Home
  >  
Section 73

EurekaMag Full Text Articles Chapter 72,208



References:

Cima, M.J. 2014: Next-generation wearable electronics. Nature Biotechnology 32(7): 642-643
Velásquez-Zapata, V.; Elmore, J.M.; Banerjee, S.; Dorman, K.S.; Wise, R.P. 2021: Next-generation yeast-two-hybrid analysis with Y2H-SCORES identifies novel interactors of the MLA immune receptor. Plos Computational Biology 17(4): E1008890
Zweerink, A.; Burri, H. 2020: Next-level examination of His-optimized cardiac resynchronization therapy by noninvasive electrocardiographic activation mapping. Journal of Cardiovascular Electrophysiology 31(11): 3065-3066
Czakon, M.ł; Mitov, A.; Poncelet, R. 2021: Next-to-Next-to-Leading Order Study of Three-Jet Production at the LHC. Physical Review Letters 127(15): 152001
Schuster, S.J. 2020: NextGen CARs: the race is on. Blood 136(14): 1570-1571
Di Tommaso, P.; Chatzou, M.; Floden, E.W.; Barja, P.Prieto.; Palumbo, E.; Notredame, C. 2017: Nextflow enables reproducible computational workflows. Nature Biotechnology 35(4): 316-319
Farlow, R.; Russell, T.L.; Burkot, T.R. 2020: Nextgen Vector Surveillance Tools: sensitive, specific, cost-effective and epidemiologically relevant. Malaria Journal 19(1): 432
Neog, Y.; Yadava, A.K. 2020: Nexus among CO2 emissions, remittances, and financial development: a NARDL approach for India. Environmental Science and Pollution Research International 27(35): 44470-44481
Sukumar, K.; Tadepalli, A. 2021: Nexus between COVID-19 and periodontal disease. Journal of International Medical Research 49(3): 3000605211002695
Bansal, S.; Sharma, G.D.; Rahman, M.M.; Yadav, A.; Garg, I. 2021: Nexus between environmental, social and economic development in South Asia: evidence from econometric models. Heliyon 7(1): E05965
Canh, N.P.; Thanh, S.D.; Nasir, M.A. 2020: Nexus between financial development and energy intensity: two sides of a coin?. Journal of Environmental Management 270: 110902
Zhang, D.; Hussain, H.I. 2021: Nexus between fiscal imbalance and emissions reduction: new evidence from developing economies. Journal of Environmental Management 297: 113360
Aggarwal, A.; Mathur, A. 2020: Nexus between light and culture media on morphogenesis in Bacopa monnieri and saponin yield thereof. Heliyon 6(10): E05245
Arif, M.; Sengupta, S. 2021: Nexus between population density and novel coronavirus (COVID-19) pandemic in the south Indian states: a geo-statistical approach. Environment Development and Sustainability 23(7): 10246-10274
Iqbal, N.; Khan, A.; Gill, A.S.; Abbas, Q. 2020: Nexus between sustainable entrepreneurship and environmental pollution: evidence from developing economy. Environmental Science and Pollution Research International 27(29): 36242-36253
Chang, G.; Xu, S-Yang.; Huang, S-Ming.; Sanchez, D.S.; Hsu, C-Han.; Bian, G.; Yu, Z-Ming.; Belopolski, I.; Alidoust, N.; Zheng, H.; Chang, T-Rong.; Jeng, H-Tay.; Yang, S.A.; Neupert, T.; Lin, H.; Hasan, M.Zahid. 2017: Nexus fermions in topological symmorphic crystalline metals. Scientific Reports 7(1): 1688
Bergman, M.; Jagannathan, R.; Narayan, K.M.V. 2020: Nexus of COVID-19 and diabetes pandemics: Global public health lessons. Diabetes Research and Clinical Practice 164: 108215
Ullah, A.; Pinglu, C.; Ullah, S.; Hashmi, S.H. 2021: Nexus of regional integration, socioeconomic determinants and sustainable development in belt and road initiative countries. Plos one 16(7): E0254298
Nhamo, L.; Ndlela, B. 2021: Nexus planning as a pathway towards sustainable environmental and human health post Covid-19. Environmental Research 192: 110376
Taillon, J.A.; Bina, T.F.; Plante, R.L.; Newrock, M.W.; Greene, G.R.; Lau, J.W. 2021: NexusLIMS: a Laboratory Information Management System for Shared-Use Electron Microscopy Facilities. Microscopy and Microanalysis: the Official Journal of Microscopy Society of America Microbeam Analysis Society Microscopical Society of Canada 2021: 1-17
Taillon, J.; Plante, R.; Newrock, M.; Lau, J.; Greene, G. 2020: NexusLIMS: Leveraging Shared Microscopy Resources for Data Analysis with a Configurable Laboratory Information Management System. Microscopy and Microanalysis: the Official Journal of Microscopy Society of America Microbeam Analysis Society Microscopical Society of Canada 26(Suppl. 2): 2950-2952
Lavore, Aés.; Perez-Gianmarco, L.; Esponda-Behrens, N.; Palacio, V.; Catalano, M.Ines.; Rivera-Pomar, R.; Ons, S. 2018: Nezara viridula (Hemiptera: Pentatomidae) transcriptomic analysis and neuropeptidomics. Scientific Reports 8(1): 17244
Richmond, A. 2002: Nf-kappa B, chemokine gene transcription and tumour growth. Nature Reviews. Immunology 2(9): 664-674
Largaespada, D.A.; Brannan, C.I.; Jenkins, N.A.; Copeland, N.G. 1996: Nf1 deficiency causes Ras-mediated granulocyte/macrophage colony stimulating factor hypersensitivity and chronic myeloid leukaemia. Nature Genetics 12(2): 137-143
Wu, M.; Wallace, M.R.; Muir, D. 2006: Nf1 haploinsufficiency augments angiogenesis. Oncogene 25(16): 2297-2303
Gitler, A.D.; Zhu, Y.; Ismat, F.A.; Lu, M.Min.; Yamauchi, Y.; Parada, L.F.; Epstein, J.A. 2003: Nf1 has an essential role in endothelial cells. Nature Genetics 33(1): 75-79
Tritz, R.; Benson, T.; Harris, V.; Hudson, F.Z.; Mintz, J.; Zhang, H.; Kennard, S.; Chen, W.; Stepp, D.W.; Csanyi, G.; Belin de Chantemèle, E.J.; Weintraub, N.L.; Stansfield, B.K. 2021: Nf1 heterozygous mice recapitulate the anthropometric and metabolic features of human neurofibromatosis type 1. Translational Research: the Journal of Laboratory and Clinical Medicine 228: 52-63
