaka, S.; Umeki, K.; Sato, S.-I. 2020: Tapering body stiffness shortens upper gastrointestinal examination via transoral insertion with ultrathin endoscope. Endoscopy International Open 8(12): E1748-E1753
Volkmann, E.R. 2020: Tapering glucocorticoids in rheumatoid arthritis. Lancet 396(10246): 218-219
Liao, C.-H.; Chiang, B.-L.; Yang, Y.-H. 2021: Tapering of Biological Agents in Juvenile ERA Patients in Daily Clinical Practice. Frontiers in Medicine 8: 665170
Bertrand, D.; Stouten, V.; De Cock, D.; Pazmino, S.; Doumen, M.; de Wergifosse, I.; Joly, J.; Badot, V.; Corluy, L.; Hoffman, I.; Taelman, V.; De Knop, K.; Geens, E.; Langenaken, C.; Lenaerts, J.L.; Lenaerts, J.; Walschot, M.; Mannaerts, J.; Westhovens, R.; Verschueren, P. 2021: Tapering of Etanercept is feasible in patients with Rheumatoid Arthritis in sustained remission: a pragmatic randomized controlled trial. Scandinavian Journal of Rheumatology 2021: 1-11
Henrik, G.; Patrik, M.öv.; Anders, H.åk.; Ulf, J.; Marcelo, R.F.; Åsa, R. 2021: Tapering of prescribed opioids in patients with long-term non-malignant pain (TOPIO)-efficacy and effects on pain, pain cognitions, and quality of life: a study protocol for a randomized controlled clinical trial with a 12-month follow-up. Trials 22(1): 503
Sabbadini, A.; Caenen, A.; Keijzer, L.B.H.; van Neer, P.L.M.J.; Vos, H.J.; de Jong, N.; Verweij, M.D. 2021: Tapering of the interventricular septum can affect ultrasound shear wave elastography: An in vitro and in silico study. Journal of the Acoustical Society of America 150(1): 428
Van Mulligen, E.; Weel, A.E.; Hazes, J.M.; van der Helm-van Mil, A.; de Jong, P.H.P. 2020: Tapering towards DMARD-free remission in established rheumatoid arthritis: 2-year results of the TARA trial. Annals of the Rheumatic Diseases 79(9): 1174-1181
Ohno, S.; Li, Q.; Sekine, N.; Fujikata, J.; Noguchi, M.; Takahashi, S.; Toprasertpong, K.; Takagi, S.; Takenaka, M. 2020: Taperless Si hybrid optical phase shifter based on a metal-oxide-semiconductor capacitor using an ultrathin InP membrane. Optics Express 28(24): 35663-35673
Parish, R.W.; Phan, H.A.; Iacuone, S.; Li, S.F. 2012: Tapetal development and abiotic stress: a centre of vulnerability. Functional Plant Biology: Fpb 39(7): 553-559
Vignal, C.; Le Guilloux, J.C.; Bodard-Rickelman, E. 1988: Tapetoretinal degeneration: apropos of a case associated with bilateral optic neuritis. Bulletin des Societes d'Ophtalmologie de France 88(6-7): 913-915
John, E. 1948: Tapeworm infestation in a horse. DeutscheTierarztlicheWochenschrift 55(21-22): 170
Larsen, G.D. 2015: Tapeworms temper immune reactions. Lab Animal 44(9): 331
Luzón, C.; Yravedra, J.; Courtenay, L.A.; Saarinen, J.; Blain, H-Alexandre.; DeMiguel, D.; Viranta, S.; Azanza, B.; Rodríguez-Alba, J.José.; Herranz-Rodrigo, Dío.; Serrano-Ramos, A.; Solano, J.A.; Oms, O.; Agustí, J.; Fortelius, M.; Jiménez-Arenas, J.Manuel. 2021: Taphonomic and spatial analyses from the Early Pleistocene site of Venta Micena 4 (Orce, Guadix-Baza Basin, southern Spain). Scientific Reports 11(1): 13977
Rodríguez-Hidalgo, A.; Sanz, M.; Daura, J.; Sánchez-Marco, A. 2020: Taphonomic criteria for identifying Iberian lynx dens in quaternary deposits. Scientific Reports 10(1): 7225
Naimark, E.; Kirpotin, D.; Boeva, N.; Gmoshinskiy, V.; Kalinina, M.; Lyupina, Y.; Markov, A.; Nikitin, M.; Shokurov, A.; Volkov, D. 2021: Taphonomic experiments imply a possible link between the evolution of multicellularity and the fossilization potential of soft-bodied organisms. Ecology and Evolution 11(2): 1037-1056
Klug, C.; Di Silvestro, G.; Hoffmann, R.; Schweigert, G.; Fuchs, D.; Clements, T.; Gueriau, P. 2021: Taphonomic patterns mimic biologic structures: diagenetic Liesegang rings in Mesozoic coleoids and coprolites. Peerj 9: E10703
Ingicco, T.; Reyes, M.C.; de Vos, J.; Belarmino, M.; Albers, P.C.H.; Lipardo, I.; Gallet, X.; Amano, N.; van den Bergh, G.D.; Cosalan, A.D.; Bautista, A. 2020: Taphonomy and chronosequence of the 709 ka Kalinga site formation (Luzon Island, Philippines). Scientific Reports 10(1): 11081
Bosio, G.; Collareta, A.; Di Celma, C.; Lambert, O.; Marx, F.G.; de Muizon, C.; Gioncada, A.; Gariboldi, K.; Malinverno, E.; Malca, R.V.; Urbina, M.; Bianucci, G. 2021: Taphonomy of marine vertebrates of the Pisco Formation (Miocene, Peru): Insights into the origin of an outstanding Fossil-Lagerstätte. Plos one 16(7): E0254395
Sehara, Y.; Yabe, H.; Iwanami, A.; Nakamura, N. 2020: Tapia Syndrome after Endotracheal Intubation in General Anesthesia. Internal Medicine 59(22): 2965
Decavel, P.; Petit, C.; Tatu, L. 2020: Tapia syndrome at the time of the COVID-19 pandemic: Lower cranial neuropathy following prolonged intubation. Neurology 95(7): 312-313
Rebattu, J.; Rabaste, F.; Martin, H. 1948: Tapia syndrome during esophageal cancer. Lyon Medical 179(4): 66
Rodríguez Baisi, K.; Tollefson, M. 2020: Tapinarof to treat psoriasis. Drugs of Today 56(8): 515-530
Cupler, Z.A.; Alrwaily, M.; Polakowski, E.; Mathers, K.S.; Schneider, M.J. 2020: Taping for conditions of the musculoskeletal system: an evidence map review. Chiropractic and Manual Therapies 28(1): 52
Sisk, D.; Fredericson, M. 2020: Taping, Bracing, and Injection Treatment for Patellofemoral Pain and Patellar Tendinopathy. Current Reviews in Musculoskeletal Medicine 13(4): 537-544
Winklerová, S.; Masek, P.; Vlková, E. 1988: Tapioca melanoma of the iris. Ceskoslovenska Oftalmologie 44(4): 268-271
De Keizer, R.J.; Oosterhuis, J.A.; Houtman, W.A.; de Wolff-Rouendaal, D. 1993: Tapioca melanoma of the iris. Annals of Ophthalmology 25(5): 195-198
Sharp, G.; Whitehead, E.; Hall, M. 2020: Tapped Out? Racial Disparities in Extrahousehold Kin Resources and the Loss of Homeownership. Demography 57(5): 1903-1928
Spielmans, G.I.; Rosen, G.M.; Spence-Sing, T. 2020: Tapping Away at a Misleading Meta-analysis: no Evidence for Specificity of Acupoint Tapping. Journal of Nervous and Mental Disease 208(8): 628-631
Hübner, S.; Kantar, M.B. 2021: Tapping Diversity from the Wild: from Sampling to Implementation. Frontiers in Plant Science 12: 626565
Benedetto, A.; Baud-Bovy, G. 2021: Tapping Force Encodes Metrical Aspects of Rhythm. Frontiers in Human Neuroscience 15: 633956
Vickery, R.M.; Ng, K.K.W.; Potas, J.R.; Shivdasani, M.N.; McIntyre, S.; Nagi, S.S.; Birznieks, I. 2020: Tapping into the Language of Touch: Using Non-invasive Stimulation to Specify Tactile Afferent Firing Patterns. Frontiers in Neuroscience 14: 500
Collier, D.N.; Robinson, A.; Mitra, S.; Taft, N.; Raad, A.; Hudson, S.; Young, J.W.; Lazorick, S. 2020: Tapping Out: Influence of Organoleptic and Perceived Health Risks on Bottled Versus Municipal Tap Water Consumption Among Obese, Low Socioeconomic Status Pediatric Patients. Exposure and Health 12(2): 179-186
Yao, L.-J.; Feng, Y.-X.; Jiang, G.-Y.; Liu, Z.-Q.; He, X.-W.; Zhou, J. 2020: Tapping along meridians on back combined with acupuncture of "Qi Shen Zhen" (Seven acupoints for regulating mind) improves symptoms of post-stroke anxiety disorder patients. Zhen Ci Yan Jiu 45(12): 990-994
Guan, F.-G.; Ji, Q.-L.; Jiang, Y.-Q.; Lin, R. 2021: Tapping at acupoints along meridian combined with thunder-fire moxibustion for upper-limb hemiplegia after stroke. Zhongguo Zhen Jiu 41(7): 717-720
Callaway, E. 2016: Tapping genetics for better beer. Nature 535(7613): 484-486
Bolton, T.A.W.; Morgenroth, E.; Preti, M.G.; Van De Ville, D. 2020: Tapping into Multi-Faceted Human Behavior and Psychopathology Using fMRi Brain Dynamics. Trends in Neurosciences 43(9): 667-680
Hughes, B. 2009: Tapping into combination pills for HIV. Nature Reviews. Drug Discovery 8(6): 439-440
Keller, M.; Zengler, K. 2004: Tapping into microbial diversity. Nature Reviews. Microbiology 2(2): 141-150
Amano, T.; Berdejo-Espinola, V.; Christie, A.P.; Willott, K.; Akasaka, M.; Báldi, A.ás.; Berthinussen, A.; Bertolino, S.; Bladon, A.J.; Chen, M.; Choi, C.-Y.; Bou Dagher Kharrat, M.; de Oliveira, L.G.; Farhat, P.; Golivets, M.; Hidalgo Aranzamendi, N.; Jantke, K.; Kajzer-Bonk, J.; Kemahlı Aytekin, M.Çi.; Khorozyan, I.; Kito, K.; Konno, K.; Lin, D.-L.; Littlewood, N.; Liu, Y.; Liu, Y.; Loretto, M.-C.; Marconi, V.; Martin, P.A.; Morgan, W.H.; Narváez-Gómez, J.P.; Negret, P.J.; Nourani, E.; Ochoa Quintero, J.M.; Ockendon, N.; Oh, R.R.Y.; Petrovan, S.O.; Piovezan-Borges, A.C.; Pollet, I.L.; Ramos, D.L.; Reboredo Segovia, A.L.; Rivera-Villanueva, A.N.; Rocha, R.; Rouyer, M.-M.; Sainsbury, K.A.; Schuster, R.; Schwab, D.; Şekercioğlu, Ça. 2021: Tapping into non-English-language science for the conservation of global biodiversity. Plos Biology 19(10): E3001296
Landhuis, E. 2018: Tapping into the brain's star power. Nature 563(7729): 141-143
Horn, P.; Fritzsche, T.; Ehlert, A.; Adani, F. 2021: Tapping into the interplay of lexical and number knowledge using fast mapping: a longitudinal eye-tracking study with two-year-olds. Infant Behavior and Development 64: 101573
Woolston, C. 2021: Tapping local knowledge to save a Papua New Guinea forest. Nature 594(7863): 466
Shukla, S.; Thirugnanasambandam, N. 2021: Tapping the Potential of Multimodal Non-invasive Brain Stimulation to Elucidate the Pathophysiology of Movement Disorders. Frontiers in Human Neuroscience 15: 661396
Lieberman, J. 2018: Tapping the RNA world for therapeutics. Nature Structural and Molecular Biology 25(5): 357-364
Weigmann, K. 2013: Tapping the crowds for research funding. Crowdfunding, a common practice to support projects in the arts, music or gaming, has also attracted the attention of scientists. Embo Reports 14(12): 1043-1046
Biswas, A.; Mandal, R.Subhra.; Chakraborty, S.; Maiti, G. 2021: Tapping the immunological imprints to design chimeric SARS-CoV-2 vaccine for elderly population. International Reviews of Immunology 2021: 1-16
Lerner, R.A. 1982: Tapping the immunological repertoire to produce antibodies of predetermined specificity. Nature 299(5884): 593-596
Herrick, T.M.; Million, R.P. 2007: Tapping the potential of fixed-dose combinations. Nature Reviews. Drug Discovery 6(7): 513-514
Paiva, S-Lynn. 2020: Tapping the therapeutic potential of the innate immune system. Nature Reviews. Drug Discovery 19(4): 236
Kertész, C.; Honbolygó, F. 2021: Tapping to Music Predicts Literacy Skills of First-Grade Children. Frontiers in Psychology 12: 741540
Al-Ghafari, A.B.; Balamash, K.S.; Al Doghaither, H.A. 2020: Taqi and Apai Variants of Vitamin D Receptor Gene Increase the Risk of Colorectal Cancer in a Saudi Population. Saudi Journal of Medicine and Medical Sciences 8(3): 188-195
Mohrschladt, M.F.; van der Sman-de Beer, F.; Hofman, M.K.; van der Krabben, M.; Westendorp, R.Gj.; Smelt, A.Hm. 2005: TaqIB polymorphism in CETP gene: the influence on incidence of cardiovascular disease in statin-treated patients with familial hypercholesterolemia. European Journal of Human Genetics: Ejhg 13(7): 877-882
Luthra, R.; Sanchez-Vega, B.; Medeiros, L.Jeffrey. 2004: TaqMan RT-PCR assay coupled with capillary electrophoresis for quantification and identification of bcr-abl transcript type. Modern Pathology: An Official Journal of the United States and Canadian Academy of Pathology Inc 17(1): 96-103
Rizzo, D.; Da Lio, D.; Bartolini, L.; Salemi, C.; Del Nista, D.; Aronadio, A.; Pennacchio, F.; Binazzi, F.; Francardi, V.; Garonna, A.P.; Rossi, E. 2021: TaqMan probe assays on different biological samples for the identification of three ambrosia beetle species, Xylosandrus compactus (Eichoff), X. crassiusculus (Motschulsky) and X. germanus (Blandford) (Coleoptera Curculionidae Scolytinae). 3 Biotech 11(6): 259
Baek, H.E.; Bandivadekar, R.R.; Pandit, P.; Mah, M.; Sehgal, R.N.M.; Tell, L.A. 2020: TaqMan quantitative real-time PCR for detecting Avipoxvirus DNA in various sample types from hummingbirds. Plos one 15(6): E0230701
Xue, B.; Li, Y.; Wang, X.; Li, R.; Zeng, X.; Yang, M.; Xu, X.; Ye, T.; Bao, L.; Huang, Y. 2020: TaqMan-MGB probe quantitative PCR assays to genotype and quantify three mtDNA mutations of Leber hereditary optic neuropathy. Scientific Reports 10(1): 12264
Wang, Y.; Sun, J.; Guo, X.; Zhang, D.; Cui, Y.; Li, W.; Liu, G.; Li, Y.; Jiang, S. 2020: TaqMan-based real-time polymerase chain reaction assay for specific detection of bocavirus-1 in domestic cats. Molecular and Cellular Probes 53: 101647
Bhat, M.D.A. 2021: Taqashure Jild: its similarities and differences with psoriasis. Clinics in Dermatology 39(3): 545-550
Xue, Z.; You, M.; Peng, P.; Tong, H.; He, W.; Li, A.; Mao, P.; Xu, T.; Xu, F.; Yao, C. 2021: Taqman-MGB nanoPCR for Highly Specific Detection of Single-Base Mutations. International Journal of Nanomedicine 16: 3695-3705
Alkaei, Z.; Küssner, M.B. 2021: Taqsīm as a Creative Musical Process in Arabic Music. Frontiers in Psychology 12: 640409
Cunningham, C.K. 2021: Tar Heel Footprints in Health Care: a periodic feature that recognizes individuals whose efforts-often unsung-enhance the health of North Carolinians. North Carolina Medical Journal 82(2): 93-94
Rideout, R.F. 2021: Tar Heel Footprints in Health Care: a periodic feature that recognizes individuals whose efforts-often unsung-enhance the health of North Carolinians. North Carolina Medical Journal 82(5): 309-310
Schindler, D. 2010: Tar sands need solid science. Nature 468(7323): 499-501
Khajonvittayakul, C.; Tongnan, V.; Namo, N.; Phonbubpha, C.; Laosiripojana, N.; Hartley, M.; Hartley, U.W. 2021: Tar steam reforming for synthesis gas production over Ni-based on ceria/zirconia and La0.3Sr0.7Co0.7Fe0.3O3 in a packed-bed reactor. Chemosphere 277: 130280
Hopf, G. 1957: Tar treatment in dermatology. Zeitschrift für Haut- und Geschlechtskrankheiten 23(6): 166-171
Liu, J.; Liu, X.; Zhang, S.; Liang, S.; Luan, W.; Ma, X. 2021: TarDB: an online database for plant miRNA targets and miRNA-triggered phased siRNAs. Bmc Genomics 22(1): 348
Sunagawa, S.; Acinas, S.G.; Bork, P.; Bowler, C.; Eveillard, D.; Gorsky, G.; Guidi, L.; Iudicone, D.; Karsenti, E.; Lombard, F.; Ogata, H.; Pesant, S.; Sullivan, M.B.; Wincker, P.; de Vargas, C.; Acinas, S.G.; Babin, M.; Bork, P.; Boss, E.; Bowler, C.; Cochrane, G.; de Vargas, C.; Follows, M.; Gorsky, G.; Grimsley, N.; Guidi, L.; Hingamp, P.; Iudicone, D.; Jaillon, O.; Kandels, S.; Karp-Boss, L.; Karsenti, E.; Lescot, M.; Not, F.; Ogata, H.; Pesant, Séphane.; Poulton, N.; Raes, J.; Sardet, C.; Sieracki, M.; Speich, S.; Stemmann, L 2020: Tara Oceans: towards global ocean ecosystems biology. Nature Reviews. Microbiology 18(8): 428-445
Muparamoto, N.; Moen, Kåre. 2021: Taraidiwa ["We Have Been Raided"]: Effects of and Meanings Ascribed to an Assault on an LGBTI Function in Harare, Zimbabwe. Journal of Homosexuality 2021: 1-21
Bode, F.; Sachs, F.; Franz, M.R. 2001: Tarantula peptide inhibits atrial fibrillation. Nature 409(6816): 35-36
Taborga, N. 1946: Tarapacá Medical Zone. Boletin Medico-Social 13: 21-34
Deng, X-Xin.; Jiao, Y-Na.; Hao, H-Feng.; Xue, D.; Bai, C-Cai.; Han, S-Yan. 2021: Taraxacum mongolicum extract inhibited malignant phenotype of triple-negative breast cancer cells in tumor-associated macrophages microenvironment through suppressing IL-10 / STAT3 / PD-L1 signaling pathways. Journal of Ethnopharmacology 274:: 113978
Hu, J.; Zhang, Y.; Guo, P.; Tang, N.; Lu, Y.; Jin, Z. 2020: Taraxastane inhibits the proliferation, migration and invasion of human cervical cancer by inducing ROS- mediated necrosis like cell death, cell cycle arrest and modulation of JNK/MAPK signaling pathway. Journal of Buon: Official Journal of the Balkan Union of Oncology 25(2): 716-722
Tang, C-Tao.; Yang, J.; Liu, Z-De.; Chen, Y.; Zeng, C. 2021: Taraxasterol acetate targets RNF31 to inhibit RNF31/p53 axis-driven cell proliferation in colorectal cancer. Cell Death Discovery 7(1): 66
Zhu, J.; Li, X.; Zhang, S.; Liu, J.; Yao, X.; Zhao, Q.; Kou, B.; Han, P.; Wang, X.; Bai, Y.; Zheng, Z.; Xu, C. 2021: Taraxasterol inhibits TGF-β1-induced epithelial-to-mesenchymal transition in papillary thyroid cancer cells through regulating the Wnt/β-catenin signaling. Human and Experimental Toxicology 40(12_suppl): S87-S95
Kaczmarek, Łu. 2021: Tardigrada: An Emerging Animal Model to Study the Endoplasmic Reticulum Stress Response to Environmental Extremes. Progress in Molecular and Subcellular Biology 59: 305-327
Vuori, T.; Massa, E.; Calhim, S.; Vecchi, M. 2020: Tardigrades of Finland: new records and an annotated checklist. Zootaxa 4851(3)
Massa, E.; Guidetti, R.; Cesari, M.; Rebecchi, L.; Jönsson, K.Ingemar. 2021: Tardigrades of Kristianstads Vattenrike Biosphere Reserve with description of four new species from Sweden. Scientific Reports 11(1): 4861
Friedman, J.H. 2021: Tardive Dyskinesia due to Aripiprazole. Rhode Island Medical Journal 104(5): 49
Citrome, L.; Isaacson, S.H.; Larson, D.; Kremens, D. 2021: Tardive Dyskinesia in Older Persons Taking Antipsychotics. Neuropsychiatric Disease and Treatment 17: 3127-3134
Wittevrongel, E.; Vranken, E.; Pepermans, A.; Jaspers, T. 2020: Tardive dyskinesia in a child treated with atypical antipsychotics. Tijdschrift Voor Psychiatrie 62(10): 901-905
Tenback, D.E.; van Harten, P.N.; Slooff, C.J.; van Os, J. 2006: Tardive dyskinesia in schizophrenia is associated with prolactin-related sexual disturbances. Neuropsychopharmacology: Official Publication of the American College of Neuropsychopharmacology 31(8): 1832-1837
Cavallaro, R.; Regazzetti, M.G.; Mundo, E.; Brancato, V.; Smeraldi, E. 1993: Tardive dyskinesia outcomes: clinical and pharmacologic correlates of remission and persistence. Neuropsychopharmacology: Official Publication of the American College of Neuropsychopharmacology 8(3): 233-239
Seeman, M.V.; Patel, J.; Pyke, J. 1981: Tardive dyskinesia with Tourette-like syndrome. Journal of Clinical Psychiatry 42(9): 357-358
Cyranoski, D. 2004: Tardy earthquake excites California geophysicists. Nature 431(7009): 618
Stephenson, K.A.J.; Zhu, J.; Wynne, N.; Dockery, A.; Cairns, R.M.; Duignan, E.; Whelan, L.; Malone, C.P.; Dempsey, H.; Collins, K.; Routledge, S.; Pandey, R.; Crossan, E.; Turner, J.; O'Byrne, J.J.; Brady, L.; Silvestri, G.; Kenna, P.F.; Farrar, G.J.; Keegan, D.J. 2021: Target 5000: a standardized all-Ireland pathway for the diagnosis and management of inherited retinal degenerations. Orphanet Journal of Rare Diseases 16(1): 200
Li, Z.; Xu, J. 2021: Target Adaptive Tracking Based on GOTURN Algorithm with Convolutional Neural Network and Data Fusion. Computational Intelligence and Neuroscience 2021: 4276860
Zhang, W.; Liu, C.; Li, J.; Liu, R.; Zhuang, J.; Feng, F.; Yao, Y.; Sun, C. 2020: Target Analysis and Mechanism of Podophyllotoxin in the Treatment of Triple-Negative Breast Cancer. Frontiers in Pharmacology 11: 1211
Zhang, Q.; Wang, L.; Qian, Q.; Wang, J.; Cheng, W.; Han, K. 2020: Target Area Extraction Algorithm for the in Vivo Fluorescence Imaging of Small Animals. Acs Omega 5(32): 20100-20106
Tang, J.; Kong, L.; Wu, Y.; Wang, W.; Chen, Y.; Wang, Y.; Li, J.; Soh, Y.; Xiong, Y.; Tian, M.; Du, H. 2020: Target Bubbles in Fe3Sn2 Nanodisks at Zero Magnetic Field. Acs Nano 14(9): 10986-10992
Kim, M.K.; Choi, Y.S.; Suh, S.W.; Lee, S.E.; Park, Y.G.; Kang, H. 2021: Target Calorie Intake Achievements for Patients Treated in the Surgical Intensive Care Unit. Clinical Nutrition Research 10(2): 107-114
Zhang, Z.; Hou, X.; Qian, Z.; Guo, J.; Zou, J. 2021: Target Characteristics and Voltage Mapping of the Matrix in Idiopathic Premature Ventricular Contractions Originating from the Right Ventricular Outflow Tract. Biomed Research International 2021: 5551325
Suzuki, R.; Takigawa, T.; Matsumoto, Y.; Fujii, Y.; Nariai, Y.; Sugiura, Y.; Kawamura, Y.; Takano, I.; Tanaka, Y.; Nagaishi, M.; Hyodo, A.; Suzuki, K. 2021: Target Coil Embolization Using the Combined Transarterial and Transvenous Balloon-assisted Technique for Traumatic Direct Carotid Cavernous Fistula. Nmc Case Report Journal 8(1): 13-19
Cheng, H.; Yang, M.-J.; Xu, Y.-Q.; Li, M.-Z.; Ai, Y. 2021: Target Designing Phase Transition Materials through Halogen Substitution. Chemphyschem: a European Journal of Chemical Physics and Physical Chemistry 22(8): 752-756
Flint, R.B.; Allegaert, K. 2020: Target Drug Exposure Attainment in Children: how to get from Better to Best. Paediatric Drugs 22(4): 445-447
Liu, Z.; Xie, Q.; Zhang, H.; Mu, G.; Zhou, S.; Wang, Z.; Jiang, J.; Xiang, Q.; Cui, Y. 2021: Target Drug-Calibrated Anti-Xa Activity Assays and Expected Peak-Trough Levels in an Asian Population: a Multicenter Study. American Journal of Cardiovascular Drugs: Drugs Devices and other Interventions 21(6): 669-679
Zhu, F.; Li, C.; Chu, F.; Tian, X.; Zhu, J. 2020: Target Dysbiosis of Gut Microbes as a Future Therapeutic Manipulation in Alzheimer's Disease. Frontiers in Aging Neuroscience 12: 544235
Kim, N.; Lee, H.J. 2020: Target Enzymes Considered for the Treatment of Alzheimer's Disease and Parkinson's Disease. Biomed Research International 2020: 2010728
Bellini, V.; Swale, C.; Brenier-Pinchart, M.-P.; Pezier, T.; Georgeault, S.; Laurent, F.; Hakimi, M.-A.; Bougdour, A. 2020: Target Identification of an Antimalarial Oxaborole Identifies AN13762 as an Alternative Chemotype for Targeting CPSF3 in Apicomplexan Parasites. Iscience 23(12): 101871
Yang, K.; Wang, F.; Zhang, H.; Wang, X.; Chen, L.; Su, X.; Wu, X.; Han, Q.; Chen, Z.; Chen, Z.-S.; Fu, L. 2020: Target Inhibition of CBP Induced Cell Senescence in BCR-ABL- T315i Mutant Chronic Myeloid Leukemia. Frontiers in Oncology 10: 588641
Taglieri, N.; Bruno, A.G.; Ghetti, G.; Marrozzini, C.; Saia, F.; Galié, N.; Palmerini, T. 2020: Target Lesion Failure with Current Drug-Eluting Stents: Evidence from a Comprehensive Network Meta-Analysis. JACC. Cardiovascular Interventions 13(24): 2868-2878
Madder, R.D.; Kubo, T.; Ino, Y.; Kameyama, T.; Terada, K.; VanOosterhout, S.; Mulder, A.; McNamara, M.; Kenaan, M.; Samani, S.; Kassier, A.; Parker, J.L.; McNamara, R.; Akasaka, T. 2021: Target Lesion Lipid Content Detected by Near-Infrared Spectroscopy After Stenting and the Risk of Subsequent Target Lesion Failure. Arteriosclerosis Thrombosis and Vascular Biology 41(7): 2181-2189
Davidson, C.J.; Davidson, L.J. 2020: Target Lesion Revascularization: not So Innocent in the Unprotected Left Main. JACC. Cardiovascular Interventions 13(19): 2275-2276
Serwach, K.; Gruszczynska-Biegala, J. 2020: Target Molecules of STIM Proteins in the Central Nervous System. Frontiers in Molecular Neuroscience 13: 617422