Reilly, K.M.; Loisel, D.A.; Bronson, R.T.; McLaughlin, M.E.; Jacks, T. 2000: Nf1;Trp53 mutant mice develop glioblastoma with evidence of strain-specific effects. Nature Genetics 26(1): 109-113
Curto, M.; McClatchey, A.I. 2008: Nf2/Merlin: a coordinator of receptor signalling and intercellular contact. British Journal of Cancer 98(2): 256-262
Bäckström, D.; Linder, J.; Jakobson Mo, S.; Riklund, K.; Zetterberg, H.; Blennow, K.; Forsgren, L.; Lenfeldt, N. 2020: NfL as a biomarker for neurodegeneration and survival in Parkinson disease. Neurology 95(7): E827-E838
Mariotto, S.; Gastaldi, M.; Grazian, L.; Mancinelli, C.; Capra, R.; Marignier, R.; Alberti, D.; Zanzoni, S.; Schanda, K.; Franciotta, D.; Calabria, F.; Monaco, S.; Reindl, M.; Ferrari, S.; Gajofatto, A. 2021: NfL levels predominantly increase at disease onset in MOG-Abs-associated disorders. Multiple Sclerosis and Related Disorders 50: 102833
Uphaus, T.; Steffen, F.; Muthuraman, M.; Ripfel, N.; Fleischer, V.; Groppa, S.; Ruck, T.; Meuth, S.G.; Pul, R.; Kleinschnitz, C.; Ellwardt, E.; Loos, J.; Engel, S.; Zipp, F.; Bittner, S. 2021: NfL predicts relapse-free progression in a longitudinal multiple sclerosis cohort study. Ebiomedicine 72: 103590
Dirkx, E.; Gladka, M.M.; Philippen, L.E.; Armand, A-Sophie.; Kinet, V.; Leptidis, S.; El Azzouzi, H.; Salic, K.; Bourajjaj, M.; da Silva, G.J.J.; Olieslagers, Sé.; van der Nagel, R.; de Weger, R.; Bitsch, N.; Kisters, N.; Seyen, S.; Morikawa, Y.; Chanoine, C.; Heymans, S.; Volders, P.G.A.; Thum, T.; Dimmeler, S.; Cserjesi, P.; Eschenhagen, T.; da Costa Martins, P.A.; De Windt, L.J. 2013: Nfat and miR-25 cooperate to reactivate the transcription factor Hand2 in heart failure. Nature Cell Biology 15(11): 1282-1293
Weider, M.; Starost, L.Julia.; Groll, K.; Küspert, M.; Sock, E.; Wedel, M.; Fröb, F.; Schmitt, C.; Baroti, T.; Hartwig, A.C.; Hillgärtner, S.; Piefke, S.; Fadler, T.; Ehrlich, M.; Ehlert, C.; Stehling, M.; Albrecht, S.; Jabali, A.; Schöler, H.R.; Winkler, Jürgen.; Kuhlmann, T.; Wegner, M. 2018: Nfat/calcineurin signaling promotes oligodendrocyte differentiation and myelination by transcription factor network tuning. Nature Communications 9(1): 899
Bao, S.; Zheng, H.; Chen, C.; Zhang, Y.; Bao, L.; Yang, B.; Hou, Y.; Chen, Y.; Zhang, Q.; Pi, J.; Fu, J. 2021: Nfe2l1 deficiency mitigates streptozotocin-induced pancreatic β-cell destruction and development of diabetes in male mice. Food and Chemical Toxicology: An International Journal Published for the British Industrial Biological Research Association 158: 112633
Hariri, H.; Pellicelli, M.; St-Arnaud, R.é 2020: Nfil3, a target of the NACA transcriptional coregulator, affects osteoblast and osteocyte gene expression differentially. Bone 141: 115624
Keller, U.; Nilsson, J.A.; Maclean, K.H.; Old, J.B.; Cleveland, J.L. 2005: Nfkb 1 is dispensable for Myc-induced lymphomagenesis. Oncogene 24(41): 6231-6240
Voce, D.J.; Schmitt, A.M.; Uppal, A.; McNerney, M.E.; Bernal, G.M.; Cahill, K.E.; Wahlstrom, J.S.; Nassiri, A.; Yu, X.; Crawley, C.D.; White, K.P.; Onel, K.; Weichselbaum, R.R.; Yamini, B. 2015: Nfkb1 is a haploinsufficient DNA damage-specific tumor suppressor. Oncogene 34(21): 2807-2813
Della-Valle, V.; Roos-Weil, D.; Scourzic, L.; Mouly, E.; Aid, Z.; Darwiche, W.; Lecluse, Y.; Damm, F.; Mémet, S.; Mercher, T.; Aoufouchi, S.; Nguyen-Khac, F.; Bernard, O.A.; Ghamlouch, H. 2020: Nfkbie-deficiency leads to increased susceptibility to develop B-cell lymphoproliferative disorders in aged mice. Blood Cancer Journal 10(3): 38
Yin, B.; Morgan, K.; Hasz, D.E.; Mao, Z.; Largaespada, D.A. 2006: Nfl gene inactivation in acute myeloid leukemia cells confers cytarabine resistance through MAPK and mTOR pathways. Leukemia 20(1): 151-154
Parsa, H.; Shakerzadeh, E.; Anota, E.C. 2021: Ngn (Ng= Ne, Ar, Kr, Xe, and Rn; n=1, 2) encapsulated porphyrin-like porous C24N24 fullerene: a quantum chemical study. Journal of Molecular Graphics and Modelling 108: 107986
Qi, J.; Dong, Z.; Shi, Y.; Wang, X.; Qin, Y.; Wang, Y.; Liu, D. 2016: NgAgo-based fabp11a gene knockdown causes eye developmental defects in zebrafish. Cell Research 26(12): 1349-1352
Dickendesher, T.L.; Baldwin, K.T.; Mironova, Y.A.; Koriyama, Y.; Raiker, S.J.; Askew, K.L.; Wood, A.; Geoffroy, Cédric.G.; Zheng, B.; Liepmann, C.D.; Katagiri, Y.; Benowitz, L.I.; Geller, H.M.; Giger, R.J. 2012: NgR1 and NgR3 are receptors for chondroitin sulfate proteoglycans. Nature Neuroscience 15(5): 703-712
Sun, J.; Sun, R.; Li, C.; Luo, X.; Chen, J.; Hong, J.; Zeng, Y.; Wang, Q.M.; Wen, H. 2021: NgR1 pathway expression in cerebral ischemic Sprague-Dawley rats with cognitive impairment. Iranian Journal of Basic Medical Sciences 24(6): 767-775
Bovill, M.; Bar-Zeev, Y.; Bonevski, B.; Reath, J.; Oldmeadow, C.; Hall, A.; In Pregnancy Pilot Group, I.C.A.N.Q.U.I.T.; Gould, G.S. 2021: Ngaa-bi-nya-nhumi-nya (to Test First): Piloting the Feasibility of Using the Growth and Empowerment Measure with Aboriginal Pregnant Women who Smoke. Journal of Smoking Cessation 2021: 6610500
Baeyens, L.; Bonné, S.; German, M.S.; Ravassard, P.; Heimberg, H.; Bouwens, L. 2006: Ngn3 expression during postnatal in vitro beta cell neogenesis induced by the JAK/STAT pathway. Cell Death and Differentiation 13(11): 1892-1899