Crespo-Herrera, L.A.; Crossa, J.; Huerta-Espino, J.; Mondal, S.; Velu, G.; Juliana, P.; Vargas, M.; Pérez-Rodríguez, P.; Joshi, A.K.; Braun, H.J.; Singh, R.P. 2021: Target Population of Environments for Wheat Breeding in India: Definition, Prediction and Genetic Gains. Frontiers in Plant Science 12: 638520
Lee, S.; Amlie-Lefond, C.M. 2021: Target Practice: Aiming for Automated Perfusion in Childhood Stroke. Stroke 52(10): 3305-3307
Craciunas, L.; Pickering, O.; Chu, J.; Žurauskienė, J.; Coomarasamy, A. 2020: Target Product Profile for an endometrial receptivity test: women's perspective. European Journal of Obstetrics Gynecology and Reproductive Biology 253: 42-47
Liu, D.-D.; Zou, C.; Zhang, J.; Gao, P.; Zhu, Y.; Meng, Y.; Ma, N.; Lv, M.; Xu, C.; Lin, Q.; Wang, J. 2021: Target Profiling of an Anticancer Drug Curcumin by an in Situ Chemical Proteomics Approach. Methods in Molecular Biology 2213: 147-161
Tsushima, M.; Sato, S.; Nakane, K.; Nakamura, H. 2020: Target Protein Identification on Photocatalyst-Functionalized Magnetic Affinity Beads. Current Protocols in Protein Science 101(1): E108
Arai, M.A. 2021: Target Protein-Oriented Isolations for Bioactive Natural Products. Chemical and Pharmaceutical Bulletin 69(6): 503-515
Ma, P.; Yue, L.; Zhang, S.; Hao, D.; Wu, Z.; Xu, L.; Du, G.; Xiao, P. 2020: Target RNA modification for epigenetic drug repositioning in neuroblastoma: computational omics proximity between repurposing drug and disease. Aging 12(19): 19022-19044
Galarneau, Aé.; Richard, Séphane. 2005: Target RNA motif and target mRNAs of the Quaking STAR protein. Nature Structural and Molecular Biology 12(8): 691-698
Md Nayeem, S.; Sohail, E.Mohammed.; Srihari, N.V.; Indira, P.; Srinivasa Reddy, M. 2021: Target SARS-CoV-2: theoretical exploration on clinical suitability of certain drugs. Journal of Biomolecular Structure and Dynamics 2021: 1-8
Phan, C.-S.; Wang, B.-Y.; Ho, S.-W. 2020: Target Sign-Intussusception. Journal of Acute Medicine 10(2): 94-95
Sobradillo, B.; Boyra, G.; Martinez, U.; Carrera, P.; Peña, M.; Irigoien, X. 2019: Target Strength and swimbladder morphology of Mueller's pearlside (Maurolicus muelleri). Scientific Reports 9(1): 17311
Trojan, S.; Limper, U.; Wappler, F. 2021: Target Temperature Control in Patients with Burns. Anasthesiologie Intensivmedizin Notfallmedizin Schmerztherapie: Ains 56(5): 356-365
Nowak, R.ła.P.; Jones, L.H. 2021: Target Validation Using PROTACs: Applying the Four Pillars Framework. Slas Discovery: Advancing Life Sciences R and D 26(4): 474-483
Brown, K.M.; Chu, C-Ying.; Rana, T.M. 2005: Target accessibility dictates the potency of human RISC. Nature Structural and Molecular Biology 12(5): 469-470
Wang, S.; Sun, H.; Ma, J.; Zang, C.; Wang, C.; Wang, J.; Tang, Q.; Meyer, C.A.; Zhang, Y.; Liu, X.Shirley. 2013: Target analysis by integration of transcriptome and ChIP-seq data with BETA. Nature Protocols 8(12): 2502-2515
Yuan, L.; Wang, J.; Ke, X.-Y. 2021: Target and Manufacturing of Chimeric Antigen Receptor T cells for T-cell Malignancies--Review. Zhongguo Shi Yan Xue Ye Xue Za Zhi 29(1): 288-292
Al-Mekhlafi, F.A.; Abutaha, N.; Al-Doaiss, A.A.; Ahmed Al-Keridis, L.; Alsayadi, A.I.; Ali El Hadi Mohamed, R.; Wadaan, M.A.; Elfaki Ibrahim, K.; Al-Khalifa, M.S. 2021: Target and non-target effects of Foeniculum vulgare and Matricaria chamomilla combined extract on Culex pipiens mosquitoes. Saudi Journal of Biological Sciences 28(10): 5773-5780
Güth, U.; Huang, D.J.; Schötzau, A.; Zanetti-Dällenbach, R.; Holzgreve, W.; Bitzer, J.; Wight, E. 2008: Target and reality of adjuvant endocrine therapy in postmenopausal patients with invasive breast cancer. British Journal of Cancer 99(3): 428-433
Chiaia-Hernández, A.C.; Scheringer, M.; Müller, A.; Stieger, G.; Wächter, D.; Keller, A.; Pintado-Herrera, M.G.; Lara-Martin, P.A.; Bucheli, T.D.; Hollender, J. 2020: Target and suspect screening analysis reveals persistent emerging organic contaminants in soils and sediments. Science of the Total Environment 740: 140181
Bhandari, M.; Khullar, G. 2022: Target and targetoid lesions in dermatology. Indian Journal of Dermatology Venereology and Leprology 88(3): 430-434
Gupta, A.; Baker, C.; Wang, H.; Targa, N.; Pfefferkorn, A.; Tielemans, E. 2021: Target animal safety evaluation of a novel topical combination of esafoxolaner, eprinomectin and praziquantel for cats. Parasite 28: 18
Demiselle, J.; Calzia, E.; Hartmann, C.; Messerer, D.A.C.; Asfar, P.; Radermacher, P.; Datzmann, T. 2021: Target arterial PO2 according to the underlying pathology: a mini-review of the available data in mechanically ventilated patients. Annals of Intensive Care 11(1): 88
Anderson, J.; Meneghini, L.; Hinnen, D.; Gill, J.; Coudert, M.; Evenou, P.; Munshi, M. 2021: Target attainment in insulin-naive patients at high risk for hypoglycemia: Results from ACHIEVE Control. Journal of Diabetes and its Complications 35(4): 107831
Feng, Y.; Liu, S.; Chen, R.; Xie, A. 2021: Target binding and residence: a new determinant of DNA double-strand break repair pathway choice in CRISPR/Cas9 genome editing. Journal of Zhejiang University. Science. B 22(1): 73-86
Zhan, S.H.; Alamouti, S.M.; Daneshpajouh, H.; Kwok, B.S.; Lee, M.-H.; Khattra, J.; Houck, H.J.; Rand, K.H. 2021: Target capture sequencing of SARS-CoV-2 genomes using the ONETest Coronaviruses Plus. Diagnostic Microbiology and Infectious Disease 101(3): 115508
Lambling, A.; Conte, M. 1949: Target cell erythroblastic anemia and terminal aleucia during chronic pancreatitis with splenic atrophy. Bulletins et Memoires de la Societe Medicale des Hopitaux de Paris 65(25): 1066-1073
Tambourin, P.E.; Wendling, F. 1975: Target cell for oncogenic action of polycythaemia-inducing Friend virus. Nature 256(5515): 320-322
Peter, J.B.; Dawkins, R.L. 1971: Target cell lysis mediated by soluble cytotoxin released from stimulated lymphocytes. Nature: new Biology 232(29): 79-80
Li, W.; Guo, S.; Zhai, Y.; Liu, F.; Lai, Z.; Han, S. 2021: Target classification of multislit streak tube imaging lidar based on deep learning. Applied Optics 60(28): 8809-8817
van Polanen, V.; Bergmann Tiest, W.M.; Kappers, A.M.L. 2014: Target contact and exploration strategies in haptic search. Scientific Reports 4: 6254
Lu, F.; Yang, K.; Qian, Y. 2020: Target control based on edge dynamics in complex networks. Scientific Reports 10(1): 9991
Gao, J.; Liu, Y-Yu.; D'Souza, R.M.; Barabási, A-László. 2014: Target control of complex networks. Nature Communications 5: 5415
Yu, S.; Piao, X.; Park, N. 2017: Target decoupling in coupled systems resistant to random perturbation. Scientific Reports 7(1): 2139
Gunnlaugsson, A.; Persson, E.; Gustafsson, C.; Kjellén, E.; Ambolt, P.; Engelholm, S.; Nilsson, P.; Olsson, L.E. 2019: Target definition in radiotherapy of prostate cancer using magnetic resonance imaging only workflow. Physics and Imaging in Radiation Oncology 9: 89-91
Prikhozhdenko, E.S.; Gusliakova, O.I.; Kulikov, O.A.; Mayorova, O.A.; Shushunova, N.A.; Abdurashitov, A.S.; Bratashov, D.N.; Pyataev, N.A.; Tuchin, V.V.; Gorin, D.A.; Sukhorukov, G.B.; Sindeeva, O.A. 2021: Target delivery of drug carriers in mice kidney glomeruli via renal artery. Balance between efficiency and safety. Journal of Controlled Release: Official Journal of the Controlled Release Society 329: 175-190
Chandrappan, J.; Murray, M.; Kakkar, T.; Petrik, P.; Agocs, E.; Zolnai, Z.; Steenson, D.P.; Jha, A.; Jose, G. 2015: Target dependent femtosecond laser plasma implantation dynamics in enabling silica for high density erbium doping. Scientific Reports 5: 14037
Zhang, M.; Uddin, K.M.S.; Li, S.; Zhu, Q. 2020: Target depth-regularized reconstruction in diffuse optical tomography using ultrasound segmentation as prior information. Biomedical Optics Express 11(6): 3331-3345
Oeur, R.A.; Margulies, S.S. 2020: Target detection in healthy 4-week old piglets from a passive two-tone auditory oddball paradigm. Bmc Neuroscience 21(1): 52
Swallow, K.M.; Jiang, Y.V.; Riley, E.B. 2019: Target detection increases pupil diameter and enhances memory for background scenes during multi-tasking. Scientific Reports 9(1): 5255
Sekine, S.; Shibata, T.; Sakamoto, M.; Hirohashi, S. 2002: Target disruption of the mutant beta-catenin gene in colon cancer cell line HCT116: preservation of its malignant phenotype. Oncogene 21(38): 5906-5911
Bolinger, A.M.; Zangwill, A.B.; Slattery, J.T.; Risler, L.J.; Sultan, D.H.; Glidden, D.V.; Norstad, D.; Cowan, M.J. 2001: Target dose adjustment of busulfan in pediatric patients undergoing bone marrow transplantation. Bone Marrow Transplantation 28(11): 1013-1018
Robers, M.B.; Dart, M.L.; Woodroofe, C.C.; Zimprich, C.A.; Kirkland, T.A.; Machleidt, T.; Kupcho, K.R.; Levin, S.; Hartnett, J.R.; Zimmerman, K.; Niles, A.L.; Ohana, R.Friedman.; Daniels, D.L.; Slater, M.; Wood, M.G.; Cong, M.; Cheng, Y-Qiang.; Wood, K.V. 2015: Target engagement and drug residence time can be observed in living cells with BRET. Nature Communications 6: 10091
Carney, B.; Kossatz, S.; Lok, B.H.; Schneeberger, V.; Gangangari, K.K.; Pillarsetty, N.Vara.Kishore.; Weber, W.A.; Rudin, C.M.; Poirier, J.T.; Reiner, T. 2018: Target engagement imaging of PARP inhibitors in small-cell lung cancer. Nature Communications 9(1): 176
Huber, K.V.M. 2017: Target engagement: Shining a light. Nature Chemical Biology 13(2): 133-134
LeBlanc, B.M.; Hand, S.C. 2021: Target enzymes are stabilized by AfrLEA6 and a gain of α-helix coincides with protection by a group 3 LEA protein during incremental drying. Biochimica et Biophysica Acta. Proteins and Proteomics 1869(6): 140642
Guo, Z.; Niu, M.; Wang, Q. 2021: Target familiarity and visual working memory do not influence familiarity effect in visual search. Scientific Reports 11(1): 7560
Blagosklonny, M.V. 2006: Target for cancer therapy: proliferating cells or stem cells. Leukemia 20(3): 385-391
Nah, J.C.; Shomstein, S. 2020: Target frequency modulates object-based attention. Psychonomic Bulletin and Review 27(5): 981-989
Pinheiro, M.; Pinto, C.; Peixoto, A.; Veiga, I.; Lopes, P.; Henrique, R.; Baldaia, H.; Carneiro, Fátima.; Seruca, R.; Tomlinson, I.; Kovac, M.; Heinimann, K.; Teixeira, M.R. 2015: Target gene mutational pattern in Lynch syndrome colorectal carcinomas according to tumour location and germline mutation. British Journal of Cancer 113(4): 686-692
Lau, K.W.; Tian, Y-M.; Raval, R.R.; Ratcliffe, P.J.; Pugh, C.W. 2007: Target gene selectivity of hypoxia-inducible factor-alpha in renal cancer cells is conveyed by post-DNA-binding mechanisms. British Journal of Cancer 96(8): 1284-1292
Baluapuri, A.; Wolf, E.; Eilers, M. 2020: Target gene-independent functions of MYC oncoproteins. Nature Reviews. Molecular Cell Biology 21(5): 255-267
Tin, A.; Marten, J.; Halperin Kuhns, V.L.; Li, Y.; Wuttke, M.; Kirsten, H.; Sieber, K.B.; Qiu, C.; Gorski, M.; Yu, Z.; Giri, A.; Sveinbjornsson, G.; Li, M.; Chu, A.Y.; Hoppmann, A.; O'Connor, L.J.; Prins, B.; Nutile, T.; Noce, D.; Akiyama, M.; Cocca, M.; Ghasemi, S.; van der Most, P.J.; Horn, K.; Xu, Y.; Fuchsberger, C.; Sedaghat, S.; Afaq, S.; Amin, N.; Ärnlöv, J.; Bakker, S.J.L.; Bansal, N.; Baptista, D.; Bergmann, S.; Biggs, M.L.; Biino, G.; Boerwinkle, E.; Bottinger, E.P.; Boutin, T.S.; Brumat, M.; Burkhardt, R.; Campana, E.; Campbell 2019: Target genes, variants, tissues and transcriptional pathways influencing human serum urate levels. Nature Genetics 51(10): 1459-1474
Panda, D.; Saha, P.; Das, T.; Dash, J. 2017: Target guided synthesis using DNA nano-templates for selectively assembling a G-quadruplex binding c-MYC inhibitor. Nature Communications 8: 16103
Zeng, X.; Zhu, S.; Lu, W.; Liu, Z.; Huang, J.; Zhou, Y.; Fang, J.; Huang, Y.; Guo, H.; Li, L.; Trapp, B.D.; Nussinov, R.; Eng, C.; Loscalzo, J.; Cheng, F. 2020: Target identification among known drugs by deep learning from heterogeneous networks. Chemical Science 11(7): 1775-1797
Dai, L.; Li, Z.; Chen, D.; Jia, L.; Guo, J.; Zhao, T.; Nordlund, P.är. 2020: Target identification and validation of natural products with label-free methodology: a critical review from 2005 to 2020. Pharmacology and Therapeutics 216: 107690
Altar, C.Anthony.; Vawter, M.P.; Ginsberg, S.D. 2009: Target identification for CNS diseases by transcriptional profiling. Neuropsychopharmacology: Official Publication of the American College of Neuropsychopharmacology 34(1): 18-54
Bassilana, F.; Carlson, A.; DaSilva, J.A.; Grosshans, B.; Vidal, S.; Beck, V.; Wilmeringwetter, B.; Llamas, L.A.; Showalter, T.B.; Rigollier, P.; Bourret, A.; Ramamurthy, A.; Wu, X.; Harbinski, F.; Plonsky, S.; Lee, L.; Ruffner, H.; Grandi, P.; Schirle, M.; Jenkins, J.; Sailer, A.W.; Bouwmeester, T.; Porter, J.A.; Myer, V.; Finan, P.M.; Tallarico, J.A.; Kelleher, J.F.; Seuwen, K.; Jain, R.K.; Luchansky, S.J. 2014: Target identification for a Hedgehog pathway inhibitor reveals the receptor GPR39. Nature Chemical Biology 10(5): 343-349
Yasuda, M.; Ma, Y.; Okabe, S.; Wakabayashi, Y.; Su, D.; Chang, Y.-T.; Seimiya, H.; Tera, M.; Nagasawa, K. 2020: Target identification of a macrocyclic hexaoxazole G-quadruplex ligand using post-target-binding visualization. Chemical Communications 56(85): 12905-12908
Zhu, J.; Zhang, D.; Wang, T.; Chen, Z.; Chen, L.; Wu, H.; Huai, C.; Sun, J.; Zhang, N.; Wei, M.; Hong, F.; Qin, S. 2021: Target identification of hepatic fibrosis using Pien Tze Huang based on mRNA and lncRNA. Scientific Reports 11(1): 16980
Chen, X.; Wang, Y.; Ma, N.; Tian, J.; Shao, Y.; Zhu, B.; Wong, Y.Kwan.; Liang, Z.; Zou, C.; Wang, J. 2020: Target identification of natural medicine with chemical proteomics approach: probe synthesis, target fishing and protein identification. Signal Transduction and Targeted Therapy 5(1): 72
Neggers, J.Edgar.; Kwanten, B.; Dierckx, T.; Noguchi, H.; Voet, A.; Bral, L.; Minner, K.; Massant, B.; Kint, N.; Delforge, M.; Vercruysse, T.; Baloglu, E.; Senapedis, W.; Jacquemyn, M.; Daelemans, D. 2018: Target identification of small molecules using large-scale CRISPR-Cas mutagenesis scanning of essential genes. Nature Communications 9(1): 502
Tanwar, G.; Mazumder, A.Ghosh.; Bhardwaj, V.; Kumari, S.; Bharti, R.; Yamini; Singh, D.; Das, P.; Purohit, R. 2019: Target identification, screening and in vivo evaluation of pyrrolone-fused benzosuberene compounds against human epilepsy using Zebrafish model of pentylenetetrazol-induced seizures. Scientific Reports 9(1): 7904
Tse, M.Tsuey. 2013: Target identification: Blocking vasopressin receptors reduces jet lag. Nature Reviews. Drug Discovery 12(12): 903
Flemming, A. 2010: Target identification: HIF2alpha central player in osteoarthritis. Nature Reviews. Drug Discovery 9(7): 517
Cully, M. 2016: Target identification: Putting the brakes on preterm labour. Nature Reviews. Drug Discovery 15(2): 86
Harrison, C. 2014: Target identification: Stopping β-cell death in diabetes. Nature Reviews. Drug Discovery 13(5): 333
Flemming, A. 2010: Target identification: unravelling thalidomide teratogenicity. Nature Reviews. Drug Discovery 9(5): 361
Dong, Z.-C.; Zhang, D.; Wang, S.-B.; Lin, Z.-Q. 2020: Target inhibition on GSK-3β by miR-9 to modulate proliferation and apoptosis of bladder cancer cells. European Review for Medical and Pharmacological Sciences 24(20): 10301
Peter, B.; Winter, G.E.; Blatt, K.; Bennett, K.L.; Stefanzl, G.; Rix, U.; Eisenwort, G.; Hadzijusufovic, E.; Gridling, M.; Dutreix, C.; Hoermann, G.; Schwaab, J.; Radia, D.; Roesel, J.; Manley, P.W.; Reiter, A.; Superti-Furga, G.; Valent, P. 2016: Target interaction profiling of midostaurin and its metabolites in neoplastic mast cells predicts distinct effects on activation and growth. Leukemia 30(2): 464-472
Reding, M.T.; Pabinger, I.; Lalezari, S.; Santagostino, E.; Mancuso, M.E. 2020: Target joint resolution in patients with haemophilia a receiving long-term prophylaxis with BAY 94-9027. Haemophilia: the Official Journal of the World Federation of Hemophilia 26(4): E201-E204
Zhang, R.; Zou, D.; Cheng, G.; Xie, H.; Wang, F.L.; Au, O.T.S. 2021: Target languages, types of activities, engagement, and effectiveness of extramural language learning. Plos one 16(6): E0253431
Huang, P-Wei.; Cha, T-Lung.; Chang, H-Ching.; Tang, S-Hung. 2010: Target lesions in the bladder from emphysematous cystitis. Kidney International 78(3): 325
Ma, Y.; Yang, Z.; Wu, W.; Xie, H.; Gu, L. 2021: Target localization during respiration motion based on LSTM: a pilot study on robotic puncture system. International Journal of Medical Robotics + Computer Assisted Surgery: Mrcas 17(3): E2247
Rowland, G.F.; Hurd, C.M. 1970: Target lymphoid cell population of carcinogen induced immunodepression in mice. Nature 227(5254): 167-168
Arvey, A.; Larsson, E.; Sander, C.; Leslie, C.S.; Marks, D.S. 2010: Target mRNA abundance dilutes microRNA and siRNA activity. Molecular Systems Biology 6: 363
Yang, Z-Yong.; Chang, Y.; Liu, H-Yuan.; Liu, G.; Li, Q. 2017: Target margin design for real-time lung tumor tracking stereotactic body radiation therapy using CyberKnife Xsight Lung Tracking System. Scientific Reports 7(1): 10826
Franco-Zorrilla, Jé.Manuel.; Valli, Aán.; Todesco, M.; Mateos, I.; Puga, Mía.Isabel.; Rubio-Somoza, I.; Leyva, A.; Weigel, D.; García, J.Antonio.; Paz-Ares, J. 2007: Target mimicry provides a new mechanism for regulation of microRNA activity. Nature Genetics 39(8): 1033-1037
Chitwood, D.H.; Timmermans, M.C.P. 2007: Target mimics modulate miRNAs. Nature Genetics 39(8): 935-936
Pu, X.; Zhu, L.; Li, F.; Zheng, J.; Wu, H.; Fu, Y.; Chen, J.; Qi, L. 2020: Target molecular treatment markers in Intrahepatic Cholangiocarcinoma based on Chinese population. Pathology Research and Practice 216(9): 153116
Zouboulis, C.C.; Frew, J.W.; Giamarellos-Bourboulis, E.J.; Jemec, G.B.E.; Del Marmol, V.; Marzano, A.V.; Nikolakis, G.; Sayed, C.J.; Tzellos, T.; Wolk, K.; Prens, E.P. 2021: Target molecules for future hidradenitis suppurativa treatment. Experimental Dermatology 30(Suppl 1): 8-17
Jefferis, G.S.; Marin, E.C.; Stocker, R.F.; Luo, L. 2001: Target neuron prespecification in the olfactory map of Drosophila. Nature 414(6860): 204-208
Kuo, Y.; Huang, H.; Cai, T.; Wang, T. 2015: Target of Rapamycin Complex 2 regulates cell growth via Myc in Drosophila. Scientific Reports 5: 10339
Peternel, L.; Babič, J. 2019: Target of initial sub-movement in multi-component arm-reaching strategy. Scientific Reports 9(1): 20101
Fingar, D.C.; Blenis, J. 2004: Target of rapamycin (TOR): an integrator of nutrient and growth factor signals and coordinator of cell growth and cell cycle progression. Oncogene 23(18): 3151-3171
Yina, S.; Zhongjie, C.; Kaiyu, C.; Chenghua, L.; Xiaodong, Z. 2020: Target of rapamycin signaling inhibits autophagy in sea cucumber Apostichopus japonicus. Fish and Shellfish Immunology 102: 480-488
Arthikala, M-Kumar.; Nanjareddy, K.; Blanco, L.; Alvarado-Affantranger, Xóchitl.; Lara, M. 2021: Target of rapamycin, PvTOR, is a key regulator of arbuscule development during mycorrhizal symbiosis in Phaseolus. Scientific Reports 11(1): 11319
Crump, C.J.; Johnson, D.S.; Li, Y-Ming. 2011: Target of γ-secretase modulators, presenilin marks the spot. EMBO Journal 30(23): 4696-4698
Kramar, J.; McCARTHY, H.H.; Simaykramar, M.; Carnazzo, A.J. 1959: Target organ activation by stress. Nature 183(4674): 1522-1523
Kotsis, V.; Stabouli, S.; Toumanidis, S.; Papamichael, C.; Lekakis, J.; Germanidis, G.; Hatzitolios, A.; Rizos, Z.; Sion, M.; Zakopoulos, N. 2008: Target organ damage in "white coat hypertension" and "masked hypertension". American Journal of Hypertension 21(4): 393-399
Meazza, R.; Scardino, C.; Grosso Di Palma, L.; Perrucci, G.L.; Gallazzi, E.; Cattaneo, M.; Villarini, A.; Magrini, F. 2014: Target organ damage in hypertensive patients: correlation between retinal arteriovenular ratio and left ventricular geometric patterns. Journal of Human Hypertension 28(4): 274-278
Hussain, A.A.; Elzubier, A.G.; Ahmed, M.E. 1999: Target organ involvement in hypertensive patients in Eastern Sudan. Journal of Human Hypertension 13(1): 9-12
Ma, M.; Li, H.; Gao, X.; Si, W.; Deng, H.; Zhang, J.; Zhong, X.; Wang, K. 2020: Target orientation detection based on a neural network with a bionic bee-like compound eye. Optics Express 28(8): 10794-10805
Saeedpour-Parizi, M.R.; Hassan, S.E.; Azad, A.; Baute, K.J.; Baniasadi, T.; Shea, J.B. 2021: Target position and avoidance margin effects on path planning in obstacle avoidance. Scientific Reports 11(1): 15285
Bradley, A.; Liu, P. 1996: Target practice in transgenics. Nature Genetics 14(2): 121-123
Hyman, S.E. 2012: Target practice: HDAC inhibitors for schizophrenia. Nature Neuroscience 15(9): 1180-1181
Wilson, S.I. 2010: Target practice: Zic2 hits the bullseye!. EMBO Journal 29(18): 3037-3038
Rooda, I.; Hensen, K.; Kaselt, B.; Kasvandik, S.; Pook, M.; Kurg, A.; Salumets, A.; Velthut-Meikas, A. 2020: Target prediction and validation of micro RNAs expressed from FSHR and aromatase genes in human ovarian granulosa cells. Scientific Reports 10(1): 2300
Fongwen, N.; Wilder-Smith, A.; Gubler, D.J.; Ooi, E.E.; T Salvana, E.M.; de Lamballerie, X.; Olliaro, P.L.; Peeling, R.W. 2021: Target product profile for a dengue pre-vaccination screening test. Plos Neglected Tropical Diseases 15(7): E0009557
Rix, U.; Superti-Furga, G. 2009: Target profiling of small molecules by chemical proteomics. Nature Chemical Biology 5(9): 616-624
Wilson, D.N.; Hauryliuk, V.; Atkinson, G.C.; O'Neill, A.J. 2020: Target protection as a key antibiotic resistance mechanism. Nature Reviews. Microbiology 18(11): 637-648
Arai, M.A.; Morita, K.; Kawano, H.; Makita, Y.; Hashimoto, M.; Suganami, A.; Tamura, Y.; Sadhu, S.K.; Ahmed, F.; Ishibashi, M. 2020: Target protein-oriented isolation of Hes1 dimer inhibitors using protein based methods. Scientific Reports 10(1): 1381
Liu, J.; Shimizu, K.; Tanaka, A.; Shinobu, W.; Ohnuki, K.; Nakamura, T.; Kondo, R. 2012: Target proteins of ganoderic acid DM provides clues to various pharmacological mechanisms. Scientific Reports 2: 905
Williams, R.W.; Hogan, D.; Garraghty, P.E. 1994: Target recognition and visual maps in the thalamus of achiasmatic dogs. Nature 367(6464): 637-639
Bas, M.; Król, K.; Spinczyk, D. 2021: Target registration error reduction for percutaneous abdominal intervention. Computerized Medical Imaging and Graphics: the Official Journal of the Computerized Medical Imaging Society 87: 101839
Wang, X.; Zhao, X.-Q. 2020: Target reproduction numbers for reaction-diffusion population models. Journal of Mathematical Biology 81(2): 625-647
Kitamura, Y.; Kondo, E.; Urano, M.; Aoki, R.; Saito, K. 2016: Target resequencing of neuromuscular disease-related genes using next-generation sequencing for patients with undiagnosed early-onset neuromuscular disorders. Journal of Human Genetics 61(11): 931-942
Peng, S.; Wang, X.; Zhang, L.; He, S.; Zhao, X.S.; Huang, X.; Chen, C. 2020: Target search and recognition mechanisms of glycosylase AlkD revealed by scanning FRET-FCS and Markov state models. Proceedings of the National Academy of Sciences of the United States of America 117(36): 21889-21895
Aronin, N. 2006: Target selectivity in mRNA silencing. Gene Therapy 13(6): 509-516
Ren, C.; Lin, Y.; Liu, X.; Yan, D.; Xu, X.; Zhu, D.; Kong, L.; Han, C. 2021: Target separation and antitumor metastasis activity of sesquiterpene-based lysine-specific demethylase 1 inhibitors from zedoary turmeric oil. Bioorganic Chemistry 108: 104666
Eserman, L.A.; Thomas, S.K.; Coffey, E.E.D.; Leebens-Mack, J.H. 2021: Target sequence capture in orchids: Developing a kit to sequence hundreds of single-copy loci. Applications in Plant Sciences 9(7): E11416
Warton, K.; Xu, Y.; Ford, C.E. 2020: Target sequence heterogeneity causes the 'hook effect' in fluorescent dye-based quantitative PCR. Biotechniques 69(2): 80-83
Rojano-Delgado, A.M.; Portugal, Jão.M.; Palma-Bautista, C.; Alcántara-de la Cruz, R.; Torra, J.; Alcántara, E.; De Prado, R. 2019: Target site as the main mechanism of resistance to imazamox in a Euphorbia heterophylla biotype. Scientific Reports 9(1): 15423
Paal, M.; Scharf, C.; Denninger, A.Katrin.; Ilia, L.; Kloft, C.; Kneidinger, N.; Liebchen, U.; Michel, S.; Schneider, C.; Schröpf, S.; Schuster, C.; Vogeser, M.; Weinelt, F.; Zander, J.; Zoller, M.; Schroeder, I. 2021: Target site pharmacokinetics of meropenem: Measurement in human explanted lung tissue by bronchoalveolar lavage, microdialysis and homogenized lung tissue. Antimicrobial Agents and ChemoTherapy 2021: Aac0156421
Wang, J.; Pejaver, V.Rao.; Dann, G.P.; Wolf, M.Y.; Kellis, M.; Huang, Y.; Garcia, B.A.; Radivojac, P.; Kashina, A. 2018: Target site specificity and in vivo complexity of the mammalian arginylome. Scientific Reports 8(1): 16177
Radman, M. 1971: Target size of DNA in ultraviolet irradiation. Nature: new Biology 230(17): 277-278
Voyvodic, J.T. 1989: Target size regulates calibre and myelination of sympathetic axons. Nature 342(6248): 430-433
Liu, G.; Froudarakis, E.; Patel, J.M.; Kochukov, M.Y.; Pekarek, B.; Hunt, P.J.; Patel, M.; Ung, K.; Fu, C-Hsuan.; Jo, J.; Lee, H-Kyoung.; Tolias, A.S.; Arenkiel, B.R. 2019: Target specific functions of EPL interneurons in olfactory circuits. Nature Communications 10(1): 3369
Jain, S.; Jariyal, H.; Srivastava, A.; Sengupta, P. 2020: Target specific intracellular quantification of etoposide by quadrupole-time of flight based mass spectrometric method. Journal of Chromatography. B Analytical Technologies in the Biomedical and Life Sciences 1152: 122233
Meneses, M.ár.; Antonio, A.L.; Cabo Verde, S. 2021: Target specific post-harvest treatment by gamma radiation for the microbial safety of dried Melissa officinalis and Aloysia citrodora. Applied Radiation and Isotopes: Including Data Instrumentation and Methods for use in Agriculture Industry and Medicine 168: 109391
Ikegami, S.; Benirschke, R.C.; Fakhrai-Rad, H.; Motamedi, M.H.; Hockett, R.; David, S.; Lee, H.K.; Kang, J.; Gniadek, T.J. 2021: Target specific serologic analysis of COVID-19 convalescent plasma. Plos one 16(4): E0249938
Ercolino, A.M.; Patel, P.; Bohil, C.; Neider, M.B.; Schmidt, J. 2020: Target specificity improves search, but how universal is the benefit?. Attention Perception and Psychophysics 82(8): 3878-3894
Muratore, P.; Capone, C.; Paolucci, P.S. 2021: Target spike patterns enable efficient and biologically plausible learning for complex temporal tasks. Plos one 16(2): E0247014
Leshner, A.I. 2021: Target student mental well-being. Science 371(6527): 325
Yang, S.; Wang, Y.; Wang, L.; Kamau, P.; Zhang, H.; Luo, A.; Lu, X.; Lai, R. 2020: Target switch of centipede toxins for antagonistic switch. Science Advances 6(32): Eabb 5734
Kelly, A.M.; McLoughlin, R.M. 2020: Target the Host, Kill the Bug; Targeting Host Respiratory Immunosuppressive Responses as a Novel Strategy to Improve Bacterial Clearance During Lung Infection. Frontiers in Immunology 11: 767
Leask, J. 2011: Target the fence-sitters. Nature 473(7348): 443-445
Jiang, H.; Zhang, N.; Tang, T.; Feng, F.; Sun, H.; Qu, W. 2020: Target the human Alanine/Serine/Cysteine Transporter 2(ASCT2): Achievement and Future for Novel Cancer Therapy. Pharmacological Research 158: 104844
Ricciardi, S.; Cecere, F.; D'Andrea, M.R.; D'Argento, E.; Gelibter, J.A.; Giusti, R.; Lugini, A.; Mansueto, G.; Nelli, F.; Rossi, L.; Russano, M.; Migliorino, M.R. 2020: Target therapies in translocated ALK lung cancer: treatment management in oncology center of Lazio. Recenti Progressi in Medicina 111(12): 63e-69e
Guo, Y-Yang.; He, D-Jian.; Liu, C. 2018: Target tracking and 3D trajectory acquisition of cabbage butterfly (P. rapae) based on the KCF-BS algorithm. Scientific Reports 8(1): 9622
Amano, H.; Maruyama, K.; Naka, M.; Tanaka, T. 2003: Target validation in hypoxia-induced vascular remodeling using transcriptome/metabolome analysis. Pharmacogenomics Journal 3(3): 183-188
Bunnage, M.E.; Chekler, E.L.Piatnitski.; Jones, L.H. 2013: Target validation using chemical probes. Nature Chemical Biology 9(4): 195-199
Cully, M. 2015: Target validation: Genetic information adds supporting weight. Nature Reviews. Drug Discovery 14(8): 525
Ciulli, A. 2016: Target validation: Switching domains. Nature Chemical Biology 12(9): 659-660
Lesko, C.R.; Ackerman, B.; Webster-Clark, M.; Edwards, J.K. 2020: Target validity: Bringing treatment of external validity in line with internal validity. Current Epidemiology Reports 7(3): 117-124
Wiegand, I.; Wolfe, J.M. 2021: Target value and prevalence influence visual foraging in younger and older age. Vision Research 186: 87-102
Tanaka, K.; Okura, T.; Shigematsu, R.; Nakata, Y.; Lee, D.Jun.; Wee, S.Wan.; Yamabuki, K. 2004: Target value of intraabdominal fat area for improving coronary heart disease risk factors. Obesity Research 12(4): 695-703
Hahn, F.; Niesar, A.; Wangen, C.; Wild, M.; Grau, B.; Herrmann, L.; Capci, A.; Adrait, A.; Couté, Y.; Tsogoeva, S.B.; Marschall, M. 2020: Target verification of artesunate-related antiviral drugs: Assessing the role of mitochondrial and regulatory proteins by click chemistry and fluorescence labeling. Antiviral Research 180: 104861
Jansen, M.M.; van der Stelt, M.; Smorenburg, S.P.M.; Slump, C.H.; van Herwaarden, J.A.; Hazenberg, C.E.V.B. 2021: Target vessel displacement during fenestrated and branched endovascular aortic repair and its implications for the role of traditional computed tomography angiography roadmaps. Quantitative Imaging in Medicine and Surgery 11(9): 3945-3955
Bernhardt, D.; Combs, S.E. 2020: Target volume reduction by 18F-FDG-PET/CT-based involved-field irradiation of advanced non-small cell lung cancer possible new standard: results of the PET-plan study. Strahlentherapie und Onkologie: Organ der Deutschen Rontgengesellschaft . 196(8): 743-746
Burridge, S. 2013: Target watch: Drugging the epigenome. Nature Reviews. Drug Discovery 12(2): 92-93
Rudin, M. 2000: Target watching with a beady eye. Nature Biotechnology 18(4): 383
Knoepfel, T.; Nimsgern, P.; Jacquier, S.éb.; Bourrel, M.; Vangrevelinghe, E.; Glatthar, R.; Behnke, D.; Alper, P.B.; Michellys, P.-Y.; Deane, J.; Junt, T.; Zipfel, G.ér.; Limonta, S.; Hawtin, S.; Andre, C.; Boulay, T.; Loetscher, P.; Faller, M.; Blank, J.; Feifel, R.; Betschart, C. 2020: Target-Based Identification and Optimization of 5-Indazol-5-yl Pyridones as Toll-like Receptor 7 and 8 Antagonists Using a Biochemical TLR8 Antagonist Competition Assay. Journal of Medicinal Chemistry 63(15): 8276-8295
Ingrande, J.; Lemmens, H.J. 2018: Target-Controlled Infusion: Not a One-Sized-Fits-All Answer to Drug Administration. Anesthesia and Analgesia 127(4): 813-814
Haniff, H.S.; Knerr, L.; Chen, J.L.; Disney, M.D.; Lightfoot, H.L. 2020: Target-Directed Approaches for Screening Small Molecules against RNA Targets. Slas Discovery: Advancing Life Sciences R and D 25(8): 869-894
Comert Onder, F.; Kahraman, N.; Bellur Atici, E.; Cagir, A.; Kandemir, H.; Tatar, G.; Taskin Tok, T.; Kara, G.; Karliga, B.; Durdagi, S.; Ay, M.; Ozpolat, B. 2021: Target-Driven Design of a Coumarinyl Chalcone Scaffold Based Novel EF2 Kinase Inhibitor Suppresses Breast Cancer Growth in Vivo. Acs Pharmacology and Translational Science 4(2): 926-940
Zhang, S.; Gao, B.; Zhu, S. 2015: Target-Driven Evolution of Scorpion Toxins. Scientific Reports 5: 14973
Dai, Z.; Guo, J.; Xu, J.; Liu, C.; Gao, Z.; Song, Y.-Y. 2020: Target-Driven Nanozyme Growth in TiO2 Nanochannels for Improving Selectivity in Electrochemical Biosensing. Analytical Chemistry 92(14): 10033-10041
Pandey, P.; P, P.A.; Kyatham, V.; Mishra, D.; Dastidar, T.R. 2020: Target-Independent Domain Adaptation for WBC Classification Using Generative Latent Search. IEEE Transactions on Medical Imaging 39(12): 3979-3991
Li, N.; Shen, F.; Cai, Z.; Pan, W.; Yin, Y.; Deng, X.; Zhang, X.; Machuki, J.O.'a.; Yu, Y.; Yang, D.; Yang, Y.; Guan, M.; Gao, F. 2020: Target-Induced Core-Satellite Nanostructure Assembly Strategy for Dual-Signal-on Fluorescence Imaging and Raman Quantification of Intracellular MicroRNA Guided Photothermal Therapy. Small 16(49): E2005511
Bialy, R.M.; Li, Y.; Brennan, J.D. 2022: Target-Mediated 5'-Exonuclease Digestion of DNA Aptamers with RecJ to Modulate Rolling Circle Amplification for Biosensing. Chembiochem: a European Journal of Chemical Biology 23(1): E202100476
Kwak, E.-Y.; Kim, M.J.; Park, J.H.; Jung, H.W.; Jung, M.E. 2021: Target-mediated drug disposition modeling of an anti-TFPi antibody (MG1113) in cynomolgus monkeys to predict human pharmacokinetics and pharmacodynamics. Journal of Thrombosis and Haemostasis: Jth 19(6): 1425-1435
Sibbritt, T.; Schumann, U.; Shafik, A.; Guarnacci, M.; Clark, S.J.; Preiss, T. 2022: Target-Specific Profiling of RNA m5C Methylation Level Using Amplicon Sequencing. Methods in Molecular Biology 2404: 375-392
Singh, R.; Pal, D.; Chattopadhyay, S. 2020: Target-Specific Superparamagnetic Hydrogel with Excellent pH Sensitivity and Reversibility: a Promising Platform for Biomedical Applications. Acs Omega 5(34): 21768-21780
Makarov, I.M.; Gorbunova, E.S. 2020: Target-Target Perceptual Similarity Within the Attentional Blink. Frontiers in Psychology 11: 551890
Liu, F.; Yang, M.; Song, W.; Luo, X.; Tang, R.; Duan, Z.; Kang, W.; Xie, S.; Liu, Q.; Lei, C.; Huang, Y.; Nie, Z.; Yao, S. 2020: Target-activated transcription for the amplified sensing of protease biomarkers. Chemical Science 11(11): 2993-2998
De Campos, G.C.; Tieppo, A.M.; de Almeida, C.S.; Hamdan, P.C.; Alves, W.M.; de Rezende, M.ár.U. 2020: Target-based approach for osteoarthritis treatment. World Journal of Orthopedics 11(6): 278-284
Guo, N.; Bai, X.; Shen, Y.; Zhang, T. 2021: Target-based screening for natural products against Staphylococcus aureus biofilms. Critical Reviews in Food Science and Nutrition 2021: 1-15
O'Carrigan, B.; Lim, J.Si.Jing.; Jalil, A.; Harris, S.John.; Papadatos-Pastos, D.; Banerji, U.; Lopez, J.; de Bono, J.Sebastian.; Yap, T.Anthony. 2018: Target-based therapeutic matching of phase I trials in patients with metastatic breast cancer in a tertiary referral centre. British Journal of Cancer 119(8): 922-927
Kim, D.-H.; Han, K.-H. 2021: Target-binding behavior of IDPs via pre-structured motifs. Progress in Molecular Biology and Translational Science 183: 187-247
Ura, H.; Togi, S.; Niida, Y. 2021: Target-capture full-length double-strand cDNA sequencing for alternative splicing analysis. Rna Biology 2021: 1-8
Chan, K.O.; Hutter, C.R.; Wood, P.L.; Grismer, L.L.; Brown, R.M. 2020: Target-capture phylogenomics provide insights on gene and species tree discordances in Old World treefrogs (Anura: Rhacophoridae). PROCEEDINGS. Biological Sciences 287(1940): 20202102
Shigemoto, R.; Kulik, A.; Roberts, J.D.; Ohishi, H.; Nusser, Z.; Kaneko, T.; Somogyi, P. 1996: Target-cell-specific concentration of a metabotropic glutamate receptor in the presynaptic active zone. Nature 381(6582): 523-525
Reyes, A.; Lujan, R.; Rozov, A.; Burnashev, N.; Somogyi, P.; Sakmann, B. 1998: Target-cell-specific facilitation and depression in neocortical circuits. Nature Neuroscience 1(4): 279-285
Kaur, B.; Rattalino, M. 2020: Target-controlled infusion of Propofol and Remifentanil in a child with recurrent rhabdomyolysis secondary to LPIN1 deficiency. Paediatric Anaesthesia 30(6): 726-727
Eleveld, D.J.; Colin, P.; Absalom, A.R.; Struys, M.M.R.F. 2020: Target-controlled-infusion models for remifentanil dosing consistent with approved recommendations. British Journal of Anaesthesia 125(4): 483-491
Elias, J.E.; Gygi, S.P. 2007: Target-decoy search strategy for increased confidence in large-scale protein identifications by mass spectrometry. Nature Methods 4(3): 207-214
Lan, C.T.; Liu, J.C.; Ling, E.A.; Cheng, M.H.; Youn, S.C. 2000: Target-dependent axonal sprouting following vagal-hypoglossal nerve anastomosis in cats. Restorative Neurology and Neuroscience 17(2): 113-124
Bose, M.; Bhattacharyya, S.N. 2016: Target-dependent biogenesis of cognate micro RNAs in human cells. Nature Communications 7: 12200
Fu, B.Xu.Hua.; Smith, J.D.; Fuchs, R.T.; Mabuchi, M.; Curcuru, J.; Robb, G.Brett.; Fire, A.Z. 2019: Target-dependent nickase activities of the CRISPR-Cas nucleases Cpf1 and Cas9. Nature Microbiology 4(5): 888-897
Arkesteijn, K.; Smeets, J.B.J.; Donk, M.; Belopolsky, A.V. 2018: Target-distractor competition cannot be resolved across a saccade. Scientific Reports 8(1): 15709
Liu, Z.; Ma, M.; Yu, D.; Ren, J.; Qu, X. 2020: Target-driven supramolecular self-assembly for selective amyloid-β photooxygenation against Alzheimer's disease. Chemical Science 11(40): 11003-11008
Nguyen, Q.; Aguado, J.; Iannelli, F.; Suzuki, A.Maria.; Rossiello, F.; d'Adda di Fagagna, F.; Carninci, P. 2018: Target-enrichment sequencing for detailed characterization of small RNAs. Nature Protocols 13(4): 768-786
Mamanova, L.; Coffey, A.J.; Scott, C.E.; Kozarewa, I.; Turner, E.H.; Kumar, A.; Howard, E.; Shendure, J.; Turner, D.J. 2010: Target-enrichment strategies for next-generation sequencing. Nature Methods 7(2): 111-118
He, Y.-Q.; Gao, Y.; Gu, H.-W.; Meng, X.-Z.; Yi, H.-C.; Chen, Y.; Sun, W.-Y. 2021: Target-induced activation of DNAzyme for sensitive detection of bleomycin by using a simple MOF-modified electrode. Biosensors and Bioelectronics 178: 113034
Huang, Y.; Cheng, Z.; Han, R.; Gao, X.; Qian, L.; Wen, Y.; Zhang, X.; Liu, G. 2020: Target-induced molecular-switch on triple-helix DNA-functionalized carbon nanotubes for simultaneous visual detection of nucleic acids and proteins. Chemical Communications 56(88): 13657-13660
Ye, K.; Zhang, M.; Liu, P.; Liu, B.; Xu, X.; Li, X.; Zhu, H.; Wang, L.; Wang, M.; Niu, X. 2021: Target-induced synergetic modulation of electrochemical tag concentration and electrode surface passivation for one-step sampling filtration-free detection of acid phosphatase activity. Talanta 233: 122500
Wang, X.; Zhou, S.; Chu, C.; Yang, M.; Huo, D.; Hou, C. 2021: Target-induced transcription amplification to trigger the trans-cleavage activity of CRISPR/Cas13a (TITAC-Cas) for detection of alkaline phosphatase. Biosensors and Bioelectronics 185: 113281
Zhou, W.; Xu, L.; Jiang, B. 2021: Target-initiated autonomous synthesis of metal-ion dependent DNAzymes for label-free and amplified fluorescence detection of kanamycin in milk samples. Analytica Chimica Acta 1148: 238195
Glassman, P.M.; Muzykantov, V.R. 2020: Target-mediated exposure enhancement: a previously unexplored limit of TMDD. Journal of Pharmacokinetics and Pharmacodynamics 47(5): 411-420
Xie, H.; Zhu, H.; Zhou, K.; Wan, J.; Zhang, L.; Yang, Z.; Zhou, L.; Chen, X.; Xu, X.; Zheng, S.; Wang, H. 2020: Target-oriented delivery of self-assembled immunosuppressant cocktails prolongs allogeneic orthotopic liver transplant survival. Journal of Controlled Release: Official Journal of the Controlled Release Society 328: 237-250
Lee, W.Hyung.; Kim, E.; Seo, H.Gil.; Oh, B-Mo.; Nam, H.Seok.; Kim, Y.Jae.; Lee, H.Haeng.; Kang, M-Gu.; Kim, S.; Bang, M.Suk. 2019: Target-oriented motor imagery for grasping action: different characteristics of brain activation between kinesthetic and visual imagery. Scientific Reports 9(1): 12770
Radhakrishnan, K.; Kumar, P.S. 2022: Target-receptive structural switching of ssDNA as selective and sensitive biosensor for subsequent detection of toxic Pb2+ and organophosphorus pesticide. Chemosphere 287(Part 2): 132163
Ohlendorf, R.; Wiśniowska, A.; Desai, M.; Barandov, A.; Slusarczyk, A.L.; Li, N.; Jasanoff, A. 2020: Target-responsive vasoactive probes for ultrasensitive molecular imaging. Nature Communications 11(1): 2399
Varga, C.; Lee, S.Yeun.; Soltesz, I. 2010: Target-selective GABAergic control of entorhinal cortex output. Nature Neuroscience 13(7): 822-824
Shaghaghi, S.; Daskareh, M.; Irannejad, M.; Shaghaghi, M.; Kamel, I.R. 2021: Target-shaped combined halo and reversed-halo sign, an atypical chest CT finding in COVID-19. Clinical Imaging 69: 72-74
Beres, Z.T.; Giese, L.A.; Mackey, D.M.; Owen, M.D.K.; Page, E.R.; Snow, A.A. 2020: Target-site EPSPS Pro-106-Ser mutation in Conyza canadensis biotypes with extreme resistance to glyphosate in Ohio and Iowa, USA. Scientific Reports 10(1): 7577
Platt, N.; Kwiatkowska, R.M.; Irving, H.; Diabaté, A.; Dabire, R.; Wondji, C.S. 2015: Target-site resistance mutations (kdr and RDL), but not metabolic resistance, negatively impact male mating competiveness in the malaria vector Anopheles gambiae. Heredity 115(3): 243-252
Devay, P.; McGehee, D.S.; Yu, C.R.; Role, L.W. 1999: Target-specific control of nicotinic receptor expression at developing interneuronal synapses in chick. Nature Neuroscience 2(6): 528-534
Jiang, H-Hai.; Guo, A.; Chiu, A.; Li, H.; Lai, C.Sau.Wan.; Lau, C.Geoffrey. 2021: Target-specific control of piriform cortical output via distinct inhibitory circuits. FASEB journal: official publication of the Federation of American Societies for Experimental Biology 35(10): e21944
Cardoso, T.; Adler, A.F.; Mattsson, B.; Hoban, D.B.; Nolbrant, S.; Wahlestedt, J.Nelander.; Kirkeby, A.; Grealish, S.; Björklund, A.; Parmar, M. 2018: Target-specific forebrain projections and appropriate synaptic inputs of hESC-derived dopamine neurons grafted to the midbrain of parkinsonian rats. Journal of Comparative Neurology 526(13): 2133-2146
Kuo, A.H.; Cho, C.H.; Huang, R.Y.; Kim, C.J.; Lee, T.C. 2020: Target-specific yield rate and clinical utility of percutaneous tissue sampling in spinal infection. Clinical Imaging 68: 257-262
Wang, Y.; Sun, W.; Zhang, M.; Jiang, L.; Zhu, Z.; Li, J.; Xu, W.; Zhang, Q.; Li, M.; Chen, Z.; Liu, S.; Zhang, F.; Wang, Y.; Huang, J.; Yu, J. 2021: Target-swiped DNA lock for electrochemical sensing of mi RNAs based on DNAzyme-assisted primer-generation amplification. Mikrochimica Acta 188(8): 255
Li, H.; Cai, Q.; Yan, X.; Jie, G. 2021: Target-switchable DNA hydrogels coupled with a Bi2Sn2O7/Bi2S3 heterojunction based on in situ anion exchange for the "signal-on" photoelectrochemical detection of DNA. Nanoscale 13(16): 7678-7684
Wang, S.; Wu, C.; Luo, J.; Luo, X.; Yuan, R.; Yang, X. 2020: Target-triggered configuration change of DNA tetrahedron for SERS assay of microRNA 122. Mikrochimica Acta 187(8): 460
Li, F.; Li, G.; Cao, S.; Liu, B.; Ren, X.; Kang, N.; Qiu, F. 2021: Target-triggered entropy-driven amplification system-templated silver nanoclusters for multiplexed microRNA analysis. Biosensors and Bioelectronics 172: 112757
Thangaraju, P.; Varthya, S.Babu.; Venkatesan, S. 2020: Target/therapies for chronic recurrent erythema nodosum leprosum. Indian Journal of Pharmacology 52(3): 222-226
Man, S.; Xian, Y.; Holmes, D.N.; Matsouaka, R.A.; Saver, J.L.; Smith, E.E.; Bhatt, D.L.; Schwamm, L.H.; Fonarow, G.C. 2020: Target: Stroke Was Associated with Faster Intravenous Thrombolysis and Improved One-Year Outcomes for Acute Ischemic Stroke in Medicare Beneficiaries. CIRCULATION. Cardiovascular Quality and Outcomes 13(12): E007150
De Cesco, S.; Davis, J.B.; Brennan, P.E. 2020: TargetDB: a target information aggregation tool and tractability predictor. Plos one 15(9): E0232644
Hu, G.; Phillips, J.L.; Dasari, S.; Jacobs, H.K.; Luchtel, R.A.; Oishi, N.; Hundal, T.; Ahmed, N.H.; Satou, A.; Epstein, A.L.; Bennani, N.Nora.; Nowakowski, G.S.; Murray, J.A.; Feldman, A.L. 2020: Targetability of STAT3-JAK2 fusions: implications for T-cell lymphoproliferative disorders of the gastrointestinal tract. Leukemia 34(5): 1467-1471
Zhu, L.; Huang, Y.; Lam, D.; Gach, H.Michael.; Zoberi, I.; Hallahan, D.E.; Grigsby, P.W.; Chen, H.; Altman, M.B. 2021: Targetability of cervical cancer by magnetic resonance-guided high-intensity focused ultrasound (MRgHIFU)-mediated hyperthermia (HT) for patients receiving radiation therapy. International Journal of Hyperthermia: the Official Journal of European Society for Hyperthermic Oncology North American Hyperthermia Group 38(1): 498-510
Reinecke, J.B.; Roberts, R.D. 2020: Targetable Intercellular Signaling Pathways Facilitate Lung Colonization in Osteosarcoma. Advances in Experimental Medicine and Biology 1258: 111-123
Riedlinger, G.M.; Joshi, S.; Hirshfield, K.M.; Barnard, N.; Ganesan, S. 2021: Targetable alterations in invasive pleomorphic lobular carcinoma of the breast. Breast Cancer Research: Bcr 23(1): 7
Hu, G.; Dasari, S.; Asmann, Y.W.; Greipp, P.T.; Knudson, R.A.; Benson, H.K.; Li, Y.; Eckloff, B.W.; Jen, J.; Link, B.K.; Jiang, L.; Sidhu, J.S.; Wellik, L.E.; Witzig, T.E.; Bennani, N.N.; Cerhan, J.R.; Boddicker, R.L.; Feldman, A.L. 2018: Targetable fusions of the FRK tyrosine kinase in ALK-negative anaplastic large cell lymphoma. Leukemia 32(2): 565-569
Ng, S.Y.; Yoshida, N.; Christie, A.L.; Ghandi, M.; Dharia, N.V.; Dempster, J.; Murakami, M.; Shigemori, K.; Morrow, S.N.; Van Scoyk, A.; Cordero, N.A.; Stevenson, K.E.; Puligandla, M.; Haas, B.; Lo, C.; Meyers, R.; Gao, G.; Cherniack, A.; Louissaint, A.; Nardi, V.; Thorner, A.R.; Long, H.; Qiu, X.; Morgan, E.A.; Dorfman, D.M.; Fiore, D.; Jang, J.; Epstein, A.L.; Dogan, A.; Zhang, Y.; Horwitz, S.M.; Jacobsen, E.D.; Santiago, S.; Ren, J-Guo.; Guerlavais, V.; Annis, D.Allen.; Aivado, M.; Saleh, M.N.; Mehta, A.; Tsherniak, A.; Root, D.; Vazquez, 2018: Targetable vulnerabilities in T- and NK-cell lymphomas identified through preclinical models. Nature Communications 9(1): 2024