Fragiadakis, G.S.; Tzamarias, D.; Alexandraki, D. 2004: Nhp6 facilitates Aft1 binding and Ssn6 recruitment, both essential for FRE2 transcriptional activation. EMBO Journal 23(2): 333-342
Li, Y.-K.; Zhang, G.; Huang, H.; Lu, W.-T.; Cao, F.-F.; Shao, Z.-G. 2020: Ni17 W3 -W Interconnected Hybrid Prepared by Atmosphere- and Thermal-Induced Phase Separation for Efficient Electrocatalysis of Alkaline Hydrogen Evolution. Small 16(48): E2005184
Song, N.; Jiang, E.; Liu, X.; Zuo, Y.; Che, G.; Liu, C.; Yan, Y.; Dong, H. 2021: Ni2P QDs decorated in the multi-shelled CaTiO3 cube for creating inter-shelled channel active sites to boost photocatalytic performance. Journal of Colloid and Interface Science 584: 332-343
Wen, G.; Liang, J.; Zhang, L.; Li, T.; Liu, Q.; An, X.; Shi, X.; Liu, Y.; Gao, S.; Asiri, A.M.; Luo, Y.; Kong, Q.; Sun, X. 2022: Ni2P nanosheet array for high-efficiency electrohydrogenation of nitrite to ammonia at ambient conditions. Journal of Colloid and Interface Science 606(Part 2): 1055-1063
Eder, F.; Weil, M. 2020: Ni3Te2O2(PO4)2(OH)4, an open-framework structure isotypic with Co3Te2O2(PO4)2(OH)4. Acta Crystallographica. Section e Crystallographic Communications 76(Part 5): 625-628
Touchton, A.J.; Wu, G.; Hayton, T.W. 2021: Ni8(CNtBu)12][Cl]: a nickel isocyanide nanocluster with a folded nanosheet structure. Journal of Chemical Physics 154(21): 211102
Giordano, M.C.; Escobar Steinvall, S.; Watanabe, S.; Fontcuberta I Morral, A.; Grundler, D. 2021: Ni80Fe20 nanotubes with optimized spintronic functionalities prepared by atomic layer deposition. Nanoscale 13(31): 13451-13462
Hausinger, R.P. 2003: Ni and CO: more surprises. Nature Structural Biology 10(4): 234-236
Jurowski, K.; Fołta, M.; Tatar, B.; Berkoz, M.; Krośniak, M.ła. 2021: Ni and Cr impurities profile in Valeriana officinalis L., radix-based herbal medicinal product available in polish pharmacies due to ICH Q3D guideline. Regulatory Toxicology and Pharmacology: Rtp 123: 104945
Lai, Q.; Cosio, M.N.; Ozerov, O.V. 2020: Ni complexes of an alane/tris(phosphine) ligand built around a strongly Lewis acidic tris(N-pyrrolyl)aluminum. Chemical Communications 56(94): 14845-14848
Abdullah, B.; Rasid, N.Syeha.Abdull.; Lazim, N.Mat.; Volgger, V.; Betz, C.Stephan.; Mohammad, Z.Wan.; Hassan, N.Fariza.Husna.Nik. 2020: Ni endoscopic classification for Storz Professional Image Enhancement System (SPIES) endoscopy in the detection of upper aerodigestive tract (UADT) tumours. Scientific Reports 10(1): 6941
Liang, Y.; Oettinger, J.D.; Zhang, P.; Xu, B. 2020: Ni or FeO nanocrystal-integrated hollow (solid) N-doped carbon nanospheres: preparation, characterization and electrochemical properties. Nanoscale 12(28): 15157-15168
Wilden, J.; Yang, F.; Günther, G.; Russina, M.; Kuball, A.; Busch, R.; Meyer, A. 2021: Ni self-diffusion in glass forming Pd-Ni-S melts. Journal of Physics. Condensed Matter: An Institute of Physics Journal 33(43)
Min, S.; Choi, J.; Yoo, C.; Graham, P.M.; Lee, Y. 2021: Ni(0)-promoted activation of Csp2 -H and Csp2 -O bonds. Chemical Science 12(29): 9983-9990
Somerville, R.J.; Odena, C.; Obst, M.F.; Hazari, N.; Hopmann, K.H.; Martin, R. 2020: Ni(I)-Alkyl Complexes Bearing Phenanthroline Ligands: Experimental Evidence for CO2 Insertion at Ni(I) Centers. Journal of the American Chemical Society 142(25): 10936-10941
Dhungana, R.K.; Kc, S.; Basnet, P.; Aryal, V.; Chesley, L.J.; Giri, R. 2019: Ni(I)-Catalyzed β,δ-Vinylarylation of γ,δ-Alkenyl α-Cyanocarboxylic Esters via Contraction of Transient Nickellacycles. Acs Catalysis 9(12): 10887-10893
Banaspati, A.; Raza, M.K.; Goswami, T.K. 2020: Ni(II) curcumin complexes for cellular imaging and photo-triggered in vitro anticancer activity. European Journal of Medicinal Chemistry 204: 112632
Al-Fakeh, M.S.; Allazzam, G.A.; Yarkandi, N.H. 2021: Ni(II), Cu(II), Mn(II), and Fe(II) Metal Complexes Containing 1,3-Bis(diphenylphosphino)propane and Pyridine Derivative: Synthesis, Characterization, and Antimicrobial Activity. International Journal of Biomaterials 2021: 4981367
S L V Narayana, Y.; Yoshida, T.; Bera, M.K.; Mondal, S.; Higuchi, M. 2020: Ni(II)-Based Metallosupramolecular Polymer with Carboxylic Acid Groups: a Stable Platform for Smooth Imidazole Loading and the Anhydrous Proton Channel Formation. Acs Omega 5(24): 14796-14804
Quan, M.; Wang, X.; Wu, L.; Gridnev, I.D.; Yang, G.; Zhang, W. 2018: Ni(II)-catalyzed asymmetric alkenylations of ketimines. Nature Communications 9(1): 2258
Ramesh, S.; Karuppasamy, K.; Yadav, H.M.; Lee, J-Joon.; Kim, H-Seok.; Kim, H-Soo.; Kim, J-Hyung. 2019: Ni(OH) 2 -decorated nitrogen doped MWCNT nanosheets as an efficient electrode for high performance supercapacitors. Scientific Reports 9(1): 6034
Jin, C.; Zhai, P.; Wei, Y.; Chen, Q.; Wang, X.; Yang, W.; Xiao, J.; He, Q.; Liu, Q.; Gong, Y. 2021: Ni(OH)2 Templated Synthesis of Ultrathin Ni3 S2 Nanosheets as Bifunctional Electrocatalyst for Overall Water Splitting. Small 17(33): E2102097
Li, L.; Qin, J.; Bi, H.; Gai, S.; He, F.; Gao, P.; Dai, Y.; Zhang, X.; Yang, D.; Yang, P. 2017: Ni(OH) 2 nanosheets grown on porous hybrid g-C 3 N 4 /RGO network as high performance supercapacitor electrode. Scientific Reports 7: 43413
Yuan, X.; Jing, X.; Xu, H.; Zhang, X.; Xu, J. 2022: Ni-Al layered double hydroxides modified sponge skeleton with polydopamine coating for enhanced U(VI) extraction from aqueous solution. Chemosphere 287(Part 1): 131919