Li, B.; Baylink, D.J.; Walter, M.H.; Lau, K-Hing.William.; Meng, X.; Wang, J.; Cherkas, A.; Tang, X.; Qin, X. 2015: Targeted 25-hydroxyvitamin D3 1α-hydroxylase adoptive gene therapy ameliorates dss-induced colitis without causing hypercalcemia in mice. Molecular Therapy: the Journal of the American Society of Gene Therapy 23(2): 339-351
Moreno-Jiménez, I.; Garske, D.S.; Lahr, C.A.; Hutmacher, D.W.; Cipitria, A. 2021: Targeted 2D histology and ultrastructural bone analysis based on 3D microCT anatomical locations. Methodsx 8: 101480
Gupta, S.; Rodier, J.T.; Sharma, A.; Giuliano, E.A.; Sinha, P.R.; Hesemann, N.P.; Ghosh, A.; Mohan, R.R. 2017: Targeted AAV5-Smad7 gene therapy inhibits corneal scarring in vivo. Plos one 12(3): E0172928
Staquicini, F.I.; Smith, T.L.; Tang, F.H.F.; Gelovani, J.G.; Giordano, R.J.; Libutti, S.K.; Sidman, R.L.; Cavenee, W.K.; Arap, W.; Pasqualini, R. 2020: Targeted AAVP-based therapy in a mouse model of human glioblastoma: a comparison of cytotoxic versus suicide gene delivery strategies. Cancer Gene Therapy 27(5): 301-310
Ma, Y.; Zhang, J.; Yin, W.; Zhang, Z.; Song, Y.; Chang, X. 2016: Targeted AID-mediated mutagenesis (TAM) enables efficient genomic diversification in mammalian cells. Nature Methods 13(12): 1029-1035
Willman, C.L. 2001: Targeted AML therapy: new biologic paradigms and therapeutic opportunities. Leukemia 15(4): 690-694
Pizzolato, C.; Shim, V.B.; Lloyd, D.G.; Devaprakash, D.; Obst, S.J.; Newsham-West, R.; Graham, D.F.; Besier, T.F.; Zheng, M.H.; Barrett, R.S. 2020: Targeted Achilles Tendon Training and Rehabilitation Using Personalized and Real-Time Multiscale Models of the Neuromusculoskeletal System. Frontiers in Bioengineering and Biotechnology 8: 878
Robinson, N.T.M.; Descamps, L.A.L.; Russell, L.E.; Buchholz, M.O.; Bicknell, B.A.; Antonov, G.K.; Lau, J.Y.N.; Nutbrown, R.; Schmidt-Hieber, C.; Häusser, M. 2020: Targeted Activation of Hippocampal Place Cells Drives Memory-Guided Spatial Behavior. Cell 183(6): 1586-1599.E10
Robinson, N.T.M.; Descamps, L.A.L.; Russell, L.E.; Buchholz, M.O.; Bicknell, B.A.; Antonov, G.K.; Lau, J.Y.N.; Nutbrown, R.; Schmidt-Hieber, C.; Häusser, M. 2020: Targeted Activation of Hippocampal Place Cells Drives Memory-Guided Spatial Behavior. Cell 183(7): 2041-2042
Belli, M.L.; Sarnelli, A.; Mezzenga, E.; Cesarini, F.; Caroli, P.; Di Iorio, V.; Strigari, L.; Cremonesi, M.; Romeo, A.; Nicolini, S.; Matteucci, F.; Severi, S.; Paganelli, G. 2020: Targeted Alpha Therapy in mCRPC (Metastatic Castration-Resistant Prostate Cancer) Patients: Predictive Dosimetry and Toxicity Modeling of 225Ac-PSMA (Prostate-Specific Membrane Antigen). Frontiers in Oncology 10: 531660
Guerra Liberal, F.D.C.; O'Sullivan, J.M.; McMahon, S.J.; Prise, K.M. 2020: Targeted Alpha Therapy: Current Clinical Applications. Cancer BioTherapy and Radiopharmaceuticals 35(6): 404-417
Čaval, T.; Zhu, J.; Tian, W.; Remmelzwaal, S.; Yang, Z.; Clausen, H.; Heck, A.J.R. 2019: Targeted Analysis of Lysosomal Directed Proteins and Their Sites of Mannose-6-phosphate Modification. Molecular and Cellular Proteomics: Mcp 18(1): 16-27
Herrfurth, C.; Liu, Y.-T.; Feussner, I. 2021: Targeted Analysis of the Plant Lipidome by UPLC-NanoESI-MS/MS. Methods in Molecular Biology 2295: 135-155
Arthur Ataam, J.; Amsallem, M.; Contrepois, K.; Guihaire, J.; Haddad, F.; Dorfmuller, P.; Fadel, E.; Mercier, O. 2020: Targeted Angiogenesis Gene Expression Profiling of Patients with Chronic Thromboembolic Pulmonary Hypertension. Journal of Heart and Lung Transplantation: the Official Publication of the International Society for Heart Transplantation 39(4s): S31
Zhang, Z.; Lu, D.-S.; Zhang, D.-Q.; Wang, X.; Ming, Y.; Wu, Z.-Y. 2020: Targeted Antagonism of Vascular Endothelial Growth Factor Reduces Mortality of Mice with Acute Respiratory Distress Syndrome. Current Medical Science 40(4): 671-676
Xie, Y.; Xie, F.; Zhang, L.; Zhou, X.; Huang, J.; Wang, F.; Jin, J.; Zhang, L.; Zeng, L.; Zhou, F. 2021: Targeted Anti-Tumor Immunotherapy Using Tumor Infiltrating Cells. Advanced Science 8(22): E2101672
Weng, C.; Shen, L.; Teo, J.W.; Lim, Z.C.; Loh, B.S.; Ang, W.H. 2021: Targeted Antibacterial Strategy Based on Reactive Oxygen Species Generated from Dioxygen Reduction Using an Organoruthenium Complex. Jacs au 1(9): 1348-1354
Liu, G.; Xu, X.; Jiang, L.; Ji, H.; Zhu, F.; Jin, B.; Han, J.; Dong, X.; Yang, F.; Li, B. 2020: Targeted Antitumor Mechanism of C-PC/CMC-CD55sp Nanospheres in Hela Cervical Cancer Cells. Frontiers in Pharmacology 11: 906
Rigby, A.; Blower, J.E.; Blower, P.J.; Terry, S.Y.A.; Abbate, V. 2021: Targeted Auger electron-emitter therapy: Radiochemical approaches for thallium-201 radiopharmaceuticals. Nuclear Medicine and Biology 98-99: 1-7
Scheman, A.; Chamlin, S.; Gurnee, E.; Roszko, K. 2020: Targeted Balsam of Peru Diet for Pediatric Genital Contact Allergy. Dermatitis: Contact Atopic Occupational Drug 31(5): E53
Schregel, K.; Baufeld, C.; Palotai, M.; Meroni, R.; Fiorina, P.; Wuerfel, J.; Sinkus, R.; Zhang, Y.-Z.; McDannold, N.; White, P.J.; Guttmann, C.R.G. 2021: Targeted Blood Brain Barrier Opening with Focused Ultrasound Induces Focal Macrophage/Microglial Activation in Experimental Autoimmune Encephalomyelitis. Frontiers in Neuroscience 15: 665722
Maheshwari, S.; Kassim, A.; Yeh, R.F.; Domm, J.; Calder, C.; Evans, M.; Manes, B.; Bruce, K.; Brown, V.; Ho, R.; Frangoul, H.; Yang, E. 2014: Targeted Busulfan therapy with a steady-state concentration of 600-700 ng/mL in patients with sickle cell disease receiving HLA-identical sibling bone marrow transplant. Bone Marrow Transplantation 49(3): 366-369
de Leeuw, C.N.; Dyka, F.M.; Boye, S.L.; Laprise, Séphanie.; Zhou, M.; Chou, A.Y.; Borretta, L.; McInerny, S.C.; Banks, K.G.; Portales-Casamar, E.; Swanson, M.I.; D'Souza, C.A.; Boye, S.E.; Jones, S.J.M.; Holt, R.A.; Goldowitz, D.; Hauswirth, W.W.; Wasserman, W.W.; Simpson, E.M. 2014: Targeted CNS Delivery Using Human MiniPromoters and Demonstrated Compatibility with Adeno-Associated Viral Vectors. Molecular Therapy. Methods and Clinical Development 1: 5
Zheng, D.X.; Hecker, M.T.; Ray, A.J. 2022: Targeted coronavirus disease 2019 (COVID-19) surveillance for elective procedures: Lessons for resource conservation during a pandemic and beyond. Infection Control and Hospital Epidemiology 43(9): 1293-1295
Wei, X.; Yang, J.; Adair, S.J.; Ozturk, H.; Kuscu, C.; Lee, K.Y.; Kane, W.J.; O'Hara, P.E.; Liu, D.; Demirlenk, Y.M.; Habieb, A.H.; Yilmaz, E.; Dutta, A.; Bauer, T.W.; Adli, M. 2020: Targeted CRISPR screening identifies PRMT5 as synthetic lethality combinatorial target with gemcitabine in pancreatic cancer cells. Proceedings of the National Academy of Sciences of the United States of America 117(45): 28068-28079
Mendes, A.él.; Jühlen, R.; Martinelli, V.ér.; Fahrenkrog, B. 2020: Targeted CRM1-inhibition perturbs leukemogenic NUP214 fusion proteins and exerts anti-cancer effects in leukemia cell lines with NUP214 rearrangements. Oncotarget 11(36): 3371-3386
Dam, H.T.; Vollmers, J.; Sobol, M.S.; Cabezas, A.; Kaster, A.-K. 2020: Targeted Cell Sorting Combined with Single Cell Genomics Captures Low Abundant Microbial Dark Matter with Higher Sensitivity than Metagenomics. Frontiers in Microbiology 11: 1377
Luo, S.; Zhu, Y.; Li, Y.; Chen, L.; Lv, S.; Zhang, Y.; Ge, L.; Zhou, W. 2020: Targeted Chemotherapy for Breast Cancer Using an Intelligent Doxorubicin-Loaded Hexapeptide Hydrogel. Journal of Biomedical Nanotechnology 16(6): 842-852
Waldherr, L.; Seitanidou, M.; Jakešová, M.; Handl, V.; Honeder, S.; Nowakowska, M.; Tomin, T.; Karami Rad, M.; Schmidt, T.; Distl, J.; Birner-Gruenberger, R.; von Campe, G.; Schäfer, U.; Berggren, M.; Rinner, B.; Asslaber, M.; Ghaffari-Tabrizi-Wizsy, N.; Patz, S.; Simon, D.T.; Schindl, R. 2021: Targeted Chemotherapy of Glioblastoma Spheroids with an Iontronic Pump. Advanced Materials Technologies 6(5): 2001302
Huang, J.; Zhou, J.; Ghinnagow, R.; Seki, T.; Iketani, S.; Soulard, D.ée.; Paczkowski, P.; Tsuji, Y.; MacKay, S.; Cruz, L.J.; Trottein, F.ço.; Tsuji, M. 2020: Targeted Co-delivery of Tumor Antigen and α-Galactosylceramide to CD141+ Dendritic Cells Induces a Potent Tumor Antigen-Specific Human CD8+ T Cell Response in Human Immune System Mice. Frontiers in Immunology 11: 2043
Atack, T.C.; Raymond, D.D.; Blomquist, C.A.; Pasaje, C.F.; McCarren, P.R.; Moroco, J.; Befekadu, H.B.; Robinson, F.P.; Pal, D.; Esherick, L.Y.; Ianari, A.; Niles, J.C.; Sellers, W.R. 2020: Targeted Covalent Inhibition of Plasmodium FK506 Binding Protein 35. Acs Medicinal Chemistry Letters 11(11): 2131-2138
Kulkarni, S.; Urbahns, K.; Spangenberg, T. 2020: Targeted Covalent Inhibitors for the Treatment of Malaria?. Acs Infectious Diseases 6(11): 2815-2817
Yu, Y.; Dong, L.; Li, D.; Chuai, S.; Wu, Z.; Zheng, X.; Cheng, Y.; Han, L.; Yu, J.; Gao, M. 2015: Targeted DNA Sequencing Detects Mutations Related to Susceptibility among Familial Non-medullary Thyroid Cancer. Scientific Reports 5: 16129
Caliando, B.J.; Voigt, C.A. 2015: Targeted DNA degradation using a CRISPR device stably carried in the host genome. Nature Communications 6: 6989
Morita, S.; Noguchi, H.; Horii, T.; Nakabayashi, K.; Kimura, M.; Okamura, K.; Sakai, A.; Nakashima, H.; Hata, K.; Nakashima, K.; Hatada, I. 2016: Targeted DNA demethylation in vivo using dCas9-peptide repeat and scFv-TET1 catalytic domain fusions. Nature Biotechnology 34(10): 1060-1065
Hanzawa, N.; Hashimoto, K.; Yuan, X.; Kawahori, K.; Tsujimoto, K.; Hamaguchi, M.; Tanaka, T.; Nagaoka, Y.; Nishina, H.; Morita, S.; Hatada, I.; Yamada, T.; Ogawa, Y. 2020: Targeted DNA demethylation of the Fgf21 promoter by CRISPR/dCas9-mediated epigenome editing. Scientific Reports 10(1): 5181
Xiong, T.; Meister, G.E.; Workman, R.E.; Kato, N.C.; Spellberg, M.J.; Turker, F.; Timp, W.; Ostermeier, M.; Novina, C.D. 2017: Targeted DNA methylation in human cells using engineered dCas9-methyltransferases. Scientific Reports 7(1): 6732
Lei, Y.; Zhang, X.; Su, J.; Jeong, M.; Gundry, M.C.; Huang, Y-Hsin.; Zhou, Y.; Li, W.; Goodell, M.A. 2017: Targeted DNA methylation in vivo using an engineered dCas9-MQ1 fusion protein. Nature Communications 8: 16026
Zicola, J.; Liu, L.; Tänzler, P.; Turck, F. 2019: Targeted DNA methylation represses two enhancers of FLOWERING LOCUS T in Arabidopsis thaliana. Nature Plants 5(3): 300-307
Pezone, A.; Taddei, M.L.; Tramontano, A.; Dolcini, J.; Boffo, F.L.; De Rosa, M.; Parri, M.; Stinziani, S.; Comito, G.; Porcellini, A.; Raugei, G.; Gackowski, D.; Zarakowska, E.; Olinski, R.; Gabrielli, A.; Chiarugi, P.; Avvedimento, E.V. 2020: Targeted DNA oxidation by LSD1-SMAD2/3 primes TGF-β1/ EMT genes for activation or repression. Nucleic Acids Research 48(16): 8943-8958
Kühnemund, M.; Wei, Q.; Darai, E.; Wang, Y.; Hernández-Neuta, Ián.; Yang, Z.; Tseng, D.; Ahlford, A.; Mathot, L.; Sjöblom, T.; Ozcan, A.; Nilsson, M. 2017: Targeted DNA sequencing and in situ mutation analysis using mobile phone microscopy. Nature Communications 8: 13913
He, J.; Zhang, Y.; Chen, Z.; Li, C.; Yuan, R.; Xu, W. 2020: Targeted DNA-driven catalytic assembly light-up ratiometric fluorescence of biemissive silver nanoclusters for amplified biosensing. Chemical Communications 56(71): 10325-10328
Gauto, D.; Dakhlaoui, O.; Marin-Montesinos, I.; Hediger, S.; De Paëpe, G.ël. 2021: Targeted DNP for biomolecular solid-state NMR. Chemical Science 12(18): 6223-6237
Duan, Z. 2021: Targeted DNase Hi-C. Methods in Molecular Biology 2157: 65-83
Kressler, C.; Gasparoni, G.; Nordström, K.; Hamo, D.; Salhab, A.; Dimitropoulos, C.; Tierling, S.; Reinke, P.; Volk, H.-D.; Walter, J.ör.; Hamann, A.; Polansky, J.K. 2020: Targeted De-Methylation of the FOXP3-TSDR Is Sufficient to Induce Physiological FOXP3 Expression but not a Functional Treg Phenotype. Frontiers in Immunology 11: 609891
Wu, J.; Zhou, H.; Yi, X.; He, Q.; Lei, T.; Tan, F.; Liu, H.; Li, B. 2021: Targeted Deep Sequencing Reveals Unrecognized KIT Mutation Coexistent with NF1 Deficiency in GISTs. Cancer Management and Research 13: 297-306
Bond, M.J.; Chu, L.; Nalawansha, D.A.; Li, K.; Crews, C.M. 2020: Targeted Degradation of Oncogenic KRASG12C by VHL-Recruiting PROTACs. Acs Central Science 6(8): 1367-1375
Wigle, T.J.; Ren, Y.; Molina, J.R.; Blackwell, D.J.; Schenkel, L.B.; Swinger, K.K.; Kuplast-Barr, K.; Majer, C.R.; Church, W.D.; Lu, A.Z.; Mo, J.; Abo, R.; Cheung, A.; Dorsey, B.W.; Niepel, M.; Perl, N.R.; Vasbinder, M.M.; Keilhack, H.; Kuntz, K.W. 2021: Targeted Degradation of PARP14 Using a Heterobifunctional Small Molecule. Chembiochem: a European Journal of Chemical Biology 22(12): 2107-2110
Lee, Y.; Heo, J.; Jeong, H.; Hong, K.T.; Kwon, D.H.; Shin, M.H.; Oh, M.; Sable, G.A.; Ahn, G.-O.; Lee, J.-S.; Song, H.K.; Lim, H.-S. 2020: Targeted Degradation of Transcription Coactivator SRC-1 through the N-Degron Pathway. Angewandte Chemie 59(40): 17548-17555
Liu, Z.; Bai, X.; Wan, P.; Mo, F.; Chen, G.; Zhang, J.; Gao, J. 2021: Targeted Deletion of Loxl3 by Col2a1-Cre Leads to Progressive Hearing Loss. Frontiers in Cell and Developmental Biology 9: 683495
Nikan, M.; Tanowitz, M.; Dwyer, C.A.; Jackson, M.; Gaus, H.J.; Swayze, E.E.; Rigo, F.; Seth, P.P.; Prakash, T.P. 2020: Targeted Delivery of Antisense Oligonucleotides Using Neurotensin Peptides. Journal of Medicinal Chemistry 63(15): 8471-8484
Stack, T.; Vincent, M.; Vahabikashi, A.; Li, G.; Perkumas, K.M.; Stamer, W.D.; Johnson, M.; Scott, E. 2020: Targeted Delivery of Cell Softening Micelles to Schlemm's Canal Endothelial Cells for Treatment of Glaucoma. Small 16(43): E2004205
Li, D.; Li, X.; Yang, F.; Yuan, R.; Xiang, Y. 2020: Targeted Delivery of DNA Framework-Encapsulated Native Therapeutic Protein into Cancer Cells. Acs Applied Materials and Interfaces 12(49): 54489-54496
Chowdhury, N.; Chaudhry, S.; Hall, N.; Olverson, G.; Zhang, Q.-J.; Mandal, T.; Dash, S.; Kundu, A. 2020: Targeted Delivery of Doxorubicin Liposomes for Her-2+ Breast Cancer Treatment. Aaps Pharmscitech 21(6): 202
Richter, L.R.; Wan, Q.; Wen, D.; Zhang, Y.; Yu, J.; Kang, J.K.; Zhu, C.; McKinnon, E.L.; Gu, Z.; Qiang, L.; Pajvani, U.B. 2020: Targeted Delivery of Notch Inhibitor Attenuates Obesity-Induced Glucose Intolerance and Liver Fibrosis. Acs Nano 14(6): 6878-6886
Yu, S.; Pearson, A.D.; Lim, R.Kv.; Rodgers, D.T.; Li, S.; Parker, H.B.; Weglarz, M.; Hampton, E.N.; Bollong, M.J.; Shen, J.; Zambaldo, C.; Wang, D.; Woods, A.K.; Wright, T.M.; Schultz, P.G.; Kazane, S.A.; Young, T.S.; Tremblay, M.S. 2016: Targeted Delivery of an Anti-inflammatory PDE4 Inhibitor to Immune Cells via an Antibody-drug Conjugate. Molecular Therapy: the Journal of the American Society of Gene Therapy 24(12): 2078-2089
Mazaleuskaya, L.L.; Lee, S.; Meng, H.; Winkler, J.D.; FitzGerald, G.A. 2021: Targeted delivery of mPGES-1 inhibitors to macrophages via the folate receptor-β for inflammatory pain. Bioorganic and Medicinal Chemistry Letters 50: 128313
Lim, D.; Jung, W.C.; Jeong, J.-H.; Song, M. 2020: Targeted Delivery of the Mitochondrial Target Domain of Noxa to Tumor Tissue via Synthetic Secretion System in E. coli. Frontiers in Bioengineering and Biotechnology 8: 840
Cao, C.; Ma, Q.; Huang, X.; Li, A.; Liu, J.; Ye, J.; Gui, Y. 2021: Targeted Demethylation of the PLOD2 mRNA Inhibits the Proliferation and Migration of Renal Cell Carcinoma. Frontiers in Molecular Biosciences 8: 675683
Malerba, P.; Crews, B.C.; Ghebreselasie, K.; Daniel, C.K.; Jashim, E.; Aleem, A.M.; Salam, R.A.; Marnett, L.J.; Uddin, M.J. 2020: Targeted Detection of Cyclooxygenase-1 in Ovarian Cancer. Acs Medicinal Chemistry Letters 11(10): 1837-1842
Fernández, A. 2020: Targeted Disassembling of SARS-CoV-2 as it Gets Ready for Cell Penetration. Acs Medicinal Chemistry Letters 11(11): 2055-2057
Tou, C.J.; Schaffer, D.V.; Dueber, J.E. 2020: Targeted Diversification in the S. cerevisiae Genome with CRISPR-Guided DNA Polymerase i. Acs Synthetic Biology 9(7): 1911-1916
Velentzas, A.D.; Velentzas, P.D.; Sagioglou, N.E.; Konstantakou, E.G.; Anagnostopoulos, A.K.; Tsioka, M.M.; Mpakou, V.E.; Kollia, Z.; Consoulas, C.; Margaritis, L.H.; Papassideri, I.S.; Tsangaris, G.Th.; Sarantopoulou, E.; Cefalas, A-Constantinos.; Stravopodis, D.J. 2016: Targeted Downregulation of s36 Protein Unearths its Cardinal Role in Chorion Biogenesis and Architecture during Drosophila melanogaster Oogenesis. Scientific Reports 6: 35511
Dupoiron, D. 2020: Targeted Drug Delivery (Intrathecal and Intracranial) for Treatment of Facial Pain. Progress in Neurological Surgery 35: 181-193
Tewabe, A.; Abate, A.; Tamrie, M.; Seyfu, A.; Abdela Siraj, E. 2021: Targeted Drug Delivery - from Magic Bullet to Nanomedicine: Principles, Challenges, and Future Perspectives. Journal of Multidisciplinary Healthcare 14: 1711-1724
Huang, X.; Ma, Y.; Li, Y.; Han, F.; Lin, W. 2021: Targeted Drug Delivery Systems for Kidney Diseases. Frontiers in Bioengineering and Biotechnology 9: 683247
Sharma, A.; Sah, N.; Kannan, S.; Kannan, R.M. 2021: Targeted drug delivery for maternal and perinatal health: Challenges and opportunities. Advanced Drug Delivery Reviews 177: 113950
Beckers, S.J.; Staal, A.H.J.; Rosenauer, C.; Srinivas, M.; Landfester, K.; Wurm, F.R. 2021: Targeted Drug Delivery for Sustainable Crop Protection: Transport and Stability of Polymeric Nanocarriers in Plants. Advanced Science 8(11): E2100067
Shamloo, A.; Ebrahimi, S.; Amani, A.; Fallah, F. 2020: Targeted Drug Delivery of Microbubble to Arrest Abdominal Aortic Aneurysm Development: A Simulation Study Towards Optimized Microbubble Design. Scientific Reports 10(1): 5393
Darrah, K.; Deiters, A. 2021: Targeted Drug Delivery through Optical Control of Cell Lysis. Acs Central Science 7(1): 11-13
Akgul, T. 2021: Targeted Drug Therapies for Bladder Microbiota: Myth or Future of Benign Prostatic Hyperplasia Treatment?. JournaloftheCollegeofPhysiciansandSurgeons--Pakistan:Jcpsp 30(4): 492
Ji, Q.; Hou, J.; Yong, X.; Gong, G.; Muddassir, M.; Tang, T.; Xie, J.; Fan, W.; Chen, X. 2021: Targeted Dual Small Interfering Ribonucleic Acid Delivery via Non-Viral Polymeric Vectors for Pulmonary Fibrosis Therapy. Advanced Materials 33(12): E2007798
Smith, L.M.; Boehm, L.; Strang, L.V.; DeMarre, C.; Marcyjanik, D. 2021: Targeted Education for School Staff on Electronic Nicotine Delivery Systems: a Nurse Led Intervention. Journal of School Nursing: the Official Publication of the National Association of School Nurses 2021: 10598405211043127
Rahmati, M.; Lédée, N. 2020: Targeted Endometrial Scratching: An Example of Endometrial Diagnosis Usage in Reproductive Medicine. Frontiers in Immunology 11: 589677
Dunning Hotopp, J.C.; Slatko, B.E.; Foster, J.M. 2017: Targeted Enrichment and Sequencing of Recent Endosymbiont-Host Lateral Gene Transfers. Scientific Reports 7(1): 857
Zhai, Y.; Li, J.; Yu, W.; Zhu, S.; Yu, Y.; Wu, M.; Sun, G.; Gong, X.; Yao, K. 2017: Targeted Exome Sequencing of Congenital Cataracts Related Genes: Broadening the Mutation Spectrum and Genotype-Phenotype Correlations in 27 Chinese Han Families. Scientific Reports 7(1): 1219
Hobbs, S.J.; Nolz, J.C. 2019: Targeted Expansion of Tissue-Resident CD8 + T Cells to Boost Cellular Immunity in the Skin. Cell Reports 29(10): 2990-2997.E2
Na, S.-Y.; Krishnamoorthy, G. 2021: Targeted Expression of Myelin Autoantigen in the Periphery Induces Antigen-Specific T and B Cell Tolerance and Ameliorates Autoimmune Disease. Frontiers in Immunology 12: 668487
Hartley, I.R.; Miller, C.B.; Papadakis, G.Z.; Bergwitz, C.; Del Rivero, J.; Blau, J.E.; Florenzano, P.; Berglund, J.A.; Tassone, J.; Roszko, K.L.; Moran, S.; Gafni, R.I.; Isaacs, R.; Collins, M.T. 2020: Targeted FGFR Blockade for the Treatment of Tumor-Induced Osteomalacia. New England Journal of Medicine 383(14): 1387-1389
Kasbekar, M.; Nardi, V.; Dal Cin, P.; Brunner, A.M.; Burke, M.; Chen, Y.-B.; Connolly, C.; Fathi, A.T.; Foster, J.; Macrae, M.; McAfee, S.L.; McGregor, K.; Narayan, R.; Ramos, A.Y.; Som, T.T.; Vartanian, M.; Friedman, R.S.; Benhadji, K.A.; Hobbs, G.S. 2020: Targeted FGFR inhibition results in a durable remission in an FGFR1-driven myeloid neoplasm with eosinophilia. Blood Advances 4(13): 3136-3140
Cheng, C.; Wang, W.; Pu, L.L.Q.; Xie, Y.; Li, Q. 2020: Targeted Fat Grafting: the Concept of Anatomic Restoration for Safe and Optimal Facial Rejuvenation. Aesthetic Surgery Journal 40(12): Np705-Np707
Barnett, E.M.; Lofton, J.J.; Yu, M.; Bruck, H.A.; Smela, E. 2017: Targeted Feature Recognition Using Mechanical Spatial Filtering with a Low-Cost Compliant Strain Sensor. Scientific Reports 7(1): 5118
Matsugasumi, T.; Shiraishi, T.; Fujihara, A.; Ohashi, M.; Yamada, Y.; Inoue, Y.; Hongo, F.; Ukimura, O. 2020: Targeted Focal Cryoablation for Prostate Cancer with Real-time Transrectal Ultrasound-guided Free-hands Technique: a Step-by-step Technique. Urology 144: 261-262
Fei, W.; Chen, D.; Tang, H.; Li, C.; Zheng, W.; Chen, F.; Song, Q.; Zhao, Y.; Zou, Y.; Zheng, C. 2020: Targeted GSH-exhausting and hydroxyl radical self-producing manganese-silica nanomissiles for MRi guided ferroptotic cancer therapy. Nanoscale 12(32): 16738-16754
Benabdallah, B.F.; Duval, A.; Rousseau, J.; Chapdelaine, P.; Holmes, M.C.; Haddad, E.; Tremblay, J.P.; Beauséjour, C.M. 2013: Targeted Gene Addition of Microdystrophin in Mice Skeletal Muscle via Human Myoblast Transplantation. Molecular Therapy. Nucleic Acids 2: E68
Cinici, E.; Caglar, O.; Arslan, M.E.; Dilekmen, N.; Utlu, B.ır.; Mardinoglu, A.; Turkez, H. 2021: Targeted Gene Candidates for Treatment and Early Diagnosis of Age-Related Macular Degeneration. Biomed Research International 2021: 6620900
Pokhrel, A.; Seo, S.; Wang, Q.; Coleman, J.J. 2022: Targeted Gene Disruption Via CRISPR/Cas9 Ribonucleoprotein Complexes in Fusarium oxysporum. Methods in Molecular Biology 2391: 75-87
Webster, D.; Bondareva, A.; Solin, S.; Goldsmith, T.; Su, L.; Lara, N.d.L.E.M.; Carlson, D.F.; Dobrinski, I. 2020: Targeted Gene Editing in Porcine Spermatogonia. Frontiers in Genetics 11: 627673
Liu, Y.; Tan, M.; Zhang, Y.; Huang, W.; Min, L.; Peng, S.; Yuan, K.; Qiu, L.; Min, W. 2020: Targeted Gene Silencing BRAF Synergized Photothermal Effect Inhibits Hepatoma Cell Growth Using new GAL-GNR-siBRAF Nanosystem. Nanoscale Research Letters 15(1): 116
Kizhakeyil, A.; Fazil, M.H.U.T.; Verma, N.K. 2020: Targeted Gene Silencing in Malignant Hematolymphoid Cells Using GapmeR. Methods in Molecular Biology 2176: 209-219