Li, J.; Zheng, Y.; Huang, M.; Li, W. 2020: Ni-Catalyzed Denitrogenative Cross-Coupling of Benzotriazinones and Cyclopropanols: An Easy Access to Functionalized β-Aryl Ketones. Organic Letters 22(13): 5020-5024
Pei, C.; Zong, J.; Han, S.; Li, B.; Wang, B. 2020: Ni-Catalyzed Direct Carboxylation of an Unactivated C-H Bond with CO2. Organic Letters 22(17): 6897-6902
Koeritz, M.T.; Burgett, R.W.; Kadam, A.A.; Stanley, L.M. 2020: Ni-Catalyzed Intermolecular Carboacylation of Internal Alkynes via Amide C-N Bond Activation. Organic Letters 22(15): 5731-5736
Nwachukwu, C.I.; McFadden, T.P.; Roberts, A.G. 2020: Ni-Catalyzed Iterative Alkyl Transfer from Nitrogen Enabled by the in Situ Methylation of Tertiary Amines. Journal of Organic Chemistry 85(15): 9979-9992
Zhou, Z.; Liu, W.; Kong, W. 2020: Ni-Catalyzed Reductive Antiarylative Cyclization of Alkynones. Organic Letters 22(17): 6982-6987
Shao, W.; Besnard, C.él.; Guénée, L.; Mazet, C.ém. 2020: Ni-Catalyzed Regiodivergent and Stereoselective Hydroalkylation of Acyclic Branched Dienes with Unstabilized C(sp3) Nucleophiles. Journal of the American Chemical Society 142(38): 16486-16492
Tian, Y.-M.; Guo, X.-N.; Wu, Z.; Friedrich, A.; Westcott, S.A.; Braunschweig, H.; Radius, U.; Marder, T.B. 2020: Ni-Catalyzed Traceless, Directed C3-Selective C-H Borylation of Indoles. Journal of the American Chemical Society 142(30): 13136-13144
Tesfaye, R.Mehari.; Das, G.; Park, B.Ju.; Kim, J.; Yoon, H.Hee. 2019: Ni-Co bimetal decorated carbon nanotube aerogel as an efficient anode catalyst in urea fuel cells. Scientific Reports 9(1): 479
Ramachandran, K.; Raj Kumar, T.; Babu, K.Justice.; Gnana Kumar, G. 2016: Ni-Co bimetal nanowires filled multiwalled carbon nanotubes for the highly sensitive and selective non-enzymatic glucose sensor applications. Scientific Reports 6: 36583
Moorthy, K.; Inbanathan, S.S.R.; Gopinathan, C.; Lalla, N.P.; Alghamdi, A.A.; Kumar, R.; Rani Rosaline, D.; Umar, A. 2021: Ni-Doped ZnO Thin Films: Deposition, Characterization and Photocatalytic Applications. Journal of Nanoscience and Nanotechnology 21(3): 1560-1569
Gao, Y.; Li, Y.; Chen, L.; Song, J.; Liu, Y. 2021: Ni-Fe oxide-PEDOT modified anode coupled with BAF treating ammonia and nitrite in recirculating seawater of aquaculture system. Bioresource Technology 342: 126048
Zhu, J.; Cannizzaro, F.; Liu, L.; Zhang, H.; Kosinov, N.; Filot, I.A.W.; Rabeah, J.; Brückner, A.; Hensen, E.J.M. 2021: Ni-in Synergy in CO2 Hydrogenation to Methanol. Acs Catalysis 11(18): 11371-11384
Carter, T.D.; Outten, F.W. 2021: Ni-NTA Affinity Chromatography to Characterize Protein-Protein Interactions During Fe-S Cluster Biogenesis. Methods in Molecular Biology 2353: 125-136
Darnault, C.; Volbeda, A.; Kim, E.Jin.; Legrand, P.; Vernède, X.; Lindahl, P.A.; Fontecilla-Camps, J.C. 2003: Ni-Zn-[Fe4-S4] and Ni-Ni-[Fe4-S4] clusters in closed and open subunits of acetyl-CoA synthase/carbon monoxide dehydrogenase. Nature Structural Biology 10(4): 271-279
Liu, D.; Li, B.; Chen, J.; Gridnev, I.D.; Yan, D.; Zhang, W. 2020: Ni-catalyzed asymmetric hydrogenation of N-aryl imino esters for the efficient synthesis of chiral α-aryl glycines. Nature Communications 11(1): 5935
Yan, X-Biao.; Li, L.; Wu, W-Qiang.; Xu, L.; Li, K.; Liu, Y-Cheng.; Shi, H. 2021: Ni-catalyzed hydroalkylation of olefins with N-sulfonyl amines. Nature Communications 12(1): 5881
Yao, W-Wei.; Li, R.; Chen, H.; Chen, M-Kai.; Luan, Y-Xin.; Wang, Y.; Yu, Z-Xiang.; Ye, M. 2021: Ni-catalyzed hydroaminoalkylation of alkynes with amines. Nature Communications 12(1): 3800
Zhan, Y-Zhou.; Xiao, N.; Shu, W. 2021: Ni-catalyzed regio- and stereo-defined intermolecular cross-electrophile dialkylation of alkynes without directing group. Nature Communications 12(1): 928
Boominathan, R.; Doran, P.M. 2002: Ni-induced oxidative stress in roots of the Ni hyperaccumulator, Alyssum bertolonii. New Phytologist 156(2): 205-215
Ipekci, H.H.; Ozcan, M.; Turkyilmaz, B.G.; Uzunoglu, A. 2021: Ni/NiO/Ni-B/graphene heterostructure-modified electrodes and their electrochemical activities towards acetaminophen. Analytical Methods: Advancing Methods and Applications 13(28): 3187-3195
Huang, Y.; Ding, X.Y. 1999: Ni2+ treatment causes cement gland formation in ectoderm explants of Xenopus laevis embryo. Cell Research 9(1): 71-76
Yin, J.; Jin, J.; Liu, H.; Huang, B.; Lu, M.; Li, J.; Liu, H.; Zhang, H.; Peng, Y.; Xi, P.; Yan, C.-H. 2020: NiCo2 O4 -Based Nanosheets with Uniform 4 nm Mesopores for Excellent Zn-Air Battery Performance. Advanced Materials 32(39): E2001651
Kumar, R. 2020: NiCo 2 O 4 Nano-/Microstructures as High-Performance Biosensors: A Review. Nano-MicroLetters 12(1): 122
Li, Z.; Yin, X.; Song, L.; Chen, W.-H.; Du, P.; Li, N.; Xiong, J. 2021: NiCo2O4 arrays with a tailored morphology as hole transport layers of perovskite solar cells. Dalton Transactions 50(17): 5845-5852
Niu, J.; Liu, H.; Zhang, Y.; Wang, X.; Han, J.; Yue, Z.; Duan, E. 2020: NiCo2O4 spinel for efficient toluene oxidation: the effect of crystal plane and solvent. Chemosphere 259: 127427
Kim, Y.-J.; Rajagopal, R.; Kang, S.; Ryu, K.-S. 2021: NiCo2S4 Bi-metal Sulfide Coating on LiNi0.6Co0.2Mn0.2O2 Cathode for High-Performance All-Solid-State Lithium Batteries. Acs Omega 6(10): 6824-6835
Han, H.; Song, Y.; Zhang, Y.; Kalimuldina, G.; Bakenov, Z. 2021: NiCo2S4 Nanocrystals on Nitrogen-Doped Carbon Nanotubes as High-Performance Anode for Lithium-Ion Batteries. Nanoscale Research Letters 16(1): 105