Wang, H.; Yang, H.; Liu, Z.; Cui, K.; Zhang, Y.; Zhang, Y.; Zhao, K.; Yin, K.; Li, W.; Zhou, Z. 2020: Targeted Genetic Analysis in a Chinese Cohort of 208 Patients Related to Familial Hypercholesterolemia. Journal of Atherosclerosis and Thrombosis 27(12): 1288-1298
Huang, M.Y.; Cravener, M.C.; Mitchell, A.P. 2021: Targeted Genetic Changes in Candida albicans Using Transient CRISPR-Cas9 Expression. Current Protocols 1(1): E19
Lemay, M-Laurence.; Renaud, A.C.; Rousseau, Gève.M.; Moineau, S. 2018: Targeted Genome Editing of Virulent Phages Using CRISPR-Cas9. Bio-Protocol 8(1):E2674
Grosjean, M.él.; Guénard, S.; Giraud, C.; Muller, C.éd.; Plésiat, P.; Juarez, P. 2021: Targeted Genome Reduction of Pseudomonas aeruginosa Strain PAO1 Led to the Development of Hypovirulent and Hypersusceptible rDNA Hosts. Frontiers in Bioengineering and Biotechnology 9: 640450
Ishizu, T.; Higo, S.; Masumura, Y.; Kohama, Y.; Shiba, M.; Higo, T.; Shibamoto, M.; Nakagawa, A.; Morimoto, S.; Takashima, S.; Hikoso, S.; Sakata, Y. 2017: Targeted Genome Replacement via Homology-directed Repair in Non-dividing Cardiomyocytes. Scientific Reports 7(1): 9363
Yoon, N.; Kim, H.-S.; Lee, J.W.; Lee, E.-J.; Maeng, L.-S.; Yoon, W.S. 2020: Targeted Genomic Sequencing Reveals Different Evolutionary Patterns Between Locally and Distally Recurrent Glioblastomas. Cancer Genomics and Proteomics 17(6): 803-812
Ma, G.; Li, C.; Zhang, Z.; Liang, Y.; Liang, Z.; Chen, Y.; Wang, L.; Li, D.; Zeng, M.; Shan, W.; Niu, H. 2021: Targeted Glucose or Glutamine Metabolic Therapy Combined with PD-1/PD-L1 Checkpoint Blockade Immunotherapy for the Treatment of Tumors - Mechanisms and Strategies. Frontiers in Oncology 11: 697894
McDonough, R.C.; Gilbert, R.M.; Gleghorn, J.P.; Price, C. 2021: Targeted Gq-GPCR activation drives ER-dependent calcium oscillations in chondrocytes. Cell Calcium 94: 102363
Mohr, B.; Giannone, R.J.; Hettich, R.L.; Doktycz, M.J. 2020: Targeted Growth Medium Dropouts Promote Aromatic Compound Synthesis in Crude E. coli Cell-Free Systems. Acs Synthetic Biology 9(11): 2986-2997
Demir, S.; Yalçıntepe, S.; Atlı, E.İk.; Sanrı, A.ıh.; Yıldırım, R.; Tütüncüler, F.; Çelik, M.; Atlı, E.; Özemri Sağ, Şe.; Eker, D.; Temel, Şe.; Gürkan, H. 2021: Targeted High-Throughput Sequencing Analysis Results of Osteogenesis Imperfecta Patients from Different Regions of Turkey. Genetic Testing and Molecular Biomarkers 25(1): 59-67
Lee, J.H.; Jeong, H.S.; Lee, D.H.; Beack, S.; Kim, T.; Lee, G.-H.; Park, W.C.; Kim, C.; Kim, K.S.; Hahn, S.K. 2017: Targeted Hyaluronate-Hollow Gold Nanosphere Conjugate for Anti-Obesity Photothermal Lipolysis. Acs Biomaterials Science and Engineering 3(12): 3646-3653
Chen, Y.; Paluch, M.; Zorn, J.A.; Rajan, S.; Leonard, B.; Estevez, A.; Brady, J.; Chiu, H.; Phung, W.; Famili, A.; Yan, M.; Ciferri, C.; Matsumoto, M.L.; Lazar, G.A.; Crowell, S.; Hass, P.; Agard, N.J. 2020: Targeted IgMs agonize ocular targets with extended vitreal exposure. Mabs 12(1): 1818436
Ghosh, P.; O'Neill, B.E.; Li, K.C. 2020: Targeted Imaging Agent to HSP70 Induced in Vivo. Molecular Imaging 19: 1536012120942685
Amsallem, M.; Sweatt, A.J.; Arthur Ataam, J.; Mercier, O.; Lecerf, F.; Rucker-Martin, C.; Ghigna, M.; Spiekerkoetter, E.; Rabinovitch, M.; Kuznetsova, T.; Fadel, E.; Haddad, F.; Zamanian, R. 2020: Targeted Immune and Growth Factor Proteomics of Right Heart Adaptation to Pulmonary Arterial Hypertension Reveals a Potential Role of the Hepatic Growth Factor. Journal of Heart and Lung Transplantation: the Official Publication of the International Society for Heart Transplantation 39(4s): S17
Mudd, P.A.; Crawford, J.C.; Turner, J.S.; Souquette, A.; Reynolds, D.; Bender, D.; Bosanquet, J.P.; Anand, N.J.; Striker, D.A.; Martin, R.S.; Boon, A.C.M.; House, S.L.; Remy, K.E.; Hotchkiss, R.S.; Presti, R.M.; OHalloran, J.A.; Powderly, W.G.; Thomas, P.G.; Ellebedy, A.H. 2020: Targeted Immunosuppression Distinguishes COVID-19 from Influenza in Moderate and Severe Disease. Medrxiv: the Preprint Server for Health Sciences 2020
Wang, D.-K.; Zuo, Q.; He, Q.-Y.; Li, B. 2021: Targeted Immunotherapies in Gastrointestinal Cancer: from Molecular Mechanisms to Implications. Frontiers in Immunology 12: 705999
Roesch, J.; Harms, M.; Berger, C.; Oswald, J.; Haid, B. 2020: Targeted Indication of Imaging for Detection of Vesicoureteric Reflux after Pediatric Febrile Urinary Tract Infections Based on a Multiparametric Computational Tool. Indian Journal of Pediatrics 87(12): 1001-1008
Sun, Q.; Zhang, H. 2021: Targeted Inference Involving High-Dimensional Data Using Nuisance Penalized Regression. Journal of the American Statistical Association 116(535): 1472-1486
Tsai, H.K.; Brackett, D.G.; Szeto, D.; Frazier, R.; MacLeay, A.; Davineni, P.; Manning, D.K.; Garcia, E.; Lindeman, N.I.; Le, L.P.; Lennerz, J.K.; Gibson, C.J.; Lindsley, R.C.; Kim, A.S.; Nardi, V. 2020: Targeted Informatics for Optimal Detection, Characterization, and Quantification of FLT3 Internal Tandem Duplications Across Multiple Next-Generation Sequencing Platforms. Journal of Molecular Diagnostics: Jmd 22(9): 1162-1178
Fang, Q.-L.; Li, K.-C.; Wang, L.; Gu, X.-L.; Song, R.-J.; Lu, S. 2020: Targeted Inhibition of CCL22 by miR-130a-5p can Enhance the Sensitivity of Cisplatin-Resistant Gastric Cancer Cells to Chemotherapy. Cancer Management and Research 12: 3865-3875
Wang, X.; Bai, Y.; Zhang, F.; Yang, Y.; Feng, D.; Li, A.; Yang, Z.; Li, D.; Tang, Y.; Wei, X.; Wei, W.; Han, P. 2020: Targeted Inhibition of P4HB Promotes Cell Sensitivity to Gemcitabine in Urothelial Carcinoma of the Bladder. Oncotargets and Therapy 13: 9543-9558
Chong, Y.C.; Toh, T.B.; Chan, Z.; Lin, Q.X.X.; Thng, D.K.H.; Hooi, L.; Ding, Z.; Shuen, T.; Toh, H.C.; Dan, Y.Y.; Bonney, G.K.; Zhou, L.; Chow, P.; Wang, Y.; Benoukraf, T.; Chow, E.K.-H.; Han, W. 2020: Targeted Inhibition of Purine Metabolism Is Effective in Suppressing Hepatocellular Carcinoma Progression. Hepatology Communications 4(9): 1362-1381
Lobb, D.C.; Doviak, H.; Brower, G.L.; Romito, E.; O'Neill, J.W.; Smith, S.; Shuman, J.A.; Freels, P.D.; Zellars, K.N.; Freeburg, L.A.; Khakoo, A.Y.; Lee, T.; Spinale, F.G. 2020: Targeted Injection of a Truncated Form of Tissue Inhibitor of Metalloproteinase 3 Alters Post-Myocardial Infarction Remodeling. Journal of Pharmacology and Experimental Therapeutics 375(2): 296-307
Tsakraklides, V. 2021: Targeted Integration Through Transformation of Hydroxyurea-Arrested Cells. Methods in Molecular Biology 2307: 139-145
Eagle, S.R.; Kontos, A.P.; Collins, M.W.; Mucha, A.; Holland, C.L.; Edelman, K.; Benso, S.; Schneider, W.; Soose, R.; Okonkwo, D.O. 2021: Targeted Intervention Improves Symptoms and Impairments in Patients with Mild Traumatic Brain Injury with Chronic Symptom: a Prospective, Multiple Interventional Research Trial. Journal of Special Operations Medicine: a Peer Reviewed Journal for Sof Medical Professionals 21(2): 61-66
Rosenberg, K. 2021: Targeted Interventions Improve Bronchiolitis Management in Infants. American Journal of Nursing 121(11): 70
Fastner, G.; Leonardi, M.C.; Poortmans, P.M. 2020: Targeted Intraoperative Radiotherapy for Early Breast Cancer. JAMA Oncology 6(10): 1636-1637
Shah, C.; Wazer, D.; Vicini, F. 2020: Targeted Intraoperative Radiotherapy for Early Breast Cancer. JAMA Oncology 6(10): 1635-1636
Bentzen, S.ør.M.; Haviland, J.S.; Yarnold, J.R. 2020: Targeted Intraoperative Radiotherapy for Early Breast Cancer. JAMA Oncology 6(10): 1636
Becker, S.; Wang, H.; Simmons, A.B.; Suwanmanee, T.; Stoddard, G.J.; Kafri, T.; Hartnett, M.Elizabeth. 2018: Targeted Knockdown of Overexpressed VEGFA or VEGF164 in Müller cells maintains retinal function by triggering different signaling mechanisms. Scientific Reports 8(1): 2003
Urata, Y.N.; Takeshita, F.; Tanaka, H.; Ochiya, T.; Takimoto, M. 2015: Targeted Knockdown of the Kinetochore Protein D40/Knl-1 Inhibits Human Cancer in a p53 Status-Independent Manner. Scientific Reports 5: 13676
Mank, M.; Hauner, H.; Heck, A.J.R.; Stahl, B. 2020: Targeted LC-ESI-MS2 characterization of human milk oligosaccharide diversity at 6 to 16 weeks post-partum reveals clear staging effects and distinctive milk groups. Analytical and Bioanalytical Chemistry 412(25): 6887-6907
Wang, R.; Hartmann, M.F.; Wudy, S.A. 2021: Targeted LC-MS/MS analysis of steroid glucuronides in human urine. Journal of Steroid Biochemistry and Molecular Biology 205: 105774
Picron, J-François.; Philippe, F.; Debrulle, N.; Van Hoeck, E.; Giraud, N.; Goscinny, Séverine.; Vanhee, Céline. 2021: Targeted LC-MS/MS combined with multilocus DNA metabarcoding as a combinatory approach to determine the amount and the source of pyrrolizidine alkaloids contamination in popular cooking herbs, seeds, spices and leafy vegetables. Food Additives and Contaminants. Part A Chemistry Analysis Control Exposure and Risk Assessment 2021: 1-16
Singh, J.P.; Berger, R.D.; Doshi, R.N.; Lloyd, M.; Moore, D.; Stone, J.; Daoud, E.G. 2020: Targeted Left Ventricular Lead Implantation Strategy for Non-Left Bundle Branch Block Patients: the ENHANCE CRT Study. JACC. Clinical Electrophysiology 6(9): 1171-1181
Feng, Y.; Weinlander, E.; Shah, M. 2021: Targeted Lens Pitting to Treat Negative Dysphotopsia. Journal of Refractive Surgery 37(3): 212-214
Goh, E.X.Y.; Guan, X.L. 2021: Targeted Lipidomics of Drosophila melanogaster During Development. Methods in Molecular Biology 2306: 187-213
Layre, E. 2021: Targeted Lipidomics of Mycobacterial Lipids and Glycolipids. Methods in Molecular Biology 2314: 549-577
Ramirez, R.; van Buuren, N.; Gamelin, L.; Soulette, C.; May, L.; Han, D.; Yu, M.; Choy, R.; Cheng, G.; Bhardwaj, N.; Chiu, J.; Muench, R.C.; Delaney, W.E.; Mo, H.; Feierbach, B.; Li, L. 2021: Targeted Long-Read Sequencing Reveals Comprehensive Architecture, Burden, and Transcriptional Signatures from Hepatitis B Virus-Associated Integrations and Translocations in Hepatocellular Carcinoma Cell Lines. Journal of Virology 95(19): E0029921
Ma, L.; Xu, Y.; Xu, X. 2020: Targeted MEK inhibition by cobimetinib enhances doxorubicin's efficacy in osteosarcoma models. Biochemical and Biophysical Research Communications 529(3): 622-628
Ramezani, P.; Abnous, K.; Taghdisi, S.M.; Zahiri, M.; Ramezani, M.; Alibolandi, M. 2020: Targeted MMP-2 responsive chimeric polymersomes for therapy against colorectal cancer. Colloids and Surfaces. B Biointerfaces 193: 111135
Dong, L.; Zhang, X.; Cai, L.; Zuo, F.; Zhao, M.; Wang, Q.; Zhang, S.; Xu, K.; Li, J. 2020: Targeted MRi and chemotherapy of ovarian cancer with clinic available nano-drug based nanoprobe. Biomedicine and PharmacoTherapy 130: 110585
Tang, H.; Li, C.; Zhang, Y.; Zheng, H.; Cheng, Y.; Zhu, J.; Chen, X.; Zhu, Z.; Piao, J.-G.; Li, F. 2020: Targeted Manganese doped silica nano GSH-cleaner for treatment of Liver Cancer by destroying the intracellular redox homeostasis. Theranostics 10(21): 9865-9887
Otto, J.J.; Correll, V.L.; Engstroem, H.A.; Hitefield, N.L.; Main, B.P.; Albracht, B.; Johnson-Pais, T.; Yang, L.F.; Liss, M.; Boutros, P.C.; Kislinger, T.; Leach, R.J.; Semmes, O.J.; Nyalwidhe, J.O. 2020: Targeted Mass Spectrometry of a Clinically Relevant PSA Variant from Post-DRE Urines for Quantitation and Genotype Determination. PROTEOMICS. Clinical Applications 14(6): E2000012
Laviano, A.; Calder, P.C.; Schols, A.; Lonnqvist, F.; Bech, M.; Dorkhan, M.; Muscaritoli, M. 2020: Targeted Medical Nutrition in Pre-Cachectic Patients with Non-Small-Cell Lung Cancer: A Subgroup Analysis. Nutrition and Cancer 2020: 1-2
Robinson, J.K.; Perez, M.; Abou-El-Seoud, D.; Kim, K.; Brown, Z.; Liko-Hazizi, E.; Friedewald, S.M.; Kwasny, M.; Spring, B. 2019: Targeted Melanoma Screening: Risk Self-Assessment and Skin Self-Examination Education Delivered During Mammography of Women. Jnci Cancer Spectrum 3(3): Pkz047
Sulochana, S.B.; Arumugam, M. 2020: Targeted Metabolomic and Biochemical Changes During Nitrogen Stress Mediated Lipid Accumulation in Scenedesmus quadricauda CASA CC202. Frontiers in Bioengineering and Biotechnology 8: 585632
Gómez-Cebrián, N.; García-Flores, M.ía.; Rubio-Briones, J.é; López-Guerrero, J.é A.; Pineda-Lucena, A.; Puchades-Carrasco, L. 2020: Targeted Metabolomics Analyses Reveal Specific Metabolic Alterations in High-Grade Prostate Cancer Patients. Journal of Proteome Research 19(10): 4082-4092
Shi, C.; Wang, L.; Zhou, K.; Shao, M.; Lu, Y.; Wu, T. 2020: Targeted Metabolomics Identifies Differential Serum and Liver Amino Acids Biomarkers in Rats with Alcoholic Liver Disease. Journal of Nutritional Science and Vitaminology 66(6): 536-544
Dai, M.; Hua, H.; Lin, H.; Xu, G.; Hu, X.; Li, F.; Gonzalez, F.J.; Liu, A.; Yang, J. 2018: Targeted Metabolomics Reveals a Protective Role for Basal PPARα in Cholestasis Induced by α-Naphthylisothiocyanate. Journal of Proteome Research 17(4): 1500-1508
Gong, L.-L.; Yang, S.; Zhang, W.; Han, F.-F.; Xuan, L.-L.; Lv, Y.-L.; Liu, H.; Liu, L.-H. 2020: Targeted Metabolomics for Plasma Amino Acids and Carnitines in Patients with Metabolic Syndrome Using HPLC-MS/MS. Disease Markers 2020: 8842320
Lobo, J.ão.; Gillis, A.J.M.; Looijenga, L.H.J. 2021: Targeted Methylation Analyses: from Bisulfite Treatment to Quantification. Methods in Molecular Biology 2195: 167-180
Feng, H-Yi.; Yuan, Y.; Zhang, Y.; Liu, H-Jun.; Dong, X.; Yang, S-Cong.; Liu, X-Liang.; Lai, X.; Zhu, M-Hua.; Wang, J.; Lu, Q.; Lin, Q.; Chen, H-Zhuan.; Lovell, J.F.; Sun, P.; Fang, C. 2021: Targeted Micellar Phthalocyanine for Lymph Node Metastasis Homing and Photothermal Therapy in an Orthotopic Colorectal Tumor Model. Nano-MicroLetters 13(1): 145
Parekattil, S.J. 2020: Targeted Microsurgical Denervation of the Spermatic Cord for Chronic Orchialgia: the Current Standard of Care. Current Urology Reports 21(11): 47
Boutigny, A-Laure.; Fioriti, F.; Rolland, M. 2020: Targeted MinION sequencing of transgenes. Scientific Reports 10(1): 15144
Grimm, C.; Dickel, S.; Sachkova, A.; Popp, M.; Golinksi, M.; Fichtner, F.; Kranke, P.; Seeber, C.; Laudi, S.; Voigt-Radloff, S.; Moerer, O. 2021: Targeted Minimal Staff-to-Patient Ratios Are Unachievable - a Nationwide Survey in German ICUs During the COVID-19 Pandemic. Cureus 13(6): E15755
Babajani, A.; Hosseini-Monfared, P.; Abbaspour, S.; Jamshidi, E.; Niknejad, H. 2021: Targeted Mitochondrial Therapy with Over-Expressed MAVS Protein from Mesenchymal Stem Cells: a new Therapeutic Approach for COVID-19. Frontiers in Cell and Developmental Biology 9: 695362
Evans, R.J.; Lavin, B.ña.; Phinikaridou, A.; Chooi, K.Y.; Mohri, Z.; Wong, E.; Boyle, J.J.; Krams, R.; Botnar, R.é; Long, N.J. 2020: Targeted Molecular Iron Oxide Contrast Agents for Imaging Atherosclerotic Plaque. Nanotheranostics 4(4): 184-194
Pors, J.; Tessier-Cloutier, B.; Thompson, E.; Almadani, N.; Ho, J.; Gilks, B.; Huntsman, D.; Hoang, L. 2021: Targeted Molecular Sequencing of Recurrent and Multifocal Non-HPV-associated Squamous Cell Carcinoma of the Vulva. International Journal of Gynecological Pathology: Official Journal of the International Society of Gynecological Pathologists 40(4): 391-399
Sridhar, S.; Sharma, I.; Sankpal, U.T.; Ghabach, B.; Narra, K.; Neerukonda, L.; Basha, R. 2020: Targeted Molecular Therapeutic Options for Hepatocellular Carcinoma. Critical Reviews in Oncogenesis 25(1): 47-55
Damask, C.C.; Ryan, M.W.; Casale, T.B.; Castro, M.; Franzese, C.B.; Lee, S.E.; Levy, J.M.; Lin, S.Y.; Lio, P.A.; Peters, A.T.; Platt, M.P.; White, A.A. 2021: Targeted Molecular Therapies in Allergy and Rhinology. Otolaryngology--Head and Neck Surgery: Official Journal of American Academy of Otolaryngology-Head and Neck Surgery 164(1_Suppl): S1-S21
Festuccia, C.; Biordi, A.L.; Tombolini, V.; Hara, A.; Bailey, D. 2020: Targeted Molecular Therapy in Glioblastoma. Journal of Oncology 2020: 5104876
Valerio, I.; Schulz, S.A.; West, J.; Westenberg, R.F.; Eberlin, K.R. 2020: Targeted Muscle Reinnervation Combined with a Vascularized Pedicled Regenerative Peripheral Nerve Interface. Plastic and Reconstructive Surgery. Global Open 8(3): E2689
Chang, B.L.; Mondshine, J.; Attinger, C.E.; Kleiber, G.M. 2021: Targeted Muscle Reinnervation Improves Pain and Ambulation Outcomes in Highly Comorbid Amputees. Plastic and Reconstructive Surgery 148(2): 376-386
Mioton, L.M.; Dumanian, G.A.; Shah, N.; Qiu, C.S.; Ertl, W.J.; Potter, B.K.; Souza, J.M.; Valerio, I.L.; Ko, J.H.; Jordan, S.W. 2020: Targeted Muscle Reinnervation Improves Residual Limb Pain, Phantom Limb Pain, and Limb Function: a Prospective Study of 33 Major Limb Amputees. Clinical Orthopaedics and Related Research 478(9): 2161-2167
Vincitorio, F.; Staffa, G.; Aszmann, O.C.; Fontana, M.; Brånemark, R.; Randi, P.; Macchiavelli, T.; Cutti, A.G. 2020: Targeted Muscle Reinnervation and Osseointegration for Pain Relief and Prosthetic Arm Control in a Woman with Bilateral Proximal Upper Limb Amputation. World Neurosurgery 143: 365-373
Lanier, S.T.; Jordan, S.W.; Ko, J.H.; Dumanian, G.A. 2020: Targeted Muscle Reinnervation as a Solution for Nerve Pain. Plastic and Reconstructive Surgery 146(5): 651e-663e
Frantz, T.L.; Everhart, J.S.; West, J.M.; Ly, T.V.; Phieffer, L.S.; Valerio, I.L. 2020: Targeted Muscle Reinnervation at the time of Major Limb Amputation in Traumatic Amputees: Early Experience of an Effective Treatment Strategy to Improve Pain. Jb and Js Open Access 5(2): E0067
O'Brien, A.L.; Kraft, C.T.; Valerio, I.L.; Rendon, J.L.; Spitz, J.A.; Skoracki, R.J. 2020: Targeted Muscle Reinnervation following Breast Surgery: a Novel Technique. Plastic and Reconstructive Surgery. Global Open 8(4): E2782
Chepla, K.J.; Wu-Fienberg, Y. 2020: Targeted Muscle Reinnervation for Partial Hand Amputation. Plastic and Reconstructive Surgery. Global Open 8(6): E2946
Bergmeister, K.D.; Salminger, S.; Aszmann, O.C. 2021: Targeted Muscle Reinnervation for Prosthetic Control. Hand Clinics 37(3): 415-424
Grome, L.J.; Agrawal, N.A.; Wang, E.; Netscher, D.T. 2020: Targeted Muscle Reinnervation for Symptomatic Neuromas Utilizing the Terminal Anterior Interosseous Nerve. Plastic and Reconstructive Surgery. Global Open 8(7): E2979
Janes, L.E.; Fracol, M.E.; Dumanian, G.A.; Ko, J.H. 2021: Targeted Muscle Reinnervation for the Treatment of Neuroma. Hand Clinics 37(3): 345-359
Chang, B.L.; Harbour, P.; Mondshine, J.; Kleiber, G.M. 2021: Targeted Muscle Reinnervation to Expendable Motor Nerves for the Treatment of Refractory Symptomatic Neuromas in Nonamputees. Plastic and Reconstructive Surgery. Global Open 9(2): E3436
Nomura, T.; Sakakibara, H. 2017: Targeted Mutagenesis Using RNA-guided Endonucleases in Mosses. Bio-Protocol 7(12):E2359
Sheets, T.P.; Park, K-Eun.; Park, C-Hun.; Swift, S.M.; Powell, A.; Donovan, D.M.; Telugu, B.P. 2018: Targeted Mutation of NGN3 Gene Disrupts Pancreatic Endocrine Cell Development in Pigs. Scientific Reports 8(1): 3582
Yang, Z.; Heater, B.S.; Cuddington, C.T.; Palmer, A.F.; Lee, M.M.M.; Chan, M.K. 2020: Targeted Myoglobin Delivery as a Strategy for Enhancing the Sensitivity of Hypoxic Cancer Cells to Radiation. Iscience 23(6): 101158
Xu, L.; Zhao, P.; Mariano, A.; Han, R. 2013: Targeted Myostatin Gene Editing in Multiple Mammalian Species Directed by a Single Pair of TALE Nucleases. Molecular Therapy. Nucleic Acids 2: E112
Shen, Y-chi.; Upadhyayula, R.; Cevallos, S.; Messick, R.J.; Hsia, T.; Leese, M.P.; Jewett, D.M.; Ferrer-Torres, D.; Roth, T.M.; Dohle, W.; Potter, B.V.L.; Barald, K.F. 2015: Targeted NF1 cancer therapeutics with multiple modes of action: small molecule hormone-like agents resembling the natural anticancer metabolite, 2-methoxyoestradiol. British Journal of Cancer 113(8): 1158-1167
Page, B.D.G.; Valerie, N.C.K.; Wright, R.H.G.; Wallner, O.; Isaksson, R.; Carter, M.; Rudd, S.G.; Loseva, O.; Jemth, A-Sofie.; Almlöf, I.; Font-Mateu, J.; Llona-Minguez, S.; Baranczewski, P.; Jeppsson, F.; Homan, E.; Almqvist, H.; Axelsson, H.; Regmi, S.; Gustavsson, A-Lena.; Lundbäck, T.; Scobie, M.; Strömberg, K.; Stenmark, Pål.; Beato, M.; Helleday, T. 2018: Targeted NUDT5 inhibitors block hormone signaling in breast cancer cells. Nature Communications 9(1): 250
Wang, Y.; Lan, M.; Shen, D.; Fang, K.; Zhu, L.; Liu, Y.; Hao, L.; Li, P. 2020: Targeted Nanobubbles Carrying Indocyanine Green for Ultrasound, Photoacoustic and Fluorescence Imaging of Prostate Cancer. International Journal of Nanomedicine 15: 4289-4309
Yang, J.; Du, H.; Chai, Z.; Ling, Z.; Li, B.Q.; Mei, X. 2021: Targeted Nanoscale 3D Thermal Imaging of Tumor Cell Surface with Functionalized Quantum Dots. Small 17(39): E2102807
Majumder, J.; Minko, T. 2021: Targeted Nanotherapeutics for Respiratory Diseases: Cancer, Fibrosis, and Coronavirus. Advanced Therapeutics 4(2): 2000203
Multhoff, G.; Seier, S.; Stangl, S.; Sievert, W.; Shevtsov, M.; Werner, C.; Pockley, A.G.; Blankenstein, C.; Hildebrandt, M.; Offner, R.; Ahrens, N.; Kokowski, K.; Hautmann, M.; Rödel, C.; Fietkau, R.; Lubgan, D.; Huber, R.; Hautmann, H.; Duell, T.; Molls, M.; Specht, H.; Haller, B.; Devecka, M.; Sauter, A.; Combs, S.E. 2020: Targeted Natural Killer Cell-Based Adoptive Immunotherapy for the Treatment of Patients with NSCLC after Radiochemotherapy: a Randomized Phase Ii Clinical Trial. Clinical Cancer Research: An Official Journal of the American Association for Cancer Research 26(20): 5368-5379
Wu, S.Y.; Sath, C.; Schuster, J.M.; Dominello, M.M.; Burmeister, J.W.; Golden, D.W.; Braunstein, S.E. 2020: Targeted Needs Assessment of Treatment Planning Education for United States Radiation Oncology Residents. International Journal of Radiation Oncology Biology Physics 106(4): 677-682
Wang, W.; Zhang, Y.; Anzivino, M.J.; Bertram, E.H.; Woznak, J.; Klibanov, A.; Dumont, E.; Wintermark, M.; Lee, K.S. 2020: Targeted Neuronal Injury for the Non-Invasive Disconnection of Brain Circuitry. Journal of Visualized Experiments: Jove 2020(163)
Qiu, Z.; Kala, S.; Guo, J.; Xian, Q.; Zhu, J.; Zhu, T.; Hou, X.; Wong, K.F.; Yang, M.; Wang, H.; Sun, L. 2020: Targeted Neurostimulation in Mouse Brains with Non-invasive Ultrasound. Cell Reports 32(7): 108033
Qiu, Z.; Kala, S.; Guo, J.; Xian, Q.; Zhu, J.; Zhu, T.; Hou, X.; Wong, K.F.; Yang, M.; Wang, H.; Sun, L. 2021: Targeted Neurostimulation in Mouse Brains with Non-invasive Ultrasound. Cell Reports 34(1): 108595
Bharadwaj, R.; Raman, T.; Thangadorai, R.; Munirathnam, D. 2020: Targeted Next Generation Sequencing (NGS) to Diagnose Hereditary Hemolytic Anemias. International Journal of Hematology-Oncology and Stem Cell Research 14(3): 177-180