Huang, Z.; He, W.; Shen, H.; Han, G.; Wang, H.; Su, P.; Song, J.; Yang, Y. 2021: NiCo2S4 microflowers as peroxidase mimic: a multi-functional platform for colorimetric detection of glucose and evaluation of antioxidant behavior. Talanta 230: 122337
Yang, M.; Li, Y.; Yan, T.; Jin, Z. 2021: NiCo LDH in situ derived NiCoP 3D nanoflowers coupled with a Cu3P p-n heterojunction for efficient hydrogen evolution. Nanoscale 13(32): 13858-13872
Ojha, M.; Wu, B.; Deepa, M. 2020: NiCo Metal-Organic Framework and Porous Carbon Interlayer-Based Supercapacitors Integrated with a Solar Cell for a Stand-Alone Power Supply System. Acs Applied Materials and Interfaces 12(38): 42749-42762
Jiao, C.; Sun, L.; Xu, F.; Liu, S-Sheng.; Zhang, J.; Jiang, X.; Yang, L. 2016: NiCo nanoalloy encapsulated in graphene layers for improving hydrogen storage properties of LiAlH4. Scientific Reports 6: 27429
Pang, W.; Fan, A.; Guo, Y.; Xie, D.; Gao, D. 2021: NiCoP with Dandelion-like Arrays Anchored on Nanowires for Electrocatalytic Overall Water Splitting. Acs Omega 6(41): 26822-26828
Wang, X.; Ji, H.; Wang, F.; Cui, X.; Liu, Y.; Du, X.; Lu, X. 2021: NiFe2O4-based magnetic covalent organic framework nanocomposites for the efficient adsorption of brominated flame retardants from water. Mikrochimica Acta 188(5): 161
Darabi, R.; Shabani-Nooshabadi, M. 2021: NiFe2O4-rGO/ionic liquid modified carbon paste electrode: An amplified electrochemical sensitive sensor for determination of Sunset Yellow in the presence of Tartrazine and Allura Red. Food Chemistry 339: 127841
Alyami, B.A.; Mahmoud, A.M.; Alkahtani, S.A.; El-Wekil, M.M. 2021: NiFe2O4 nanospheres functionalized with 2-(2, 4-Dihydroxyphenyl)-3, 5, 7-trihydroxychromen-4-one for selective solid-phase microextraction of aluminium. Talanta 226: 122167
Zhang, P.; Zhan, T.; Rong, H.; Feng, Y.; Wen, Y.; Zhao, J.; Wang, L.; Liu, X.; Hou, W. 2020: NiFe-coordinated zeolitic imidazolate framework derived trifunctional electrocatalyst for overall water-splitting and zinc-air batteries. Journal of Colloid and Interface Science 579: 1-11
Yoon, K-Yong.; Park, J.; Jung, M.; Ji, S-Geun.; Lee, H.; Seo, J.Hui.; Kwak, M-Jun.; Il Seok, S.; Lee, J.Hee.; Jang, J-Hyun. 2021: NiFeO x decorated Ge-hematite/perovskite for an efficient water splitting system. Nature Communications 12(1): 4309
Ogo, S.; Kishima, T.; Yatabe, T.; Miyazawa, K.; Yamasaki, R.; Matsumoto, T.; Ando, T.; Kikkawa, M.; Isegawa, M.; Yoon, K.-S.; Hayami, S. 2020: NiFe], [FeFe], and [Fe] hydrogenase models from isomers. Science Advances 6(24): Eaaz 8181
De Rosa, E.; Checchetto, V.; Franchin, C.; Bergantino, E.; Berto, P.; Szabò, Iò.; Giacometti, G.M.; Arrigoni, G.; Costantini, P. 2015: NiFe]-hydrogenase is essential for cyanobacterium Synechocystis sp. PCC 6803 aerobic growth in the dark. Scientific Reports 5: 12424
Jeon, J.; Lee, C.; Seo, H.; Hong, S. 2020: NiH-Catalyzed Proximal-Selective Hydroamination of Unactivated Alkenes. Journal of the American Chemical Society 142(48): 20470-20480
He, Y.; Song, H.; Chen, J.; Zhu, S. 2021: NiH-catalyzed asymmetric hydroarylation of N-acyl enamines to chiral benzylamines. Nature Communications 12(1): 638
Cheng, W.; Lu, X.F.; Luan, D.; Lou, X.W.D. 2020: NiMn-Based Bimetal-Organic Framework Nanosheets Supported on Multi-Channel Carbon Fibers for Efficient Oxygen Electrocatalysis. Angewandte Chemie 59(41): 18234-18239
Keerthana, S.; Rani, B.J.; Yuvakkumar, R.; Ravi, G.; Saravanakumar, B.; Pannipara, M.; Al-Sehemi, A.G.; Velauthapillai, D. 2021: NiMoO4 nanorods photocatalytic activity comparison under UV and visible light. Environmental Research 197: 111073
Pehlivan, İl.B.; Oscarsson, J.; Qiu, Z.; Stolt, L.; Edoff, M.; Edvinsson, T. 2021: NiMoV and NiO-based catalysts for efficient solar-driven water splitting using thermally integrated photovoltaics in a scalable approach. Iscience 24(1): 101910
Wei, L.; Zeng, D.; Xie, Z.; Zeng, Q.; Zheng, H.; Fujita, T.; Wei, Y. 2021: NiO Nanosheets Coupled with CdS Nanorods as 2D/1D Heterojunction for Improved Photocatalytic Hydrogen Evolution. Frontiers in Chemistry 9: 655583
Ci, S.; Wen, Z.; Qian, Y.; Mao, S.; Cui, S.; Chen, J. 2015: NiO-Microflower Formed by Nanowire-weaving Nanosheets with Interconnected Ni-network Decoration as Supercapacitor Electrode. Scientific Reports 5: 11919
Liu, J.; He, J.; Wang, L.; Li, R.; Chen, P.; Rao, X.; Deng, L.; Rong, L.; Lei, J. 2016: NiO-PTA supported on ZIF-8 as a highly effective catalyst for hydrocracking of Jatropha oil. Scientific Reports 6: 23667
Chebanenko, M.I.; Lobinsky, A.A.; Nevedomskiy, V.N.; Popkov, V.I. 2020: NiO-decorated graphitic carbon nitride toward electrocatalytic hydrogen production from ethanol. Dalton Transactions 49(34): 12088-12097
Zhang, B.; Su, J.; Guo, X.; Zhou, L.; Lin, Z.; Feng, L.; Zhang, J.; Chang, J.; Hao, Y. 2020: NiO/Perovskite Heterojunction Contact Engineering for Highly Efficient and Stable Perovskite Solar Cells. Advanced Science 7(11): 1903044
Lu, C.; Ma, Z.; Jäger, J.; Budnyak, T.M.; Dronskowski, R.; Rokicińska, A.; Kuśtrowski, P.; Pammer, F.; Slabon, A. 2020: NiO/Poly(4-alkylthiazole) Hybrid Interface for Promoting Spatial Charge Separation in Photoelectrochemical Water Reduction. Acs Applied Materials and Interfaces 12(26): 29173-29180
Afshar, S.; Zamani, H.A.; Karimi-Maleh, H. 2020: NiO/SWCNTs coupled with an ionic liquid composite for amplified carbon paste electrode; a feasible approach for improving sensing ability of adrenalone and folic acid in dosage form. Journal of Pharmaceutical and Biomedical Analysis 188: 113393
Liu, S.-Y.; Ru, J.; Liu, F. 2021: NiP/CuO composites: Electroless plating synthesis, antibiotic photodegradation and antibacterial properties. Chemosphere 267: 129220
Panda, S.K.; Dasgupta, I.; Şaşıoğlu, E.; Blügel, S.; Sarma, D.D. 2013: NiS--an unusual self-doped, nearly compensated antiferromagnetic metal. Scientific Reports 3: 2995
Mei, H.; Huang, Z.; Xu, B.; Xiao, Z.; Mei, Y.; Zhang, H.; Zhang, S.; Li, D.; Kang, W.; Sun, D.Feng. 2020: NiSe 2 /Ni(OH) 2 Heterojunction Composite through Epitaxial-like Strategy as High-Rate Battery-Type Electrode Material. Nano-MicroLetters 12(1): 61
Hellyer, P. 2020: NiTi instruments considered reusable in the USA?. British Dental Journal 228(5): 344
Hellyer, P. 2020: NiTi rotary systems compared. British Dental Journal 229(7): 473
Thorley, J. 2020: Nia Heard-Garris: illuminating impacts of racism on child health. LANCET. Child and Adolescent Health 4(9): 649
Thorley, J. 2020: Nia Heard-Garris: illuminating impacts of racism on child health. LANCET. Child and Adolescent Health 4(9): 649
Jia, D.; Bai, P.; Wan, N.; Liu, J.; Zhu, Q.; He, Y.; Chen, G.; Wang, J.; Chen, H.; Wang, C.; Lyu, A.; Lazarus, M.; Su, Y.; Urade, Y.; Yu, Y.; Zhang, J.; Shen, Y. 2020: Niacin Attenuates Pulmonary Hypertension Through H-PGDS in Macrophages. Circulation Research 127(10): 1323-1336
Pirinen, E.; Auranen, M.; Khan, N.A.; Brilhante, V.; Urho, N.; Pessia, A.; Hakkarainen, A.; Ulla Heinonen, J.K.; Schmidt, M.S.; Haimilahti, K.; Piirilä, P.äi.; Lundbom, N.; Taskinen, M.-R.; Brenner, C.; Velagapudi, V.; Pietiläinen, K.H.; Suomalainen, A. 2020: Niacin Cures Systemic NAD+ Deficiency and Improves Muscle Performance in Adult-Onset Mitochondrial Myopathy. Cell Metabolism 32(1): 144
Chong, R.; Wakade, C.; Seamon, M.; Giri, B.; Morgan, J.; Purohit, S. 2021: Niacin Enhancement for Parkinson's Disease: An Effectiveness Trial. Frontiers in Aging Neuroscience 13: 667032
Ronsein, G.E.; Vaisar, T.; Davidson, W.S.; Bornfeldt, K.E.; Probstfield, J.L.; O'Brien, K.D.; Zhao, X.-Q.; Heinecke, J.W. 2021: Niacin Increases Atherogenic Proteins in High-Density Lipoprotein of Statin-Treated Subjects. Arteriosclerosis Thrombosis and Vascular Biology 41(8): 2330-2341
Deng, Y.; Hu, J.; Qu, Z.; Tao, R.; Wang, G.; Liu, W. 2020: Niacin Metal-Organic Framework-Laden Self-Healing Hydrogel for Wound Healing. Journal of Biomedical Nanotechnology 16(12): 1719-1726
Li, J.; Kong, D.; Wang, Q.; Wu, W.; Tang, Y.; Bai, T.; Guo, L.; Wei, L.; Zhang, Q.; Yu, Y.; Qian, Y.; Zuo, S.; Liu, G.; Liu, Q.; Wu, S.; Zang, Y.; Zhu, Q.; Jia, D.; Wang, Y.; Yao, W.; Ji, Y.; Yin, H.; Nakamura, M.; Lazarus, M.; Breyer, R.M.; Wang, L.; Yu, Y. 2020: Niacin ameliorates ulcerative colitis via prostaglandin D2 -mediated D prostanoid receptor 1 activation. Embo Molecular Medicine 12(12): E13487
Roman, M.J. 2010: Niacin compared with ezetimibe. New England Journal of Medicine 362(11): 1047-1048; Author Reply 1048
Weiss, S.H. 2010: Niacin compared with ezetimibe. New England Journal of Medicine 362(11): 1047; Author Reply 1048
Hu, M.; Tomlinson, B. 2014: Niacin for reduction of cardiovascular risk. New England Journal of Medicine 371(20): 1941-1942
Ginsberg, H.N. 2006: Niacin in the metabolic syndrome: more risk than benefit?. Nature Clinical Practice. Endocrinology and Metabolism 2(6): 300-301
Fang, H.; Li, Z.; Graff, E.C.; McCafferty, K.J.; Judd, R.L. 2020: Niacin increases diet-induced hepatic steatosis in B6129 mice. Biochimica et Biophysica Acta. Molecular and Cell Biology of Lipids 1865(9): 158731
Montastier, E.; Beuzelin, D.; Martins, Fédéric.; Mir, L.; Marqués, M-Adeline.; Thalamas, C.; Iacovoni, J.; Langin, D.; Viguerie, N. 2019: Niacin induces miR-502-3p expression which impairs insulin sensitivity in human adipocytes. International Journal of Obesity 43(7): 1485-1490
Schaffellner, S.; Stadlbauer, V.; Sereinigg, M.; Mìller, H.; Högenauer, C.; Fickert, P.; Krumnikl, J.; Lackner, C.; Kniepeiss, D.; Stauber, R.E. 2017: Niacin-Associated Acute Hepatotoxicity Leading to Emergency Liver Transplantation. American Journal of Gastroenterology 112(8): 1345-1346
Gavilán, J.C.; Bermúdez, F.J.é; Belmonte, A.és.; González-Santos, P. 2002: Niacin-induced hepatitis. Medicina Clinica 118(14): 558
Creider, J.C.; Hegele, R.A.; Joy, T.R. 2012: Niacin: another look at an underutilized lipid-lowering medication. Nature Reviews. Endocrinology 8(9): 517-528
Choi, Y.-H.; Shin, J.Y.; Kim, J.; Kang, N.-G.; Lee, S. 2021: Niacinamide Down-Regulates the Expression of DKK-1 and Protects Cells from Oxidative Stress in Cultured Human Dermal Papilla Cells. Clinical Cosmetic and Investigational Dermatology 14: 1519-1528
Sahin, K.; Kucuk, O.; Orhan, C.; Tuzcu, M.; Durmus, A.Said.; Ozercan, I.Hanifi.; Sahin, N.; Juturu, V. 2021: Niacinamide and undenatured type II collagen modulates the inflammatory response in rats with monoiodoacetate-induced osteoarthritis. Scientific Reports 11(1): 14724
Bierman, J.C.; Laughlin, T.; Tamura, M.; Hulette, B.C.; Mack, C.E.; Sherrill, J.D.; Tan, C.Y.R.; Morenc, M.; Bellanger, S.; Oblong, J.E. 2020: Niacinamide mitigates SASP-related inflammation induced by environmental stressors in human epidermal keratinocytes and skin. International Journal of Cosmetic Science 42(5): 501-511
Rosa, J.J. 1962: Nialamide in the treatment of chronic alcoholism. La Semana Medica 120: 792-794