Fermo, E.; Vercellati, C.; Marcello, A.P.; Keskin, E.Y.; Perrotta, S.; Zaninoni, A.; Brancaleoni, V.; Zanella, A.; Giannotta, J.A.; Barcellini, W.; Bianchi, P. 2021: Targeted Next Generation Sequencing and Diagnosis of Congenital Hemolytic Anemias: a Three Years Experience Monocentric Study. Frontiers in Physiology 12: 684569
Boutigny, A-Laure.; Barranger, A.; De Boisséson, C.; Blanchard, Y.; Rolland, M. 2019: Targeted Next Generation Sequencing to study insert stability in genetically modified plants. Scientific Reports 9(1): 2308
Lin, J.; Zhao, S.; Wang, D.; Song, Y.; Che, Y.; Yang, X.; Mao, J.; Xie, F.; Long, J.; Bai, Y.; Yang, X.; Zhang, L.; Bian, J.; Lu, X.; Sang, X.; Pan, J.; Wang, K.; Zhao, H. 2021: Targeted Next-Generation Sequencing Combined with Circulating-Free DNA Deciphers Spatial Heterogeneity of Resected Multifocal Hepatocellular Carcinoma. Frontiers in Immunology 12: 673248
Wang, L.; Zhao, L.; Peng, H.; Xu, J.; Lin, Y.; Yang, T.; Wu, H. 2020: Targeted Next-Generation Sequencing Identified Compound Heterozygous Mutations in MYO15A as the Probable Cause of Nonsyndromic Deafness in a Chinese Han Family. Neural Plasticity 2020: 6350479
Zhang, L.; Cheng, J.; Zhou, Q.; Khan, M.A.; Fu, J.; Duan, C.; Sun, S.; Lv, H.; Fu, J. 2020: Targeted Next-Generation Sequencing Identified Novel Compound Heterozygous Variants in the CDH23 Gene Causing Usher Syndrome Type ID in a Chinese Patient. Frontiers in Genetics 11: 422
Lazaro-Guevara, J.; Fierro-Morales, J.; Wright, A.H.; Gunville, R.; Simeone, C.; Frodsham, S.G.; Pezzolesi, M.H.; Zaffino, C.A.; Al-Rabadi, L.; Ramkumar, N.; Pezzolesi, M.G. 2021: Targeted Next-Generation Sequencing Identifies Pathogenic Variants in Diabetic Kidney Disease. American Journal of Nephrology 52(3): 239-249
Yu, X.; Lin, Y.; Wu, H. 2020: Targeted Next-Generation Sequencing Identifies Separate Causes of Hearing Loss in one Deaf Family and Variable Clinical Manifestations for the p.R161C Mutation in SOX10. Neural Plasticity 2020: 8860837
Gong, Y.; Fan, L.; Fei, X.; Zhu, Y.; Du, X.; He, Y.; Pan, J.; Dong, B.; Xue, W. 2021: Targeted Next-Generation Sequencing Reveals Heterogenous Genomic Features in Viscerally Metastatic Prostate Cancer. Journal of Urology 206(2): 279-288
Lipiński, P.; Ciara, E.żb.; Jurkiewicz, D.; Pollak, A.; Wypchło, M.; Płoski, R.ł; Cielecka-Kuszyk, J.; Socha, P.; Pawłowska, J.; Jankowska, I. 2020: Targeted Next-Generation Sequencing in Diagnostic Approach to Monogenic Cholestatic Liver Disorders-Single-Center Experience. Frontiers in Pediatrics 8: 414
Bukowska-Olech, E.; Materna-Kiryluk, A.; Walczak-Sztulpa, J.; Popiel, D.; Badura-Stronka, M.; Koczyk, G.; Dawidziuk, A.; Jamsheer, A. 2020: Targeted Next-Generation Sequencing in the Diagnosis of Facial Dysostoses. Frontiers in Genetics 11: 580477
Dongre, H.N.; Haave, H.; Fromreide, S.; Erland, F.A.; Moe, S.E.E.; Dhayalan, S.M.; Riis, R.K.; Sapkota, D.; Costea, D.E.; Aarstad, H.J.; Vintermyr, O.K. 2021: Targeted Next-Generation Sequencing of Cancer-Related Genes in a Norwegian Patient Cohort with Head and Neck Squamous Cell Carcinoma Reveals Novel Actionable Mutations and Correlations with Pathological Parameters. Frontiers in Oncology 11: 734134
Sun, M.-Y.; Lin, F.-Q.; Chen, L.-J.; Li, H.; Lin, W.-Q.; Du, H.-Y.; Yang, X.-X.; Li, M. 2021: Targeted Next-Generation Sequencing of Circulating Tumor DNA Mutations among Metastatic Breast Cancer Patients. Current Oncology 28(4): 2326-2336
Ruan, M.; Liu, L.; Qi, B.; Chen, X.; Chang, L.; Zhang, A.; Liu, F.; Wang, S.; Liu, X.; Chen, X.; Zhang, L.; Guo, Y.; Zou, Y.; Zhang, Y.; Chen, Y.; Liu, L.; Cao, S.; Lou, F.; Wang, C.; Zhu, X. 2021: Targeted Next-Generation Sequencing of Circulating Tumor DNA, Bone Marrow, and Peripheral Blood Mononuclear Cells in Pediatric AML. Frontiers in Oncology 11: 666470
Chae, H.; Sung, P.S.; Choi, H.; Kwon, A.; Kang, D.; Kim, Y.; Kim, M.; Yoon, S.K. 2021: Targeted Next-Generation Sequencing of Plasma Cell-Free DNA in Korean Patients with Hepatocellular Carcinoma. Annals of Laboratory Medicine 41(2): 198-206
Tariq, H.; Gul, A.; Zubair, M.; Jaffer, S.R.; Zafar, N.; Sadaf, G. 2021: Targeted Next-generation Sequencing for Reliable Detection of Genetic Status in Breast Cancer. Journal of the College of Physicians and Surgeons--Pakistan: Jcpsp 30(7): 837-840
Kaminaga, K.; Hamada, R.; Usami, N.; Suzuki, K.; Yokoya, A. 2020: Targeted Nuclear Irradiation with an X-Ray Microbeam Enhances Total JC-1 Fluorescence from Mitochondria. Radiation Research 194(5): 511-518
Radhakrishnan, S.; Ke, J.-Y.; Pellizzon, M.A. 2020: Targeted Nutrient Modifications in Purified Diets Differentially Affect Nonalcoholic Fatty Liver Disease and Metabolic Disease Development in Rodent Models. Current Developments in Nutrition 4(6): Nzaa 078
Coman, C.; Ahrends, R. 2020: Targeted Omics: Finding the Needle. Proteomics 20(11): E1900024
Adhikari, A.N.; Beck, M.D.; Wykes, J.J.; Ashford, B.G. 2021: Targeted ordering of investigations reduces costs of treatment for surgical inpatients. International Journal for Quality in Health Care: Journal of the International Society for Quality in Health Care 33(2)
Cao, X.; Wang, B. 2021: Targeted PD-L1 PLGA/liposomes-mediated luteolin therapy for effective liver cancer cell treatment. Journal of Biomaterials Applications 36(5): 843-850
Heo, G.S.; Bajpai, G.; Li, W.; Luehmann, H.P.; Sultan, D.H.; Dun, H.; Leuschner, F.; Brody, S.L.; Gropler, R.J.; Kreisel, D.; Lavine, K.J.; Liu, Y. 2021: Targeted PET Imaging of Chemokine Receptor 2-Positive Monocytes and Macrophages in the Injured Heart. Journal of Nuclear Medicine: Official Publication Society of Nuclear Medicine 62(1): 111-114
Cully, M. 2020: Targeted PI3K inhibitors reduce lung fibrosis in mice. Nature Reviews. Drug Discovery 19(12): 838
Ecker, V.; Stumpf, M.; Brandmeier, L.; Neumayer, T.; Pfeuffer, L.; Engleitner, T.; Ringshausen, I.; Nelson, N.; Jücker, M.; Wanninger, S.; Zenz, T.; Wendtner, C.; Manske, K.; Steiger, K.; Rad, R.; Müschen, M.; Ruland, Jürgen.; Buchner, M. 2021: Targeted PI3K/AKT-hyperactivation induces cell death in chronic lymphocytic leukemia. Nature Communications 12(1): 3526
Tada, H.; Takamura, M.; Kawashiri, M.-A. 2020: Targeted Panel Sequencing will Boost Detection of Genetic Backgrounds of Familial Hypercholesterolemia in the World's Most Populous Country. Journal of Atherosclerosis and Thrombosis 27(12): 1261-1263
Kinberg, E.C.; Gregory, J.K.; Genden, E. 2020: Targeted Parathyroidectomy-Use of the Atraumatic Microvascular Clamp. JAMA Otolaryngology-- Head and Neck Surgery 146(9): 863-864
Ding, R.; Liao, X.; Li, J.; Zhang, J.; Wang, M.; Guang, Y.; Qin, H.; Li, X.; Zhang, K.; Liang, S.; Guan, J.; Lou, J.; Jia, H.; Chen, B.; Shen, H.; Chen, X. 2017: Targeted Patching and Dendritic Ca 2+ Imaging in Nonhuman Primate Brain in vivo. Scientific Reports 7(1): 2873
Park, S.H.; Lin, J.-T.; Dee, W.; Hsu, C.-J.; Roth, E.J.; Rymer, W.Z.; Wu, M. 2020: Targeted Pelvic Constraint Force Induces Enhanced use of the Paretic Leg During Walking in Persons Post-Stroke. IEEE Transactions on Neural Systems and Rehabilitation Engineering: a Publication of the IEEE Engineering in Medicine and Biology Society 28(10): 2184-2193
Schraivogel, D.; Gschwind, A.R.; Milbank, J.H.; Leonce, D.R.; Jakob, P.; Mathur, L.; Korbel, J.O.; Merten, C.A.; Velten, L.; Steinmetz, L.M. 2020: Targeted Perturb-seq enables genome-scale genetic screens in single cells. Nature Methods 17(6): 629-635
Staquicini, D.I.; Barbu, E.M.; Zemans, R.L.; Dray, B.K.; Staquicini, F.I.; Dogra, P.; Cardó-Vila, M.; Miranti, C.K.; Baze, W.B.; Villa, L.L.; Kalil, J.; Sharma, G.; Prossnitz, E.R.; Wang, Z.; Cristini, V.; Sidman, R.L.; Berman, A.R.; Panettieri, R.A.; Tuder, R.M.; Pasqualini, R.; Arap, W. 2021: Targeted Phage Display-based Pulmonary Vaccination in Mice and Non-human Primates. Med 2(3): 321-342
Daquinag, A.C.; Tseng, C.; Zhang, Y.; Amaya-Manzanares, F.; Florez, F.; Dadbin, A.; Zhang, T.; Kolonin, M.G. 2016: Targeted Proapoptotic Peptides Depleting Adipose Stromal Cells Inhibit Tumor Growth. Molecular Therapy: the Journal of the American Society of Gene Therapy 24(1): 34-40
Caine, E.A.; Mahan, S.D.; Johnson, R.L.; Nieman, A.N.; Lam, N.; Warren, C.R.; Riching, K.M.; Urh, M.; Daniels, D.L. 2020: Targeted Protein Degradation Phenotypic Studies Using HaloTag CRISPR/Cas9 Endogenous Tagging Coupled with HaloPROTAC3. Current Protocols in Pharmacology 91(1): E81
Saito, Y.; Kanemaki, M.T. 2021: Targeted Protein Depletion Using the Auxin-Inducible Degron 2 (AID2) System. Current Protocols 1(8): E219
Barkovits, K.; Chen, W.; Kohl, M.; Bracht, T. 2021: Targeted Protein Quantification Using Parallel Reaction Monitoring (PRM). Methods in Molecular Biology 2228: 145-157
Yang, T.; Xu, F.; Fang, D.; Chen, Y. 2015: Targeted Proteomics Enables Simultaneous Quantification of Folate Receptor Isoforms and Potential Isoform-based Diagnosis in Breast Cancer. Scientific Reports 5: 16733
Wang, L.; Yang, H.; Huang, J.; Pei, S.; Wang, L.; Feng, J.Q.; Jing, D.; Zhao, H.; Kronenberg, H.M.; Moore, D.C.; Yang, W. 2021: Targeted Ptpn11 deletion in mice reveals the essential role of SHP2 in osteoblast differentiation and skeletal homeostasis. Bone Research 9(1): 6
Guo, Q.; Dammer, E.B.; Zhou, M.; Kundinger, S.R.; Gearing, M.; Lah, J.J.; Levey, A.I.; Shulman, J.M.; Seyfried, N.T. 2021: Targeted Quantification of Detergent-Insoluble RNA-Binding Proteins in Human Brain Reveals Stage and Disease Specific Co-aggregation in Alzheimer's Disease. Frontiers in Molecular Neuroscience 14: 623659
Huang, B.; Rohrer, J. 2020: Targeted Quantitation Mode Comparison of Haloacetic Acids, Bromate, and Dalapon in Drinking Water Using Ion Chromatography Coupled to High-Resolution (Orbitrap) Mass Spectrometry. Journal of Chromatography. a 1630: 461538
Fricke, T.; Smalakyte, D.; Lapinski, M.; Pateria, A.; Weige, C.; Pastor, M.; Kolano, A.; Winata, C.; Siksnys, V.; Tamulaitis, G.; Bochtler, M. 2020: Targeted RNA Knockdown by a Type IIi CRISPR-Cas Complex in Zebrafish. Crispr Journal 3(4): 299-313
Chen, X.; Zhao, Q.; Zhao, Y.-L.; Chai, G.-S.; Cheng, W.; Zhao, Z.; Wang, J.; Luo, G.-Z.; Cao, N. 2021: Targeted RNA N6 -Methyladenosine Demethylation Controls Cell Fate Transition in Human Pluripotent Stem Cells. Advanced Science 8(11): E2003902
Momeni-Boroujeni, A.; Mohammad, N.; Wolber, R.; Yip, S.; Köbel, M.; Dickson, B.C.; Hensley, M.L.; Leitao, M.M.; Antonescu, C.R.; Benayed, R.; Ladanyi, M.; Lee, C-Han.; Chiang, S. 2020: Targeted RNA expression profiling identifies high-grade endometrial stromal sarcoma as a clinically relevant molecular subtype of uterine sarcoma. Modern Pathology: An Official Journal of the United States and Canadian Academy of Pathology Inc 2020
Liu, X.-M.; Qian, S.-B. 2021: Targeted RNA m6A Editing Using Engineered CRISPR-Cas9 Conjugates. Methods in Molecular Biology 2298: 399-414
Curion, F.; Handel, A.E.; Attar, M.; Gallone, G.; Bowden, R.; Cader, M.Zameel.; Clark, M.B. 2020: Targeted RNA sequencing enhances gene expression profiling of ultra-low input samples. Rna Biology 17(12): 1741-1753
Baker, J.E.; Plaska, S.W.; Qin, Z.; Liu, C.-J.; Rege, J.; Rainey, W.E.; Udager, A.M. 2021: Targeted RNA sequencing of adrenal zones using immunohistochemistry-guided capture of formalin-fixed paraffin-embedded tissue. Molecular and Cellular Endocrinology 530: 111296
Mercer, T.R.; Gerhardt, D.J.; Dinger, M.E.; Crawford, J.; Trapnell, C.; Jeddeloh, J.A.; Mattick, J.S.; Rinn, J.L. 2011: Targeted RNA sequencing reveals the deep complexity of the human transcriptome. Nature Biotechnology 30(1): 99-104
Johansson, T.; Koskela, S.; Yohannes, D.A.; Partanen, J.; Saavalainen, P.äi. 2021: Targeted RNA-Based Oxford Nanopore Sequencing for Typing 12 Classical HLA Genes. Frontiers in Genetics 12: 635601
Bougé, A-Laure.; Murauer, E.; Beyne, E.; Miro, J.; Varilh, J.; Taulan, M.; Koenig, M.; Claustres, M.; Tuffery-Giraud, S. 2017: Targeted RNA-Seq profiling of splicing pattern in the DMD gene: exons are mostly constitutively spliced in human skeletal muscle. Scientific Reports 7: 39094
Fu, C.; Marczyk, M.; Samuels, M.; Trevarton, A.J.; Qu, J.; Lau, R.; Du, L.; Pappas, T.; Sinn, B.V.; Gould, R.E.; Pusztai, L.; Hatzis, C.; Symmans, W.F. 2021: Targeted RNAseq assay incorporating unique molecular identifiers for improved quantification of gene expression signatures and transcribed mutation fraction in fixed tumor samples. Bmc Cancer 21(1): 114
Plaska, S.W.; Liu, C.-J.; Lim, J.S.; Rege, J.; Bick, N.R.; Lerario, A.M.; Hammer, G.D.; Giordano, T.J.; Else, T.; Tomlins, S.A.; Rainey, W.E.; Udager, A.M. 2020: Targeted RNAseq of Formalin-Fixed Paraffin-Embedded Tissue to Differentiate Among Benign and Malignant Adrenal Cortical Tumors. Hormone and Metabolic Research 52(8): 607-613
Singwi, S.; Ramezani, A.; Ding, S.F.; Joshi, S. 1999: Targeted RNases: a feasibility study for use in HIV gene therapy. Gene Therapy 6(5): 913-921
Lv, J-Neng.; Zhou, G-Hui.; Chen, X.; Chen, H.; Wu, K-Chao.; Xiang, L.; Lei, X-Lan.; Zhang, X.; Wu, R-Han.; Jin, Z-Bing. 2017: Targeted RP9 ablation and mutagenesis in mouse photoreceptor cells by CRISPR-Cas9. Scientific Reports 7: 43062
Khatibi, K.; Ponce Mejia, L.L.; Kaneko, N.; Ooi, Y.; Kaprealian, T.; Gonzalez, N.R.; Pouratian, N.; Szeder, V. 2020: Targeted Radiation Therapy can Treat Myxomatous Cerebral Aneurysms. World Neurosurgery 143: 332-335
Zhao, L.; Chen, H.; Guo, Z.; Fu, K.; Yao, L.; Fu, L.; Guo, W.; Wen, X.; Jacobson, O.; Zhang, X.; Sun, L.; Wu, H.; Lin, Q.; Chen, X. 2020: Targeted Radionuclide Therapy in Patient-Derived Xenografts Using 177Lu-EB-RGD. Molecular Cancer Therapeutics 19(10): 2034-2043
Luo, D.; Johnson, A.; Wang, X.; Li, H.; Erokwu, B.O.; Springer, S.; Lou, J.; Ramamurthy, G.; Flask, C.A.; Burda, C.; Meade, T.J.; Basilion, J.P. 2020: Targeted Radiosensitizers for MR-Guided Radiation Therapy of Prostate Cancer. Nano Letters 20(10): 7159-7167
Müller, C.; Béhé, M.; Geistlich, S.; van der Meulen, N.P.; Schibli, R. 2020: Targeted Radiotherapeutics from 'Bench-to-Bedside'. Chimia 74(12): 939-945
Alicea, C.C.M.; Doherty, K.A. 2021: Targeted Re-Instruction for Hearing Aid use and Care Skills. American Journal of Audiology 30(3): 590-601
Gao, Y.; Zheng, J.; Jiang, T.; Pi, G.; Sun, F.; Xiong, R.; Wang, W.; Wu, D.; Li, S.; Lei, H.; Yu, H.; Zhou, Q.; Yang, Y.; Zhang, H.; Wang, J.-Z. 2020: Targeted Reducing of Tauopathy Alleviates Epileptic Seizures and Spatial Memory Impairment in an Optogenetically Inducible Mouse Model of Epilepsy. Frontiers in Cell and Developmental Biology 8: 633725
Kim, J.; Won, R.; Ban, G.; Ju, M.Ha.; Cho, K.Sook.; Young Han, S.; Jeong, J-Sook.; Lee, S-Wook. 2015: Targeted Regression of Hepatocellular Carcinoma by Cancer-Specific RNA Replacement through MicroRNA Regulation. Scientific Reports 5: 12315
Hartmann, S.; Stachs, A.; Kühn, T.; de Boniface, J.; Banys-Paluchowski, M.; Reimer, T. 2021: Targeted Removal of Axillary Lymph Nodes After Carbon Marking in Patients with Breast Cancer Treated with Primary Chemotherapy. Geburtshilfe und Frauenheilkunde 81(10): 1121-1127
Yan, H.; Mi, X.; Midgley, A.C.; Du, X.; Huang, Z.; Wei, T.; Liu, R.; Ma, T.; Zhi, D.; Zhu, D.; Wang, T.; Feng, G.; Zhao, Y.; Zhang, W.; He, J.; Zhu, M.; Kong, D.; Wang, K. 2020: Targeted Repair of Vascular Injury by Adipose-Derived Stem Cells Modified with P-Selectin Binding Peptide. Advanced Science 7(11): 1903516
Bolli, E.; Scherger, M.; Arnouk, S.M.; Pombo Antunes, A.R.; Straßburger, D.; Urschbach, M.; Stickdorn, J.; De Vlaminck, K.; Movahedi, K.; Räder, H.J.; Hernot, S.; Besenius, P.; Van Ginderachter, J.A.; Nuhn, L. 2021: Targeted Repolarization of Tumor-Associated Macrophages via Imidazoquinoline-Linked Nanobodies. Advanced Science 8(10): 2004574
Sherron, M.A.; Stevenson, S.A.; Browner, N.M.; Lewek, M.D. 2020: Targeted Rhythmic Auditory Cueing During Treadmill and Overground Gait for Individuals with Parkinson Disease: a Case Series. Journal of Neurologic Physical Therapy: Jnpt 44(4): 268-274
Sanrattana, W.; Smits, S.; Barendrecht, A.D.; van Kleef, N.D.; El Otmani, H.; Zivkovic, M.; Roest, M.; Renné, T.; Clark, C.C.; de Maat, S.; Maas, C. 2022: Targeted SERPIN (TaSER): a dual-action antithrombotic agent that targets platelets for SERPIN delivery. Journal of Thrombosis and Haemostasis: Jth 20(2): 353-365
Nosrati, R.; Abnous, K.; Alibolandi, M.; Mosafer, J.; Dehghani, S.; Taghdisi, S.Mohammad.; Ramezani, M. 2021: Targeted SPION siderophore conjugate loaded with doxorubicin as a theranostic agent for imaging and treatment of colon carcinoma. Scientific Reports 11(1): 13065
Christensen, I.B.; Vedel, C.; Clausen, M.-L.; Kjærulff, S.ør.; Agner, T.; Nielsen, D.S. 2021: Targeted Screening of Lactic Acid Bacteria with Antibacterial Activity Toward Staphylococcus aureus Clonal Complex Type 1 Associated with Atopic Dermatitis. Frontiers in Microbiology 12: 733847
Diao, F. 2020: Targeted Sequencing Analysis of Matched Cell-Free DNA and White Blood Cells: a Facile Method for Detection of Residual Disease in Gastric Cancer. Global Medical Genetics 7(2): 27-29
Li, Y.; Tan, Y.; Hu, S.; Xie, J.; Yan, Z.; Zhang, X.; Zong, Y.; Han-Zhang, H.; Li, Q.; Li, C. 2021: Targeted Sequencing Analysis of Predominant Histological Subtypes in Resected Stage i Invasive Lung Adenocarcinoma. Journal of Cancer 12(11): 3222-3229
Ramensky, V.E.; Ershova, A.I.; Zaicenoka, M.; Kiseleva, A.V.; Zharikova, A.A.; Vyatkin, Y.V.; Sotnikova, E.A.; Efimova, I.A.; Divashuk, M.G.; Kurilova, O.V.; Skirko, O.P.; Muromtseva, G.A.; Belova, O.A.; Rachkova, S.A.; Pokrovskaya, M.S.; Shalnova, S.A.; Meshkov, A.N.; Drapkina, O.M. 2021: Targeted Sequencing of 242 Clinically Important Genes in the Russian Population from the Ivanovo Region. Frontiers in Genetics 12: 709419
Bae, G.E.; Kim, S.-H.; Choi, M.K.; Kim, J.-M.; Yeo, M.-K. 2021: Targeted Sequencing of Ascites and Peritoneal Washing Fluid of Patients with Gastrointestinal Cancers and their Clinical Applications and Limitations. Frontiers in Oncology 11: 712754
Chiou, C.-C.; Wang, C.-L.; Luo, J.-D.; Liu, C.-Y.; Ko, H.-W.; Yang, C.-T. 2020: Targeted Sequencing of Circulating Cell Free DNA can be Used to Monitor Therapeutic Efficacy of Tyrosine Kinase Inhibitors in Non-small Cell Lung Cancer Patients. Cancer Genomics and Proteomics 17(4): 417-423
Isidori, F.; Bozzarelli, I.; Mastracci, L.; Malvi, D.; Lugaresi, M.; Molinari, C.; Söderström, H.; Räsänen, J.; D'Errico, A.; Fiocca, R.; Seri, M.; Krishnadath, K.K.; Bonora, E.; Mattioli, S. 2020: Targeted Sequencing of Sorted Esophageal Adenocarcinoma Cells Unveils Known and Novel Mutations in the Separated Subpopulations. Clinical and Translational Gastroenterology 11(9): E00202
Peng, Q.; Xu, C.; Kim, D.; Lewis, M.; DiCarlo, J.; Wang, Y. 2019: Targeted Single Primer Enrichment Sequencing with Single End Duplex-UMI. Scientific Reports 9(1): 4810
Clark, I.C.; Delley, C.L.; Sun, C.; Thakur, R.; Stott, S.L.; Thaploo, S.; Li, Z.; Quintana, F.J.; Abate, A.R. 2020: Targeted Single-Cell RNA and DNA Sequencing with Fluorescence-Activated Droplet Merger. Analytical Chemistry 92(21): 14616-14623
Chen, L.; Chou, C.-L.; Knepper, M.A. 2021: Targeted Single-Cell RNA-seq Identifies Minority Cell Types of Kidney Distal Nephron. Journal of the American Society of Nephrology: Jasn 32(4): 886-896
McKernan, P.; Virani, N.A.; Faria, G.N.F.; Karch, C.ém.G.; Prada Silvy, R.; Resasco, D.E.; Thompson, L.F.; Harrison, R.G. 2021: Targeted Single-Walled Carbon Nanotubes for Photothermal Therapy Combined with Immune Checkpoint Inhibition for the Treatment of Metastatic Breast Cancer. Nanoscale Research Letters 16(1): 9
Ivics, Zán.; Katzer, A.; Stüwe, E.E.; Fiedler, D.; Knespel, S.; Izsvák, Z. 2007: Targeted Sleeping Beauty transposition in human cells. Molecular Therapy: the Journal of the American Society of Gene Therapy 15(6): 1137-1144
Dal Corso, A. 2020: Targeted Small-Molecule Conjugates: the Future is now. Chembiochem: a European Journal of Chemical Biology 21(23): 3321-3322
Paknahad, J.; Loizos, K.; Humayun, M.; Lazzi, G. 2020: Targeted Stimulation of Retinal Ganglion Cells in Epiretinal Prostheses: a Multiscale Computational Study. IEEE Transactions on Neural Systems and Rehabilitation Engineering: a Publication of the IEEE Engineering in Medicine and Biology Society 28(11): 2548-2556
Wang, F.; Howard, J.D.; Voss, J.L.; Schoenbaum, G.; Kahnt, T. 2020: Targeted Stimulation of an Orbitofrontal Network Disrupts Decisions Based on Inferred, not Experienced Outcomes. Journal of Neuroscience: the Official Journal of the Society for Neuroscience 40(45): 8726-8733
Parsons, A.S.; Clancy, C.B.; Rencic, J.J.; Warburton, K.M. 2022: Targeted Strategies to Remediate Diagnostic Reasoning Deficits. Academic Medicine: Journal of the Association of American Medical Colleges 97(4): 616
Davis, D.E.; Sherrod, S.D.; Gant-Branum, R.L.; Colby, J.M.; McLean, J.A. 2020: Targeted Strategy to Analyze Antiepileptic Drugs in Human Serum by LC-MS/MS and LC-Ion Mobility-MS. Analytical Chemistry 92(21): 14648-14656
Wang, Y.; Zeng, S.; Crunteanu, A.; Xie, Z.; Humbert, G.; Ma, L.; Wei, Y.; Brunel, A.; Bessette, B.; Orlianges, J-Christophe.; Lalloué, F.; Schmidt, O.G.; Yu, N.; Ho, H-Pui. 2021: Targeted Sub-Attomole Cancer Biomarker Detection Based on Phase Singularity 2D Nanomaterial-Enhanced Plasmonic Biosensor. Nano-MicroLetters 13(1): 96
Franz, L.; Schneider, A.F.L.; Hackenberger, C.P.R. 2021: Targeted Subcellular Protein Delivery Using Cleavable Cyclic Cell-Penetrating Peptide-Conjugates. Methods in Molecular Biology 2355: 287-299
Shakirova, J.R.; Nayeri, S.; Jamali, S.; Porsev, V.V.; Gurzhiy, V.V.; Levin, O.V.; Koshevoy, I.O.; Tunik, S.P. 2020: Targeted Synthesis of NIR Luminescent Rhenium Diimine cis,trans-[Re( N N )(CO)2 (L)2 ]n+ Complexes Containing N-Donor Axial Ligands: Photophysical, Electrochemical, and Theoretical Studies. Chempluschem 85(11): 2518-2527
Kupchik, N. 2021: Targeted Temperature Management After Cardiac Arrest. Critical Care Nursing Clinics of North America 33(3): 303-317
Prendergast, E.; Allen, K.Y.; Mills, M.G.; Moran, T.; Harris, Z.L.; Malakooti, M.; Smith, C.M.; Wainwright, M.S.; McCarthy-Kowols, M. 2021: Targeted Temperature Management Protocol in a Pediatric Intensive Care Unit: a Quality Improvement Project. Critical Care Nurse 41(5): 41-50
Ristagno, G.; Magliocca, A.; Sanfilippo, F. 2021: Targeted Temperature Management after Cardiac Arrest. New England Journal of Medicine 385(14): 1341-1342
Moskowitz, A.; Berg, K.M.; Donnino, M.W. 2020: Targeted Temperature Management for Cardiac Arrest. New England Journal of Medicine 382(26): E109
Rasmussen, T.P.; Bullis, T.C.; Girotra, S. 2020: Targeted Temperature Management for Treatment of Cardiac Arrest. Current Treatment Options in Cardiovascular Medicine 22(11): 39