Li, Y-Lin.; Liu, L-Na.; Huang, L.; An, H-Wen.; Jian, J-Lin.; Pang, J.; Lin, F-Na.; Yang, W-Qin.; Li, J-Shan.; Jiang, Q.; Wang, H. 2020: Niao Du Kang Mixture Increases the Expression of mir-129-5p to Relieve Renal Fibrosis. Evidence-BasedComplementaryandAlternativeMedicine:Ecam 2020: 1841890
Chen, J.; Cui, X.; Zacharek, A.; Ding, G.Liang.; Shehadah, A.; Jiang, Q.; Lu, M.; Chopp, M. 2009: Niaspan treatment increases tumor necrosis factor-alpha-converting enzyme and promotes arteriogenesis after stroke. Journal of Cerebral Blood Flow and Metabolism: Official Journal of the International Society of Cerebral Blood Flow and Metabolism 29(5): 911-920
Adachi, H.; Majima, S.; Kon, S.; Kobayashi, T.; Kajino, K.; Mitani, H.; Hirayama, Y.; Shiina, H.; Igawa, M.; Hino, O. 2004: Niban gene is commonly expressed in the renal tumors: a new candidate marker for renal carcinogenesis. Oncogene 23(19): 3495-3500
Haffner, C.; Frauli, Mélanie.; Topp, S.; Irmler, M.; Hofmann, K.; Regula, Jörg.T.; Bally-Cuif, L.; Haass, C. 2004: Nicalin and its binding partner Nomo are novel Nodal signaling antagonists. EMBO Journal 23(15): 3041-3050
Costa-Casaretto, C.; Rojas, N. 1995: Nicanor Rojas, dean of the School of Medicine during Balmaceda's dictatorship. Revista Medica de Chile 123(7): 916-922
Laursen, L. 2015: Nicaragua defies canal protests. Nature 517(7532): 7-8
McCrary, J.K. 2015: Nicaragua: Biodiversity on canal route already at risk. Nature 525(7567): 33
Chen, Y.-C.; Chen, J.-H.; Tsai, C.-F.; Wu, C.-T.; Wu, M.-H.; Chang, P.-C.; Yeh, W.-L. 2021: Nicardipine Inhibits Breast Cancer Migration via Nrf2/HO-1 Axis and Matrix Metalloproteinase-9 Regulation. Frontiers in Pharmacology 12: 710978
Fagan, T.C.; Brown, R.; Schnaper, H.; Smolens, P.; Montijo, M.; Michelson, E.; Conrad, K.A.; Lessem, J.; Freedman, D. 1989: Nicardipine and hydrochlorothiazide in essential hypertension. Clinical Pharmacology and Therapeutics 45(4): 429-438
Chen, F.; Yu, G.; Arawaka, S.; Nishimura, M.; Kawarai, T.; Yu, H.; Tandon, A.; Supala, A.; Song, Y.Q.; Rogaeva, E.; Milman, P.; Sato, C.; Yu, C.; Janus, C.; Lee, J.; Song, L.; Zhang, L.; Fraser, P.E.; St George-Hyslop, P.H. 2001: Nicastrin binds to membrane-tethered Notch. Nature Cell Biology 3(8): 751-754
Chung, H.M.; Struhl, G. 2001: Nicastrin is required for Presenilin-mediated transmembrane cleavage in Drosophila. Nature Cell Biology 3(12): 1129-1132
Yu, G.; Nishimura, M.; Arawaka, S.; Levitan, D.; Zhang, L.; Tandon, A.; Song, Y.Q.; Rogaeva, E.; Chen, F.; Kawarai, T.; Supala, A.; Levesque, L.; Yu, H.; Yang, D.S.; Holmes, E.; Milman, P.; Liang, Y.; Zhang, D.M.; Xu, D.H.; Sato, C.; Rogaev, E.; Smith, M.; Janus, C.; Zhang, Y.; Aebersold, R.; Farrer, L.S.; Sorbi, S.; Bruni, A.; Fraser, P.; St George-Hyslop, P. 2000: Nicastrin modulates presenilin-mediated notch/glp-1 signal transduction and betaAPP processing. Nature 407(6800): 48-54
Miskinyte, S.; Nassif, A.; Merabtene, F.; Ungeheuer, M-Noëlle.; Join-Lambert, O.; Jais, J-Philippe.; Hovnanian, A. 2012: Nicastrin mutations in French families with hidradenitis suppurativa. Journal of Investigative Dermatology 132(6): 1728-1730
Leese, G.P. 2020: Nice guideline on thyroid disease: where does it take us with liothyronine?. Thyroid Research 13: 7
Steen, T. 2010: Nice words about hospital reform. Tidsskrift for den Norske Laegeforening: Tidsskrift for Praktisk Medicin Ny Raekke 130(23): 2341-2342
Smith, J. 2000: Nice work--but is it science?. Nature 408(6810): 293
Alexandre, J.ér.ôm.; Le Frere-Belda, M.A.; Prulhiere, K.; Treilleux, I.; Leary, A.; Pomel, C.; Chargari, C.; Ducassou, A.; Joly, F. 2020: Nice-Saint-Paul de Vence 2020 recommendations for clinical practice: Management of metastatic and/or relapsing endometrial cancer. Bulletin du Cancer 107(10): 1006-1018
Jia, Y.; Wang, G.; Ye, Y.; Kang, E.; Chen, H.; Guo, Z.; He, X. 2021: Niche Cells Crosstalk in Neuroinflammation After Traumatic Brain Injury. International Journal of Biological Sciences 17(1): 368-378
Zhang, Q.; Acuña, J.J.; Inostroza, N.G.; Duran, P.; Mora, M.ía.L.; Sadowsky, M.J.; Jorquera, M.A. 2020: Niche Differentiation in the Composition, Predicted Function, and Co-occurrence Networks in Bacterial Communities Associated with Antarctic Vascular Plants. Frontiers in Microbiology 11: 1036
Li, H.; Yang, Q.; Zhou, H. 2020: Niche Differentiation of Sulfate- and Iron-Dependent Anaerobic Methane Oxidation and Methylotrophic Methanogenesis in Deep Sea Methane Seeps. Frontiers in Microbiology 11: 1409
Au, H.-K.; Peng, S.-W.; Guo, C.-L.; Lin, C.-C.; Wang, Y.-L.; Kuo, Y.-C.; Law, T.-Y.; Ho, H.-N.; Ling, T.-Y.; Huang, Y.-H. 2021: Niche Laminin and IGF-1 Additively Coordinate the Maintenance of Oct-4 Through CD49f/IGF-1R-Hif-2α Feedforward Loop in Mouse Germline Stem Cells. Frontiers in Cell and Developmental Biology 9: 646644
Heyman, O.; Horev, Y.; Koren, N.; Barel, O.; Aizenbud, I.; Aizenbud, Y.; Brandwein, M.; Shapira, L.; Hovav, A.H.; Wilensky, A. 2020: Niche Specific Microbiota-Dependent and Independent Bone Loss around Dental Implants and Teeth. Journal of Dental Research 99(9): 1092-1101
Valdovinos, F.S.; Marsland, R. 2021: Niche Theory for Mutualism: a Graphical Approach to Plant-Pollinator Network Dynamics. American Naturalist 197(4): 393-404
Li, S-Peng.; Tan, J.; Yang, X.; Ma, C.; Jiang, L. 2019: Niche and fitness differences determine invasion success and impact in laboratory bacterial communities. Isme Journal 13(2): 402-412