Barbarawi, M.; Alabdouh, A.; Barbarawi, O.; Lakshman, H.; Alkasasbeh, M.; Rizk, F.; Bachuwa, G.; Alkotob, M.L. 2020: Targeted Temperature Management in Cardiac Arrest Patients with an Initial Non-Shockable Rhythm: a Systematic Review and Meta-Analysis. Shock 54(5): 623-630
Ehrman, S.E.; Norton, K.P.; Karol, D.E.; Weaver, M.S.; Lockwood, B.; Latimer, A.; Scott, E.; Jones, C.A.; Macauley, R. 2021: Top Ten Tips Palliative Care Clinicians Should Know About Medical Decision-Making Capacity Assessment. Journal of Palliative Medicine 24(4): 599-604
Joseph, M.M.; Ramya, A.N.; Vijayan, V.M.; Nair, J.B.; Bastian, B.T.; Pillai, R.K.; Therakathinal, S.T.; Maiti, K.K. 2020: Targeted Theranostic Nano Vehicle Endorsed with Self-Destruction and Immunostimulatory Features to Circumvent Drug Resistance and Wipe-Out Tumor Reinitiating Cancer Stem Cells. Small 16(38): E2003309
Liao, Y.; Li, B.; Zhao, Z.; Fu, Y.; Tan, Q.; Li, X.; Wang, W.; Yin, J.; Shan, H.; Tang, B.Z.; Huang, X. 2020: Targeted Theranostics for Tuberculosis: a Rifampicin-Loaded Aggregation-Induced Emission Carrier for Granulomas Tracking and Anti-Infection. Acs Nano 14(7): 8046-8058
Zhang, C.; Qin, Q.; Li, H. 2021: Targeted Therapeutic Effect of Bavachinin Nanospheres on Pathological Site of Chronic Asthmatic Mice Model. Journal of Nanoscience and Nanotechnology 21(2): 1085-1090
Yang, B.; Fang, D.; Lv, Q.; Wang, Z.; Liu, Y. 2021: Targeted Therapeutic Strategies in the Battle Against Pathogenic Bacteria. Frontiers in Pharmacology 12: 673239
Taniguchi, H.; Sen, T.; Rudin, C.M. 2020: Targeted Therapies and Biomarkers in Small Cell Lung Cancer. Frontiers in Oncology 10: 741
Vasella, M.; Gousopoulos, E.; Guidi, M.; Storti, G.; Song, S.Y.; Grieb, G.; Pauli, C.; Lindenblatt, N.; Giovanoli, P.; Kim, B.-S. 2022: Targeted therapies and checkpoint inhibitors in sarcoma. Qjm: Monthly Journal of the Association of Physicians 115(12): 793-805
Lucendo, A.J.; López-Sánchez, P. 2020: Targeted Therapies for Eosinophilic Gastrointestinal Disorders. Biodrugs: Clinical Immunotherapeutics Biopharmaceuticals and Gene Therapy 34(4): 477-493
Patel, T.H.; Cecchini, M. 2020: Targeted Therapies in Advanced Gastric Cancer. Current Treatment Options in Oncology 21(9): 70
Floris, A.; Congia, M.; Chessa, E.; Angioni, M.M.; Piga, M.; Cauli, A. 2021: Targeted Therapies in Axial Psoriatic Arthritis. Frontiers in Genetics 12: 689984
Battisti, N.ò M.L.; Decoster, L.; Williams, G.R.; Kanesvaran, R.; Wildiers, H.; Ring, A. 2021: Targeted Therapies in Older Adults with Solid Tumors. Journal of Clinical Oncology: Official Journal of the American Society of Clinical Oncology 39(19): 2128-2137
Vijayvergia, N.; Dasari, A. 2020: Targeted Therapies in the Management of Well-Differentiated Digestive and Lung Neuroendocrine Neoplasms. Current Treatment Options in Oncology 21(12): 96
Bukowski, R.M. 2009: Targeted Therapies: Bevacizumab and interferon-alpha in metastatic renal-cell carcinoma. Nature Reviews. Clinical Oncology 6(5): 253-254
Bruins, W.S.C.; Zweegman, S.; Mutis, T.; van de Donk, N.W.C.J. 2020: Targeted Therapy with Immunoconjugates for Multiple Myeloma. Frontiers in Immunology 11: 1155
Holzhauser, S.; Wild, N.; Zupancic, M.; Ursu, R.G.; Bersani, C.; Näsman, A.; Kostopoulou, O.N.; Dalianis, T. 2021: Targeted Therapy with PI3K and FGFR Inhibitors on Human Papillomavirus Positive and Negative Tonsillar and Base of Tongue Cancer Lines with and Without Corresponding Mutations. Frontiers in Oncology 11: 640490
Voelker, R. 2020: Targeted Therapy and Diagnostic Test for Non-Small Cell Lung Cancer. JAMA 323(23): 2364
Ma, V.T.; Haring, C.T.; Warrier, G.; Swiecicki, P.L. 2020: Targeted Therapy and Traditional Chemotherapy in Melanoma and Cutaneous Squamous Cell Carcinoma. Facial Plastic Surgery: Fps 36(2): 186-193
Rayi, A.; Alnahhas, I.; Ong, S.; Giglio, P.; Puduvalli, V.K. 2021: Targeted Therapy for BRAF Mutant Brain Tumors. Current Treatment Options in Oncology 22(11): 105
Giménez-Arnau, A.M.; Salman, A.ç 2020: Targeted Therapy for Chronıc Spontaneous Urtıcarıa: Ratıonale and Recent Progress. Drugs 80(16): 1617-1634
Noor, Z.S.; Cummings, A.L.; Johnson, M.M.; Spiegel, M.L.; Goldman, J.W. 2020: Targeted Therapy for Non-Small Cell Lung Cancer. Seminars in Respiratory and Critical Care Medicine 41(3): 409-434
Xu, M.; Song, J. 2021: Targeted Therapy in Cardiovascular Disease: a Precision Therapy Era. Frontiers in Pharmacology 12: 623674
Schmidt, M. 2020: Targeted Therapy in Metastatic Breast Cancer-Which Molecular Tests Are Necessary?. Journal für Gynakologische Endokrinologie 30(2): 64-66
Heidenreich, A.; Paffenholz, P.; Nestler, T.; Tolkach, Y.; Pfister, D. 2021: Targeted Therapy in Patients with Metastatic Male Germ Cell Tumors. Urologia Internationalis 105(7-8): 720-723
Gupta, A.; Liu, H.; Schieffer, K.M.; Koo, S.C.; Cottrell, C.E.; Mardis, E.R.; Roberts, R.D.; Yeager, N.D. 2021: Targeted Therapy in a Young Adult with a Novel Epithelioid Tumor Driven by a PRRC2B-ALK Fusion. Journal of the National Comprehensive Cancer Network: Jnccn 19(10): 1116-1121
Hescheler, D.A.; Riemann, B.; Hartmann, M.J.M.; Michel, M.; Faust, M.; Bruns, C.J.; Alakus, H.; Chiapponi, C. 2021: Targeted Therapy of Papillary Thyroid Cancer: a Comprehensive Genomic Analysis. Frontiers in Endocrinology 12: 748941
Ding, J.; Farah, M.H.; Nayfeh, T.; Malandris, K.; Manolopoulos, A.; Ginex, P.K.; Hasan, B.; Dunnack, H.; Abd-Rabu, R.; Rajjoub, M.; Prokop, L.; Morgan, R.L.; Murad, M.H. 2020: Targeted Therapy- and Chemotherapy-Associated Skin Toxicities: Systematic Review and Meta-Analysis. Oncology Nursing Forum 47(5): E149-E160
Sorenson, C.M.; Wang, S.; Darjatmoko, S.R.; Gurel, Z.; Liu, B.; Sheibani, N. 2021: Targeted Thrombospondin-1 Expression in Ocular Vascular Development and Neovascularization. Frontiers in Cell and Developmental Biology 9: 671989
Monibi, F.A.; Pannellini, T.; Croen, B.; Otero, M.; Warren, R.; Rodeo, S.A. 2022: Targeted transcriptomic analyses of RNA isolated from formalin-fixed and paraffin-embedded human menisci. Journal of Orthopaedic Research: Official Publication of the Orthopaedic Research Society 40(5): 1104-1112
Bergersen, K.V.; Barnes, A.; Worth, D.; David, C.; Wilson, E.H. 2021: Targeted Transcriptomic Analysis of C57BL/6 and BALB/c Mice During Progressive Chronic Toxoplasma gondii Infection Reveals Changes in Host and Parasite Gene Expression Relating to Neuropathology and Resolution. Frontiers in Cellular and Infection Microbiology 11: 645778
Martel, A.-C.; Elseedy, H.; Lavigne, M.; Scapula, J.; Ghestem, A.; Kremer, E.J.; Esclapez, M.; Apicella, P. 2020: Targeted Transgene Expression in Cholinergic Interneurons in the Monkey Striatum Using Canine Adenovirus Serotype 2 Vectors. Frontiers in Molecular Neuroscience 13: 76
El Marjou, F.; Jouhanneau, C.; Krndija, D. 2021: Targeted Transgenic Mice Using CRISPR /Cas9 Technology. Methods in Molecular Biology 2214: 125-141
Kawamura, Y.; Takigawa, T.; Hyodo, A.; Suzuki, K. 2021: Targeted Transvenous Embolization of Cavernous Sinus Dural Arteriovenous Fistula with Liquid Materials Using a Dual-Lumen Balloon Microcatheter. Cureus 13(3): E13821
Young, J.A.; Tan, A.R. 2021: Targeted Treatment of Triple-Negative Breast Cancer. Cancer Journal 27(1): 50-58
Ghosh, S.; Das, T.; Suman, S.K.; Kumar, C.; Sarma, H.D.; Dash, A. 2020: Targeted Tumor Therapy with Radiolabeled DNA Intercalator: a Possibility? Preclinical Investigations with 177Lu-Acridine. Biomed Research International 2020: 9514357
Müller, T.R.; Jarosch, S.; Hammel, M.; Leube, J.; Grassmann, S.; Bernard, B.; Effenberger, M.; Andrä, I.; Chaudhry, M.Z.; Käuferle, T.; Malo, A.; Cicin-Sain, L.; Steinberger, P.; Feuchtinger, T.; Protzer, U.; Schumann, K.; Neuenhahn, M.; Schober, K.; Busch, D.H. 2021: Targeted T cell receptor gene editing provides predictable T cell product function for immunotherapy. Cell Reports. Medicine 2(8): 100374
Diakova, G.B.; Du, Z.; Klibanov, A.L. 2020: Targeted Ultrasound Contrast Imaging of Tumor Vasculature with Positively Charged Microbubbles. Investigative Radiology 55(11): 736-740
Borgne-Sanchez, A.; Dupont, S.; Langonné, A.; Baux, L.; Lecoeur, H.; Chauvier, D.; Lassalle, M.; Déas, O.; Brière, J-J.; Brabant, M.; Roux, P.; Péchoux, C.; Briand, J-P.; Hoebeke, J.; Deniaud, A.; Brenner, C.; Rustin, P.; Edelman, L.; Rebouillat, D.; Jacotot, E. 2007: Targeted Vpr-derived peptides reach mitochondria to induce apoptosis of alphaVbeta3-expressing endothelial cells. Cell Death and Differentiation 14(3): 422-435
Meyer, C.; Filli, L.; Stalder, S.A.; Awai Easthope, C.; Killeen, T.; von Tscharner, V.; Curt, A.; Zörner, B.ör.; Bolliger, M. 2020: Targeted Walking in Incomplete Spinal Cord Injury: Role of Corticospinal Control. Journal of Neurotrauma 37(21): 2302-2314
Acevedo, J.R.; Schlacter, J.A.; Chambers, T.N.; Jacobson, L.K.; Yalamanchili, R.; Clark, B.; Pan, D.; Kokot, N.C.; Johns, M.M. 2021: Targeted Wellness Initiatives Are Most Effective for Reducing Otolaryngology Resident Burnout. Ear Nose and Throat Journal 2021: 1455613211009139
Yuasa, K.; Okubo, K.; Yoda, M.; Otsu, K.; Ishii, Y.; Nakamura, M.; Itoh, Y.; Horiuchi, K. 2018: Targeted ablation of p38α MAPK suppresses denervation-induced muscle atrophy. Scientific Reports 8(1): 9037
Thadhani, R. 2008: Targeted ablation of the vitamin D 1alpha-hydroxylase gene: getting to the heart of the matter. Kidney International 74(2): 141-143
Chen, F.; Ding, X.; Feng, Y.; Seebeck, T.; Jiang, Y.; Davis, G.D. 2017: Targeted activation of diverse CRISPR-Cas systems for mammalian genome editing via proximal CRISPR targeting. Nature Communications 8: 14958
Smith, A.S.; Williams Avram, S.K.; Cymerblit-Sabba, A.; Song, J.; Young, W.S. 2016: Targeted activation of the hippocampal CA2 area strongly enhances social memory. Molecular Psychiatry 21(8): 1137-1144
Moccia, M.; Yang, D.; Lakkaniga, N.Rajiv.; Frett, B.; McConnell, N.; Zhang, L.; Brescia, A.; Federico, G.; Zhang, L.; Salerno, P.; Santoro, M.; Li, H-Yu.; Carlomagno, F. 2021: Targeted activity of the small molecule kinase inhibitor Pz-1 towards RET and TRK kinases. Scientific Reports 11(1): 16103
Paquette-Smith, M.; Cooper, A.; Johnson, E.K. 2021: Targeted adaptation in infants following live exposure to an accented talker. Journal of Child Language 48(2): 325-349
Neufeld, Z.; Khataee, H.; Czirok, A. 2020: Targeted adaptive isolation strategy for COVID-19 pandemic. Infectious Disease Modelling 5: 357-361
Zeng, B.; Zhou, M.; Liu, B.; Shen, F.; Xiao, R.; Su, J.; Hu, Z.; Zhang, Y.; Gu, A.; Wu, L.; Liu, X.; Liang, D. 2021: Targeted addition of mini-dystrophin into rDNA locus of Duchenne muscular dystrophy patient-derived iPSCs. Biochemical and Biophysical Research Communications 545: 40-45
Bartlett, J.S.; Kleinschmidt, J.; Boucher, R.C.; Samulski, R.J. 1999: Targeted adeno-associated virus vector transduction of nonpermissive cells mediated by a bispecific F(ab'gamma)2 antibody. Nature Biotechnology 17(2): 181-186
Luke, J.J.; Flaherty, K.T.; Ribas, A.; Long, G.V. 2017: Targeted agents and immunotherapies: optimizing outcomes in melanoma. Nature Reviews. Clinical Oncology 14(8): 463-482
Acunha, T.; Nardini, V.; Peti, A.P.F.; Prado, M.K.B.; Moraes, L.A.B.; Faccioli, L.úc.H. 2021: Targeted analysis of eicosanoids derived from cytochrome P450 pathway by high-resolution multiple-reaction monitoring mass spectrometry. Journal of Mass Spectrometry: Jms 56(7): E4769
Wang, Z.; Yang, J.; Yang, Y.; Pu, X.; Zhao, J.; Zhang, N. 2020: Targeted and Combined TPCA-1-Gold Nanocage Therapy for in Vivo Treatment of Inflammatory Arthritis. Aaps Pharmscitech 21(8): 298
Erber, L.; Luo, A.; Chen, Y. 2019: Targeted and Interactome Proteomics Revealed the Role of PHD2 in Regulating BRD4 Proline Hydroxylation. Molecular and Cellular Proteomics: Mcp 18(9): 1772-1781
Li, J.; Shang, L.; Lan, J.; Chou, S.; Feng, X.; Shi, B.; Wang, J.; Lyu, Y.; Shan, A. 2020: Targeted and Intracellular Antibacterial Activity against S. agalactiae of the Chimeric Peptides Based on Pheromone and Cell-Penetrating Peptides. Acs Applied Materials and Interfaces 12(40): 44459-44474
Wang, X.; Qiu, M.; Deng, C.; Cheng, R.; Zhong, Z. 2020: Targeted and Reduction-Sensitive Cross-Linked PLGA Nanotherapeutics for Safer and Enhanced Chemotherapy of Malignant Melanoma. Acs Biomaterials Science and Engineering 6(5): 2621-2629
Kirn, D.H.; Thorne, S.H. 2009: Targeted and armed oncolytic poxviruses: a novel multi-mechanistic therapeutic class for cancer. Nature Reviews. Cancer 9(1): 64-71
Pavelka, K. 2021: Targeted and biological drugs in the treatment of inflammatory rheumatic diseases. Vnitrni Lekarstvi 67(4): 195-200
Patel, S.A.; Litzow, M.R.; Cerny, J. 2021: Targeted and cytotoxic therapies as maintenance treatment for non-transplant eligible patients with acute myeloid leukemia. Blood Reviews 50: 100863
Li, X.; Yang, F.; Zhou, W.; Yuan, R.; Xiang, Y. 2020: Targeted and direct intracellular delivery of native DNAzymes enables highly specific gene silencing. Chemical Science 11(33): 8966-8972
Ball, M.P.; Li, J.Billy.; Gao, Y.; Lee, J-Hyuk.; LeProust, E.M.; Park, I-Hyun.; Xie, B.; Daley, G.Q.; Church, G.M. 2009: Targeted and genome-scale strategies reveal gene-body methylation signatures in human cells. Nature Biotechnology 27(4): 361-368
Yang, L.; Grishin, D.; Wang, G.; Aach, J.; Zhang, C-Zhong.; Chari, R.; Homsy, J.; Cai, X.; Zhao, Y.; Fan, J-Bing.; Seidman, C.; Seidman, J.; Pu, W.; Church, G. 2014: Targeted and genome-wide sequencing reveal single nucleotide variations impacting specificity of Cas9 in human stem cells. Nature Communications 5: 5507
Klajer, E.; Garnier, L.; Goujon, M.; Schlurmann-Constans, F.; Mery, B.; Nguyen Tan Hon, T.; Mouillet, G.; Calcagno, F.; Thiery-Vuillemin, A. 2020: Targeted and immune therapies among patients with metastatic renal carcinoma undergoing hemodialysis: a systemic review. Seminars in Oncology 47(2-3): 103-116
Tang, F.; Tie, Y.; Wei, Y.-Q.; Tu, C.-Q.; Wei, X.-W. 2021: Targeted and immuno-based therapies in sarcoma: mechanisms and advances in clinical trials. Biochimica et Biophysica Acta. Reviews on Cancer 1876(2): 188606
Catanese, S.; Lordick, F. 2021: Targeted and immunotherapy in the era of personalised gastric cancer treatment. Best Practice and Research. Clinical Gastroenterology: 50-51: 101738
Yan, Y.; Zhou, L.; Sun, Z.; Song, D.; Cheng, Y. 2022: Targeted and intracellular delivery of protein therapeutics by a boronated polymer for the treatment of bone tumors. Bioactive Materials 7: 333-340
Ediriweera, G.R.; Simpson, J.D.; Fuchs, A.V.; Venkatachalam, T.K.; Van De Walle, M.; Howard, C.B.; Mahler, S.M.; Blinco, J.P.; Fletcher, N.L.; Houston, Z.H.; Bell, C.A.; Thurecht, K.J. 2020: Targeted and modular architectural polymers employing bioorthogonal chemistry for quantitative therapeutic delivery. Chemical Science 11(12): 3268-3280
Teehan, P.; Schall, M.K.; Blazer, V.S.; Dorman, F.L. 2022: Targeted and non-targeted analysis of young-of-year smallmouth bass using comprehensive two-dimensional gas chromatography coupled with time-of-flight mass spectrometry. Science of the Total Environment 806(Part 2): 150378
Manz, K.E.; Yamada, K.; Scheidl, L.; La Merrill, M.A.; Lind, L.; Pennell, K.D. 2021: Targeted and Nontargeted Detection and Characterization of Trace Organic Chemicals in Human Serum and Plasma Using QuEChERS Extraction. Toxicological Sciences: An Official Journal of the Society of Toxicology 185(1): 77-88
Wang, T.; Duedahl-Olesen, L.; Lauritz Frandsen, H. 2021: Targeted and non-targeted unexpected food contaminants analysis by LC/HRMS: Feasibility study on rice. Food Chemistry 338: 127957
Huang, A.; Jiang, Z.; Tao, M.; Wen, M.; Xiao, Z.; Zhang, L.; Zha, M.; Chen, J.; Liu, Z.; Zhang, L. 2021: Targeted and nontargeted metabolomics analysis for determining the effect of storage time on the metabolites and taste quality of keemun black tea. Food Chemistry 359: 129950
Blackman, R.C.; Ling, K.K.S.; Harper, L.R.; Shum, P.; Hänfling, B.; Lawson-Handley, L. 2020: Targeted and passive environmental DNA approaches outperform established methods for detection of quagga mussels, Dreissena rostriformis bugensis in flowing water. Ecology and Evolution 10(23): 13248-13259
Oliva, E.; Viteritti, E.; Fanti, F.; Eugelio, F.; Pepe, A.; Palmieri, S.; Sergi, M.; Compagnone, D. 2021: Targeted and semi-untargeted determination of phenolic compounds in plant matrices by high performance liquid chromatography-tandem mass spectrometry. Journal of Chromatography. a 1651: 462315
Liu, L.; Aljathelah, N.M.; Hassan, H.; Giraldes, B.W.; Leitão, A.; Bayen, S.ép. 2021: Targeted and suspect screening of contaminants in coastal water and sediment samples in Qatar. Science of the Total Environment 774: 145043
Demirtepe, H.; Melymuk, L.; Codling, G.; Murínová, Ľu.P.čo.á; Richterová, D.; Rašplová, V.ír.; Trnovec, T.áš; Klánová, J. 2021: Targeted and suspect screening of plasticizers in house dust to assess cumulative human exposure risk. Science of the Total Environment 781: 146667
Xue, L.; Wang, D.; Zhang, X.; Xu, S.; Zhang, N. 2020: Targeted and triple therapy-based liposomes for enhanced treatment of rheumatoid arthritis. International Journal of Pharmaceutics 586: 119642
Melamed, R.; Shemer-Avni, Y.; Shany, E.; Kurtzman, L.; Gorali, R.; Landau, D. 2020: Targeted and universal screen in term and preterm infants for congenital CMV infection. Infectious Diseases 52(10): 730-735
Jones, D.D.; Caesar, L.K.; Pelzer, C.V.; Crandall, W.J.; Jenul, C.; Todd, D.A.; Horswill, A.R.; Cech, N.B. 2020: Targeted and untargeted analysis of secondary metabolites to monitor growth and quorum sensing inhibition for methicillin-resistant Staphylococcus aureus (MRSA). Journal of Microbiological Methods 176: 106000
Hergueta-Castillo, M.ía.E.; López-Rodríguez, E.ón.; López-Ruiz, R.ía.; Romero-González, R.; Garrido Frenich, A. 2022: Targeted and untargeted analysis of triazole fungicides and their metabolites in fruits and vegetables by UHPLC-orbitrap-MS2. Food Chemistry 368: 130860
Montone, C.M.; Aita, S.E.; Cannazza, G.; Cavaliere, C.; Cerrato, A.; Citti, C.; Mondello, L.; Piovesana, S.; Laganà, A.; Capriotti, A.L. 2021: Targeted and untargeted characterization of underivatized policosanols in hemp inflorescence by liquid chromatography-high resolution mass spectrometry. Talanta 235: 122778
Peñalver, R.; Arroyo-Manzanares, N.; Campillo, N.; Viñas, P. 2021: Targeted and untargeted gas chromatography-mass spectrometry analysis of honey samples for determination of migrants from plastic packages. Food Chemistry 334: 127547
Eudy, B.J.; McDermott, C.E.; Liu, X.; da Silva, R.P. 2020: Targeted and untargeted metabolomics provide insight into the consequences of glycine-N-methyltransferase deficiency including the novel finding of defective immune function. Physiological reports 8(18): e14576
Jackson, J.R.; Patrick, D.R.; Dar, M.M.; Huang, P.S. 2007: Targeted anti-mitotic therapies: can we improve on tubulin agents?. Nature Reviews. Cancer 7(2): 107-117
Hall, M.; Gourley, C.; McNeish, I.; Ledermann, J.; Gore, M.; Jayson, G.; Perren, T.; Rustin, G.; Kaye, S. 2013: Targeted anti-vascular therapies for ovarian cancer: current evidence. British Journal of Cancer 108(2): 250-258
Melo, J.S.; Aragie, S.; Chernet, A.; Tadesse, Z.; Dagnew, A.; Hailu, D.; Haile, M.; Zeru, T.ày.; Wittberg, D.M.; Nash, S.D.; Callahan, E.K.; Arnold, B.F.; Porco, T.C.; Lietman, T.M.; Keenan, J.D. 2021: Targeted Antibiotics for Trachoma: a Cluster-Randomized Trial. Clinical Infectious Diseases: An Official Publication of the Infectious Diseases Society of America 73(6): 979-986
Roozbehi, S.; Dadashzadeh, S.; Mirshahi, M.; Sadeghizadeh, M.; Sajedi, R.H. 2020: Targeted anticancer prodrug therapy using dextran mediated enzyme-antibody conjugate and β-cyclodextrin-curcumin inclusion complex. International Journal of Biological Macromolecules 160: 1029-1041
Chattergoon, M.A.; Kim, J.J.; Yang, J.S.; Robinson, T.M.; Lee, D.J.; Dentchev, T.; Wilson, D.M.; Ayyavoo, V.; Weiner, D.B. 2000: Targeted antigen delivery to antigen-presenting cells including dendritic cells by engineered Fas-mediated apoptosis. Nature Biotechnology 18(9): 974-979
Volckmar, J.; Gereke, M.; Ebensen, T.; Riese, P.; Philipsen, L.; Lienenklaus, S.; Wohlleber, D.; Klopfleisch, R.; Stegemann-Koniszewski, S.; Müller, A.J.; Gruber, A.D.; Knolle, P.; Guzman, C.A.; Bruder, D. 2017: Targeted antigen delivery to dendritic cells elicits robust antiviral T cell-mediated immunity in the liver. Scientific Reports 7: 43985
Donnelly, E.T. 2005: Targeted antioxidant delivery prolongs sperm lifespan. Nature Chemical Biology 1(5): 248-249
Ranson, M.; Jayson, G. 2005: Targeted antitumour therapy--future perspectives. British Journal of Cancer 92 Suppl. 1: S28-S31
Chowdhury, S.Roy.; Ray, U.; Chatterjee, B.P.; Roy, S.S. 2017: Targeted apoptosis in ovarian cancer cells through mitochondrial dysfunction in response to Sambucus nigra agglutinin. Cell Death and Disease 8(5): E2762
Deng, C.; Zhang, Q.; He, P.; Zhou, B.; He, K.; Sun, X.; Lei, G.; Gong, T.; Zhang, Z. 2021: Targeted apoptosis of macrophages and osteoclasts in arthritic joints is effective against advanced inflammatory arthritis. Nature Communications 12(1): 2174
Doerfler, P.A.; Nayak, S.; Corti, M.; Morel, L.; Herzog, R.W.; Byrne, B.J. 2016: Targeted approaches to induce immune tolerance for Pompe disease therapy. Molecular Therapy. Methods and Clinical Development 3: 15053
Guhathakurta, S.; Kim, J.; Adams, L.; Basu, S.; Song, M.K.; Adler, E.; Je, G.; Fiadeiro, M.B.; Kim, Y.-S. 2021: Targeted attenuation of elevated histone marks at SNCA alleviates α-synuclein in Parkinson's disease. Embo Molecular Medicine 13(2): E12188
Gurleyik, G.; Aksu, S.A.; Aker, F.üg.; Tekyol, K.K.; Tanrikulu, E.; Gurleyik, E. 2021: Targeted axillary biopsy and sentinel lymph node biopsy for axillary restaging after neoadjuvant chemotherapy. Annals of Surgical Treatment and Research 100(6): 305-312
Sasaki, T.; Matsuki, N.; Ikegaya, Y. 2012: Targeted axon-attached recording with fluorescent patch-clamp pipettes in brain slices. Nature Protocols 7(6): 1228-1234
Shimatani, Z.; Kashojiya, S.; Takayama, M.; Terada, R.; Arazoe, T.; Ishii, H.; Teramura, H.; Yamamoto, T.; Komatsu, H.; Miura, K.; Ezura, H.; Nishida, K.; Ariizumi, T.; Kondo, A. 2017: Targeted base editing in rice and tomato using a CRISPR-Cas9 cytidine deaminase fusion. Nature Biotechnology 35(5): 441-443
Liu, H.; Agarwal, S.; Kmiec, E.; Davis, B.R. 2002: Targeted beta-globin gene conversion in human hematopoietic CD34(+ )and Lin(-)CD38(-)cells. Gene Therapy 9(2): 118-126
Kadian, S.; Manik, G.; Das, N.; Roy, P. 2020: Targeted bioimaging and sensing of folate receptor-positive cancer cells using folic acid-conjugated sulfur-doped graphene quantum dots. Mikrochimica Acta 187(8): 458
Parashar, D.; Geethadevi, A.; McAllister, D.; Ebben, J.; Peterson, F.C.; Jensen, D.R.; Bishop, E.; Pradeep, S.; Volkman, B.F.; Dwinell, M.B.; Chaluvally-Raghavan, P.; James, M.A. 2021: Targeted biologic inhibition of both tumor cell-intrinsic and intercellular CLPTM1L/CRR9-mediated chemotherapeutic drug resistance. Npj Precision Oncology 5(1): 16
Pu, W.; Wang, C.; Chen, S.; Zhao, D.; Zhou, Y.; Ma, Y.; Wang, Y.; Li, C.; Huang, Z.; Jin, L.; Guo, S.; Wang, J.; Wang, M. 2017: Targeted bisulfite sequencing identified a panel of DNA methylation-based biomarkers for esophageal squamous cell carcinoma (ESCC). Clinical Epigenetics 9: 129
Shi, J.; Feng, J.; Xie, J.; Mei, Z.; Shi, T.; Wang, S.; Du, Y.; Yang, G.; Wu, Y.; Cheng, X.; Li, S.; Zhu, L.; Yang, C.S.; Tu, S.; Jie, Z. 2017: Targeted blockade of TGF-β and IL-6/JAK2/STAT3 pathways inhibits lung cancer growth promoted by bone marrow-derived myofibroblasts. Scientific Reports 7(1): 8660
Itzhaki, J.E.; Barnett, M.A.; MacCarthy, A.B.; Buckle, V.J.; Brown, W.R.; Porter, A.C. 1992: Targeted breakage of a human chromosome mediated by cloned human telomeric DNA. Nature Genetics 2(4): 283-287
Garaschuk, O.; Milos, R-Iulia.; Konnerth, A. 2006: Targeted bulk-loading of fluorescent indicators for two-photon brain imaging in vivo. Nature Protocols 1(1): 380-386
Kim, K-Do.; Bae, S.; Capece, T.; Nedelkovska, H.; de Rubio, R.G.; Smrcka, A.V.; Jun, C-Duk.; Jung, W.; Park, B.; Kim, T-Il.; Kim, M. 2017: Targeted calcium influx boosts cytotoxic T lymphocyte function in the tumour microenvironment. Nature Communications 8: 15365
Tenedini, E.; Bernardis, I.; Artusi, V.; Artuso, L.; Roncaglia, E.; Guglielmelli, P.; Pieri, L.; Bogani, C.; Biamonte, F.; Rotunno, G.; Mannarelli, C.; Bianchi, E.; Pancrazzi, A.; Fanelli, T.; Malagoli Tagliazucchi, G.; Ferrari, S.; Manfredini, R.; Vannucchi, A.M.; Tagliafico, E. 2014: Targeted cancer exome sequencing reveals recurrent mutations in myeloproliferative neoplasms. Leukemia 28(5): 1052-1059
Dias, J.D.; Hemminki, O.; Diaconu, I.; Hirvinen, M.; Bonetti, A.; Guse, K.; Escutenaire, S.; Kanerva, A.; Pesonen, S.; Löskog, A.; Cerullo, V.; Hemminki, A. 2012: Targeted cancer immunotherapy with oncolytic adenovirus coding for a fully human monoclonal antibody specific for CTLA-4. Gene Therapy 19(10): 988-998
Mann, D.L. 2006: Targeted cancer therapeutics: the heartbreak of success. Nature Medicine 12(8): 881-882
O'Connor, M.J.; Martin, N.M.B.; Smith, G.C.M. 2007: Targeted cancer therapies based on the inhibition of DNA strand break repair. Oncogene 26(56): 7816-7824
Stegmeier, F.; Warmuth, M.; Sellers, W.R.; Dorsch, M. 2010: Targeted cancer therapies in the twenty-first century: lessons from imatinib. Clinical Pharmacology and Therapeutics 87(5): 543-552
Wodarz, D. 2006: Targeted cancer treatment: resisting arrest. Nature Medicine 12(10): 1125-1126
Ng, S.B.; Turner, E.H.; Robertson, P.D.; Flygare, S.D.; Bigham, A.W.; Lee, C.; Shaffer, T.; Wong, M.; Bhattacharjee, A.; Eichler, E.E.; Bamshad, M.; Nickerson, D.A.; Shendure, J. 2009: Targeted capture and massively parallel sequencing of 12 human exomes. Nature 461(7261): 272-276
Elliott, I.; Thangnimitchok, N.; de Cesare, M.; Linsuwanon, P.; Paris, D.H.; Day, N.P.J.; Newton, P.N.; Bowden, R.; Batty, E.M. 2021: Targeted capture and sequencing of Orientia tsutsugamushi genomes from chiggers and humans. Infection Genetics and Evolution: Journal of Molecular Epidemiology and Evolutionary Genetics in Infectious Diseases 91: 104818
Jiang, W.; Wang, X.; Li, R.; Wang, P.; Shan, G.; Jia, X.; Gu, M. 2021: Targeted capture sequencing identifies genetic variations of GRK4 and RDH8 in Han Chinese with essential hypertension in Xinjiang. Plos one 16(7): E0255311
Christmas, M.J.; Biffin, E.; Breed, M.F.; Lowe, A.J. 2017: Targeted capture to assess neutral genomic variation in the narrow-leaf hopbush across a continental biodiversity refugium. Scientific Reports 7: 41367
Chakravarti, A.; Butler-Laporte, G.; Carrier, F.M.; Bilodeau, M.; Huard, G.; Corsilli, D.; Savard, P.; Luong, M.-L. 2021: Targeted caspofungin prophylaxis for invasive aspergillosis in high-risk liver transplant recipients, a single-center experience. Transplant Infectious Disease: An Official Journal of the Transplantation Society 23(4): E13568
Funke, S.; Maisner, A.; Mühlebach, M.D.; Koehl, U.; Grez, M.; Cattaneo, R.; Cichutek, K.; Buchholz, C.J. 2008: Targeted cell entry of lentiviral vectors. Molecular Therapy: the Journal of the American Society of Gene Therapy 16(8): 1427-1436
Li, H.; Jin, Y.; Zhao, Y.; Li, W.; He, Z.; Zhang, Q.; Huang, H.; Lin, J.; Chen, Y.; Xing, D.; Du, Y.; Lin, J. 2021: Targeted cell therapy for partial-thickness cartilage defects using membrane modified mesenchymal stem cells by transglutaminase 2. Biomaterials 275: 120994
Ivey, J.W.; Latouche, E.L.; Sano, M.B.; Rossmeisl, J.H.; Davalos, R.V.; Verbridge, S.S. 2015: Targeted cellular ablation based on the morphology of malignant cells. Scientific Reports 5: 17157
Palomero, T.; Ferrando, A. 2017: Targeted cellular immunotherapy for T cell malignancies. Nature Medicine 23(12): 1402-1403
Löhr, M.; Müller, P.; Karle, P.; Stange, J.; Mitzner, S.; Jesnowski, R.; Nizze, H.; Nebe, B.; Liebe, S.; Salmons, B.; Günzburg, W.H. 1998: Targeted chemotherapy by intratumour injection of encapsulated cells engineered to produce CYP2B1, an ifosfamide activating cytochrome P450. Gene Therapy 5(8): 1070-1078
Zou, Y.; Wei, J.; Xia, Y.; Meng, F.; Yuan, J.; Zhong, Z. 2018: Targeted chemotherapy for subcutaneous and orthotopic non-small cell lung tumors with cyclic RGD-functionalized and disulfide-crosslinked polymersomal doxorubicin. Signal Transduction and Targeted Therapy 3: 32
Birkhoff, J.C.; Brouwer, R.W.W.; Kolovos, P.; Korporaal, A.L.; Bermejo-Santos, A.; Boltsis, I.; Nowosad, K.; van den Hout, M.C.G.N.; Grosveld, F.G.; van IJcken, W.F.J.; Huylebroeck, D.; Conidi, A. 2020: Targeted chromatin conformation analysis identifies novel distal neural enhancers of ZEB2 in pluripotent stem cell differentiation. Human Molecular Genetics 29(15): 2535-2550
Matsumura, H.; Tada, M.; Otsuji, T.; Yasuchika, K.; Nakatsuji, N.; Surani, A.; Tada, T. 2007: Targeted chromosome elimination from ES-somatic hybrid cells. Nature Methods 4(1): 23-25
Moghadam, P.Z.; Li, A.; Liu, X.-W.; Bueno-Perez, R.; Wang, S.-D.; Wiggin, S.B.; Wood, P.A.; Fairen-Jimenez, D. 2020: Targeted classification of metal-organic frameworks in the Cambridge structural database (CSD). Chemical Science 11(32): 8373-8387
Poblocka, M.; Bassey, A.Leonard.; Smith, V.M.; Falcicchio, M.; Manso, A.Sousa.; Althubiti, M.; Sheng, X.; Kyle, A.; Barber, R.; Frigerio, M.; Macip, S. 2021: Targeted clearance of senescent cells using an antibody-drug conjugate against a specific membrane marker. Scientific Reports 11(1): 20358
Colas des Francs-Small, C.; Vincis Pereira Sanglard, L.; Small, I. 2018: Targeted cleavage of nad6 mRNA induced by a modified pentatricopeptide repeat protein in plant mitochondria. Communications Biology 1: 166
Sabzi, A.; Rahmani, A.; Edalati, M.; Kahroba, H.; Dadpour, M.R.; Salehi, R.; Zarebkohan, A. 2020: Targeted co-delivery of curcumin and doxorubicin by citric acid functionalized Poly (ε-caprolactone) based micelle in MDA-MB-231 cell. Colloids and Surfaces. B Biointerfaces 194: 111225
Kang, T.Heung.; Ma, B.; Wang, C.; Wu, T-C.; Hung, C-Fu. 2013: Targeted coating with antigenic peptide renders tumor cells susceptible to CD8(+) T cell-mediated killing. Molecular Therapy: the Journal of the American Society of Gene Therapy 21(3): 542-553
Ahmad, R.; Chaturvedi, R.; Olivares-Villagómez, D.; Habib, T.; Asim, M.; Shivesh, P.; Polk, D.B.; Wilson, K.T.; Washington, M.K.; Van Kaer, L.; Dhawan, P.; Singh, A.B. 2014: Targeted colonic claudin-2 expression renders resistance to epithelial injury, induces immune suppression, and protects from colitis. Mucosal Immunology 7(6): 1340-1353
Killock, D. 2018: Targeted combination has synergy in MCL. Nature Reviews. Clinical Oncology 15(7): 404
Bu, L.; Gao, X.; Jiang, X.; Chien, K.R.; Wang, Z. 2010: Targeted conditional gene knockout in human embryonic stem cells. Cell Research 20(3): 379-382
Frandsen, P.; Fontsere, C.; Nielsen, S.Vendelbo.; Hanghøj, K.; Castejon-Fernandez, N.; Lizano, E.; Hughes, D.; Hernandez-Rodriguez, J.; Korneliussen, T.Sand.; Carlsen, F.; Siegismund, H.Redlef.; Mailund, T.; Marques-Bonet, T.; Hvilsom, C. 2020: Targeted conservation genetics of the endangered chimpanzee. Heredity 125(1-2): 15-27
Nakamura, M.; Ando, Y.; Nagahara, S.; Sano, A.; Ochiya, T.; Maeda, S.; Kawaji, T.; Ogawa, M.; Hirata, A.; Terazaki, H.; Haraoka, K.; Tanihara, H.; Ueda, M.; Uchino, M.; Yamamura, K. 2004: Targeted conversion of the transthyretin gene in vitro and in vivo. Gene Therapy 11(10): 838-846
Ho, D.; Chan, E.; Campbell, D.; Wake, E.; Walters, K.; Bulmer, A.C.; McCullough, J.; Wullschleger, M.; Winearls, J. 2020: Targeted cryoprecipitate transfusion in severe traumatic haemorrhage. Injury 51(9): 1949-1955
Stevens, A.M.; Saleem, M.; Deal, B.; Janjic, J.; Pollock, J.A. 2020: Targeted cyclooxygenase-2 inhibiting nanomedicine results in pain-relief and differential expression of the RNA transcriptome in the dorsal root ganglia of injured male rats. Molecular Pain 16: 1744806920943309
Morgan, M.A.; Lange, L.; Schambach, A. 2021: Targeted cytokine delivery: cell therapy to remodel the pre-metastatic niche. Signal Transduction and Targeted Therapy 6(1): 282
Kiaris, H.; Schally, A.V.; Nagy, A.; Sun, B.; Armatis, P.; Szepeshazi, K. 1999: Targeted cytotoxic analogue of bombesin/gastrin-releasing peptide inhibits the growth of H-69 human small-cell lung carcinoma in nude mice. British Journal of Cancer 81(6): 966-971
Baxter, P.S.; Márkus, Nóra.M.; Dando, O.; He, X.; Al-Mubarak, B.R.; Qiu, J.; Hardingham, G.E. 2021: Targeted de-repression of neuronal Nrf2 inhibits α-synuclein accumulation. Cell Death and Disease 12(2): 218
L'Episcopia, M.; Kelley, J.; Djeunang Dongho, B.G.; Patel, D.; Schmedes, S.; Ravishankar, S.; Perrotti, E.; Modiano, D.; Lucchi, N.W.; Russo, G.; Talundzic, E.; Severini, C. 2021: Targeted deep amplicon sequencing of antimalarial resistance markers in Plasmodium falciparum isolates from Cameroon. International Journal of Infectious Diseases: Ijid: Official Publication of the International Society for Infectious Diseases 107(8): 234-241
L'Episcopia, M.; Kelley, J.; Djeunang Dongho, B.G.; Patel, D.; Schmedes, S.; Ravishankar, S.; Perrotti, E.; Modiano, D.; Lucchi, N.W.; Russo, G.; Talundzic, E.; Severini, C. 2021: Targeted deep amplicon sequencing of antimalarial resistance markers in Plasmodium falciparum isolates from Cameroon. International Journal of Infectious Diseases: Ijid: Official Publication of the International Society for Infectious Diseases 107: 234-241
Schiessl, S.; Huettel, B.; Kuehn, D.; Reinhardt, R.; Snowdon, R.J. 2017: Targeted deep sequencing of flowering regulators in Brassica napus reveals extensive copy number variation. Scientific Data 4: 170013
Hyeon, J.; Lee, B.; Shin, S-Hyun.; Yoo, H.Yong.; Kim, S.Jin.; Kim, W.Seog.; Park, W-Yang.; Ko, Y-Hyeh. 2018: Targeted deep sequencing of gastric marginal zone lymphoma identified alterations of TRAF3 and TNFAIP3 that were mutually exclusive for MALT1 rearrangement. Modern Pathology: An Official Journal of the United States and Canadian Academy of Pathology Inc 31(9): 1418-1428
Stamatopoulos, B.; Timbs, A.; Bruce, D.; Smith, T.; Clifford, R.; Robbe, P.; Burns, A.; Vavoulis, D.V.; Lopez, L.; Antoniou, P.; Mason, J.; Dreau, H.; Schuh, A. 2017: Targeted deep sequencing reveals clinically relevant subclonal IgHV rearrangements in chronic lymphocytic leukemia. Leukemia 31(4): 837-845
Marçais, A.; Lhermitte, L.; Artesi, M.; Laurent, Cécile.; Durkin, K.; Hahaut, V.; Rosewick, N.; Suarez, F.; Sibon, D.; Cheminant, M.; Avettand-Fenoel, V.; Bruneau, J.; Georges, M.; Pique, C.; Van den Broeke, A.; Asnafi, V.; Hermine, O. 2021: Targeted deep sequencing reveals clonal and subclonal mutational signatures in Adult T-cell leukemia/lymphoma and defines an unfavorable indolent subtype. Leukemia 35(3): 764-776
Arnold, A.Marie.; Morak, M.; Benet-Pagès, A.; Laner, A.; Frishman, D.; Holinski-Feder, E. 2020: Targeted deep-intronic sequencing in a cohort of unexplained cases of suspected Lynch syndrome. European Journal of Human Genetics: Ejhg 28(5): 597-608
Zhou, Z.; Long, J.; Wang, Y.; Li, Y.; Zhang, X.; Tang, L.; Chang, Q.; Chen, Z.; Hu, G.; Hu, S.; Li, Q.; Peng, C.; Chen, X. 2020: Targeted degradation of CD147 proteins in melanoma. Bioorganic Chemistry 105: 104453
Más, P.; Kim, W-Yeon.; Somers, D.E.; Kay, S.A. 2003: Targeted degradation of TOC1 by ZTL modulates circadian function in Arabidopsis thaliana. Nature 426(6966): 567-570
Ding, S.; Wan, J.; Ma, Y.; Wang, Y.; Li, X.; Sun, J.; Pu, M. 2021: Targeted degradation of dimethyl phthalate by activating persulfate using molecularly imprinted Fe-MOF-74. Chemosphere 270: 128620
Xu, J.; Brosseau, J-Philippe.; Shi, H. 2020: Targeted degradation of immune checkpoint proteins: emerging strategies for cancer immunotherapy. Oncogene 39(48): 7106-7113
Li, X.; Yang, B.; Xiao, K.; Duan, H.; Wan, J.; Zhao, H. 2021: Targeted degradation of refractory organic compounds in wastewaters based on molecular imprinting catalysts. Water Research 203: 117541
Mullard, A. 2020: Targeted degraders clear first safety hurdles. Nature Reviews. Drug Discovery 19(7): 435
Nishino, K.; Nishida, A.; Inatomi, O.; Imai, T.; Kume, S.; Kawahara, M.; Maegawa, H.; Andoh, A. 2021: Targeted deletion of Atg5 in intestinal epithelial cells promotes dextran sodium sulfate-induced colitis. Journal of Clinical Biochemistry and Nutrition 68(2): 156-163
Tang, Q.; Xie, M.-Y.; Zhang, Y.-L.; Xue, R.-Y.; Zhu, X.-H.; Yang, H. 2021: Targeted deletion of Atoh8 results in severe hearing loss in mice. Genesis 59(9): E23442
Shin, J-Min.; Choi, D-Kyoung.; Sohn, K-Cheol.; Kim, J-Young.; Im, M.; Lee, Y.; Seo, Y-Joon.; Shong, M.; Lee, J-Hoon.; Kim, C.Deok. 2017: Targeted deletion of Crif1 in mouse epidermis impairs skin homeostasis and hair morphogenesis. Scientific Reports 7: 44828
Frantz, A.L.; Rogier, E.W.; Weber, C.R.; Shen, L.; Cohen, D.A.; Fenton, L.A.; Bruno, M.E.C.; Kaetzel, C.S. 2012: Targeted deletion of MyD88 in intestinal epithelial cells results in compromised antibacterial immunity associated with downregulation of polymeric immunoglobulin receptor, mucin-2, and antibacterial peptides. Mucosal Immunology 5(5): 501-512
Thallas-Bonke, V.; Tan, S.M.; Lindblom, R.S.; Snelson, M.; Granata, C.; Jha, J.C.; Sourris, K.C.; Laskowski, A.; Watson, A.; Tauc, M.; Rubera, I.; Zheng, G.; Shah, A.M.; Harris, D.C.H.; Elbatreek, M.H.; Kantharidis, P.; Cooper, M.E.; Jandeleit-Dahm, K.; Coughlan, M.T. 2021: Targeted deletion of nicotinamide adenine dinucleotide phosphate oxidase 4 from proximal tubules is dispensable for diabetic kidney disease development. Nephrology Dialysis Transplantation: Official Publication of the European Dialysis and Transplant Association - European Renal Association 36(6): 988-997
Koch, S.; Knipfer, L.; Kölle, J.; Mirzakhani, H.; Graser, A.; Zimmermann, T.; Kiefer, A.; Melichar, V.O.; Rascher, W.; Papadopoulos, N.G.; Rieker, R.J.; Raby, B.A.; Weiss, S.T.; Wirtz, S.; Finotto, S. 2019: Targeted deletion of NFAT-Interacting-Protein-(NIP) 45 resolves experimental asthma by inhibiting Innate Lymphoid Cells group 2 (ILC2). Scientific Reports 9(1): 15695
Van, C.; Condro, M.C.; Ko, H.H.; Hoang, A.Q.; Zhu, R.; Lov, K.; Ricaflanca, P.T.; Diep, A.L.; Nguyen, N.N.M.; Lipshutz, G.S.; MacKenzie-Graham, A.; Waschek, J.A. 2021: Targeted deletion of PAC1 receptors in retinal neurons enhances neuron loss and axonopathy in a model of multiple sclerosis and optic neuritis. Neurobiology of Disease 160: 105524
Dafinger, C.; Benzing, T.; Dötsch, J.ör.; Schermer, B.; Liebau, M.C. 2021: Targeted deletion of Ruvbl1 results in severe defects of epidermal development and perinatal mortality. Molecular and Cellular Pediatrics 8(1): 1
Clar, J.; Gri, B.; Calderaro, J.; Birling, M-Christine.; Hérault, Y.; Smit, G.Peter.A.; Mithieux, G.; Rajas, F. 2014: Targeted deletion of kidney glucose-6 phosphatase leads to nephropathy. Kidney International 86(4): 747-756
Visel, A.; Zhu, Y.; May, D.; Afzal, V.; Gong, E.; Attanasio, C.; Blow, M.J.; Cohen, J.C.; Rubin, E.M.; Pennacchio, L.A. 2010: Targeted deletion of the 9p21 non-coding coronary artery disease risk interval in mice. Nature 464(7287): 409-412
Dafinger, C.; Rinschen, M.M.; Borgal, L.; Ehrenberg, C.; Basten, S.G.; Franke, M.; Höhne, M.; Rauh, M.; Göbel, H.; Bloch, W.; Wunderlich, F.Thomas.; Peters, D.J.M.; Tasche, D.; Mishra, T.; Habbig, S.; Dötsch, Jörg.; Müller, R-Ulrich.; Brüning, J.C.; Persigehl, T.; Giles, R.H.; Benzing, T.; Schermer, B.; Liebau, M.C. 2018: Targeted deletion of the AAA-ATPase Ruvbl1 in mice disrupts ciliary integrity and causes renal disease and hydrocephalus. Experimental and Molecular Medicine 50(6): 1-17
Ise, K.; Nakamura, K.; Nakao, K.; Shimizu, S.; Harada, H.; Ichise, T.; Miyoshi, J.; Gondo, Y.; Ishikawa, T.; Aiba, A.; Katsuki, M. 2000: Targeted deletion of the H-ras gene decreases tumor formation in mouse skin carcinogenesis. Oncogene 19(26): 2951-2956
Kabata, H.; Flamar, A-Laure.; Mahlakõiv, T.; Moriyama, S.; Rodewald, H-Reimer.; Ziegler, S.F.; Artis, D. 2020: Targeted deletion of the TSLP receptor reveals cellular mechanisms that promote type 2 airway inflammation. Mucosal Immunology 13(4): 626-636
LaVaute, T.; Smith, S.; Cooperman, S.; Iwai, K.; Land, W.; Meyron-Holtz, E.; Drake, S.K.; Miller, G.; Abu-Asab, M.; Tsokos, M.; Switzer, R.; Grinberg, A.; Love, P.; Tresser, N.; Rouault, T.A. 2001: Targeted deletion of the gene encoding iron regulatory protein-2 causes misregulation of iron metabolism and neurodegenerative disease in mice. Nature Genetics 27(2): 209-214
Qiao, L.; Yuan, X.; Peng, H.; Shan, G.; Gao, M.; Yi, X.; He, X. 2021: Targeted delivery and stimulus-responsive release of anticancer drugs for efficient chemotherapy. Drug Delivery 28(1): 2218-2228
Varrica, C.; Dias, H.S.; Reis, C.; Carvalheiro, M.; Simões, S. 2021: Targeted delivery in scleroderma fibrosis. Autoimmunity Reviews 20(2): 102730
Hamilton, J.R.; Tsuchida, C.A.; Nguyen, D.N.; Shy, B.R.; McGarrigle, E.R.; Sandoval Espinoza, C.R.; Carr, D.; Blaeschke, F.; Marson, A.; Doudna, J.A. 2021: Targeted delivery of CRISPR-Cas9 and transgenes enables complex immune cell engineering. Cell Reports 35(9): 109207
Chaverra-Rodriguez, D.; Macias, V.M.; Hughes, G.L.; Pujhari, S.; Suzuki, Y.; Peterson, D.R.; Kim, D.; McKeand, S.; Rasgon, J.L. 2018: Targeted delivery of CRISPR-Cas9 ribonucleoprotein into arthropod ovaries for heritable germline gene editing. Nature Communications 9(1): 3008
Kanehira, M.; Xin, H.; Hoshino, K.; Maemondo, M.; Mizuguchi, H.; Hayakawa, T.; Matsumoto, K.; Nakamura, T.; Nukiwa, T.; Saijo, Y. 2007: Targeted delivery of NK4 to multiple lung tumors by bone marrow-derived mesenchymal stem cells. Cancer Gene Therapy 14(11): 894-903
Akinc, A.; Querbes, W.; De, S.; Qin, J.; Frank-Kamenetsky, M.; Jayaprakash, K.Narayanannair.; Jayaraman, M.; Rajeev, K.G.; Cantley, W.L.; Dorkin, J.Robert.; Butler, J.S.; Qin, L.; Racie, T.; Sprague, A.; Fava, E.; Zeigerer, A.; Hope, M.J.; Zerial, M.; Sah, D.W.Y.; Fitzgerald, K.; Tracy, M.A.; Manoharan, M.; Koteliansky, V.; Fougerolles, A.de.; Maier, M.A. 2010: Targeted delivery of RNAi therapeutics with endogenous and exogenous ligand-based mechanisms. Molecular Therapy: the Journal of the American Society of Gene Therapy 18(7): 1357-1364
Rafiq, S.; Yeku, O.O.; Jackson, H.J.; Purdon, T.J.; van Leeuwen, D.G.; Drakes, D.J.; Song, M.; Miele, M.M.; Li, Z.; Wang, P.; Yan, S.; Xiang, J.; Ma, X.; Seshan, V.E.; Hendrickson, R.C.; Liu, C.; Brentjens, R.J. 2018: Targeted delivery of a PD-1-blocking sc Fv by CAR-T cells enhances anti-tumor efficacy in vivo. Nature Biotechnology 36(9): 847-856
Press, A.T.; Babic, P.; Hoffmann, B.; Müller, T.; Foo, W.; Hauswald, W.; Benecke, J.; Beretta, M.; Cseresnyés, Z.án.; Hoeppener, S.; Nischang, I.; Coldewey, S.M.; Gräler, M.H.; Bauer, R.; Gonnert, F.; Gaßler, N.; Wetzker, R.; Figge, M.T.; Schubert, U.S.; Bauer, M. 2021: Targeted delivery of a phosphoinositide 3-kinase γ inhibitor to restore organ function in sepsis. Embo Molecular Medicine 13(10): E14436
Foloppe, J.; Kintz, J.; Futin, N.; Findeli, A.; Cordier, P.; Schlesinger, Y.; Hoffmann, C.; Tosch, C.; Balloul, J-M.; Erbs, P. 2008: Targeted delivery of a suicide gene to human colorectal tumors by a conditionally replicating vaccinia virus. Gene Therapy 15(20): 1361-1371
Zahaf, N-I.; Lang, A.E.; Kaiser, L.; Fichter, C.D.; Lassmann, S.; McCluskey, A.; Augspach, A.; Aktories, K.; Schmidt, G. 2017: Targeted delivery of an ADP-ribosylating bacterial toxin into cancer cells. Scientific Reports 7: 41252
Guo, L.; Luo, S.; Du, Z.; Zhou, M.; Li, P.; Fu, Y.; Sun, X.; Huang, Y.; Zhang, Z. 2017: Targeted delivery of celastrol to mesangial cells is effective against mesangioproliferative glomerulonephritis. Nature Communications 8(1): 878
Ye, J.; Yang, Y.; Jin, J.; Ji, M.; Gao, Y.; Feng, Y.; Wang, H.; Chen, X.; Liu, Y. 2020: Targeted delivery of chlorogenic acid by mannosylated liposomes to effectively promote the polarization of TAMs for the treatment of glioblastoma. Bioactive Materials 5(3): 694-708
Koumakis, N.; Lepore, A.; Maggi, C.; Di Leonardo, R. 2013: Targeted delivery of colloids by swimming bacteria. Nature Communications 4: 2588
Rogers, O.C.; Rosen, D.M.; Antony, L.; Harper, H.M.; Das, D.; Yang, X.; Minn, I.; Mease, R.C.; Pomper, M.G.; Denmeade, S.R. 2021: Targeted delivery of cytotoxic proteins to prostate cancer via conjugation to small molecule urea-based PSMA inhibitors. Scientific Reports 11(1): 14925
Zhao, Y.; Tang, S.; Guo, J.; Alahdal, M.; Cao, S.; Yang, Z.; Zhang, F.; Shen, Y.; Sun, M.; Mo, R.; Zong, L.; Jin, L. 2017: Targeted delivery of doxorubicin by nano-loaded mesenchymal stem cells for lung melanoma metastases therapy. Scientific Reports 7: 44758
Chen, P.; Wang, L.; Fan, X.; Ning, X.; Yu, B.; Ou, C.; Chen, M. 2021: Targeted delivery of extracellular vesicles in heart injury. Theranostics 11(5): 2263-2277