Ofek-Lalzar, M.; Sela, N.; Goldman-Voronov, M.; Green, S.J.; Hadar, Y.; Minz, D. 2014: Niche and host-associated functional signatures of the root surface microbiome. Nature Communications 5: 4950
Venkatraman, A.; Li, L. 2019: Niche cells rewired to maintain HSCs ex vivo. Nature Cell Biology 21(5): 540-541
Xing, Z.; Zhang, L.; Wu, S.; Yi, H.; Gao, Y.; Lei, Z. 2017: Niche comparison among two invasive leafminer species and their parasitoid Opius biroi: implications for competitive displacement. Scientific Reports 7(1): 4246
Hu, J.; Broennimann, O.; Guisan, A.; Wang, B.; Huang, Y.; Jiang, J. 2016: Niche conservatism in Gynandropaa frogs on the southeastern Qinghai-Tibetan Plateau. Scientific Reports 6: 32624
Cunze, S.; Kochmann, J.; Koch, L.K.; Klimpel, S. 2018: Niche conservatism of Aedes albopictus and Aedes aegypti - two mosquito species with different invasion histories. Scientific Reports 8(1): 7733
Renders, S.; Svendsen, A.Flohr.; Panten, J.; Rama, N.; Maryanovich, M.; Sommerkamp, P.; Ladel, L.; Redavid, A.Rita.; Gibert, B.; Lazare, S.; Ducarouge, B.; Schönberger, K.; Narr, A.; Tourbez, M.; Dethmers-Ausema, B.; Zwart, E.; Hotz-Wagenblatt, A.; Zhang, D.; Korn, C.; Zeisberger, P.; Przybylla, A.; Sohn, M.; Mendez-Ferrer, S.; Heikenwälder, M.; Brune, M.; Klimmeck, D.; Bystrykh, L.; Frenette, P.S.; Mehlen, P.; de Haan, G.; Cabezas-Wallscheid, N.; Trumpp, A. 2021: Niche derived netrin-1 regulates hematopoietic stem cell dormancy via its receptor neogenin-1. Nature Communications 12(1): 608
Macalady, J.L.; Dattagupta, S.; Schaperdoth, I.; Jones, D.S.; Druschel, G.K.; Eastman, D. 2008: Niche differentiation among sulfur-oxidizing bacterial populations in cave waters. Isme Journal 2(6): 590-601
Peñalver-Alcázar, M.; Jiménez-Valverde, A.; Aragón, P. 2021: Niche differentiation between deeply divergent phylogenetic lineages of an endemic newt: implications for Species Distribution Models. Zoology 144: 125852
Escalante, M.A.; Horníková, M.; Marková, S.; Kotlík, P. 2021: Niche differentiation in a postglacial colonizer, the bank vole Clethrionomys glareolus. Ecology and Evolution 11(12): 8054-8070
Baldrich, Án.M.; Pérez-Santos, I.án.; Álvarez, G.; Reguera, B.; Fernández-Pena, C.ón.; Rodríguez-Villegas, C.; Araya, M.; Álvarez, F.; Barrera, F.; Karasiewicz, S.ép.; Díaz, P.A. 2021: Niche differentiation of Dinophysis acuta and D. acuminata in a stratified fjord. Harmful Algae 103: 102010
Wong, H.Lun.; Smith, D-Lee.; Visscher, P.T.; Burns, B.P. 2015: Niche differentiation of bacterial communities at a millimeter scale in Shark Bay microbial mats. Scientific Reports 5: 15607
Harikrishnan, S.; Vasudevan, K. 2018: Niche dissociated assembly drives insular lizard community organization. Scientific Reports 8(1): 11978
Hu, J.; Jiang, Z.; Chen, J.; Qiao, H. 2015: Niche divergence accelerates evolution in Asian endemic Procapra gazelles. Scientific Reports 5: 10069
Moo-Llanes, D.A.; Pech-May, A.él.; de Oca-Aguilar, A.C.M.; Salomón, O.D.; Ramsey, J.M. 2020: Niche divergence and paleo-distributions of Lutzomyia longipalpis mitochondrial haplogroups (Diptera: Psychodidae). Acta Tropica 211: 105607
Smaldino, P.E.; Lukaszewski, A.; von Rueden, C.; Gurven, M. 2019: Niche diversity can explain cross-cultural differences in personality structure. Nature Human Behaviour 3(12): 1276-1283
Tracey, W.Ross. 2007: Niche drugs aren't a cheap alternative to blockbusters. Nature 445(7130): 818
Cui, X.; Liu, X.-L.; Shen, G.; Ma, J.; Husain, F.; Rocher, D.; Zumberge, J.E.; Bryant, D.A.; Summons, R.E. 2020: Niche expansion for phototrophic sulfur bacteria at the Proterozoic-Phanerozoic transition. Proceedings of the National Academy of Sciences of the United States of America 117(30): 17599-17606
Price, T.D.; Hooper, D.M.; Buchanan, C.D.; Johansson, U.S.; Tietze, D.Thomas.; Alström, P.; Olsson, U.; Ghosh-Harihar, M.; Ishtiaq, F.; Gupta, S.K.; Martens, J.; Harr, B.; Singh, P.; Mohan, D. 2014: Niche filling slows the diversification of Himalayan songbirds. Nature 509(7499): 222-225
Tuo, S.; Zhang, J.; Yuan, X.; He, Z.; Liu, Y.; Liu, Z. 2017: Niche harmony search algorithm for detecting complex disease associated high-order SNP combinations. Scientific Reports 7(1): 11529
Ransom, J. 2006: Niche indications could drive higher valuations. Nature Biotechnology 24(12): 1457
Losos, J.B.; Leal, M.; Glor, R.E.; De Queiroz, K.; Hertz, P.E.; Rodríguez Schettino, L.; Lara, A.Chamizo.; Jackman, T.R.; Larson, A. 2003: Niche lability in the evolution of a Caribbean lizard community. Nature 424(6948): 542-545
Kaye, J. 2009: Niche marketing: regulation of the homeostasis of naive CD4+ T cells. Nature Immunology 10(2): 136-138
Rodríguez-Rodríguez, E.José.; Beltrán, J.F.; Tejedo, M.; Nicieza, A.G.; Llusia, D.; Márquez, R.; Aragón, P. 2020: Niche models at inter- and intraspecific levels reveal hierarchical niche differentiation in midwife toads. Scientific Reports 10(1): 10942
Tsafack, N.; Wang, X.; Xie, Y.; Fattorini, S. 2021: Niche overlap and species co-occurrence patterns in carabid communities of the northern Chinese steppes. Zookeys 1044: 929-949
Horák, J. 2021: Niche partitioning among dead wood-dependent beetles. Scientific Reports 11(1): 15178
Torretta, E.; Riboldi, L.; Costa, E.; Delfoco, C.; Frignani, E.; Meriggi, A. 2021: Niche partitioning between sympatric wild canids: the case of the golden jackal (Canis aureus) and the red fox (Vulpes vulpes) in north-eastern Italy. Bmc Ecology and Evolution 21(1): 129
Cambon-Bonavita, M.-A.; Aubé, J.; Cueff-Gauchard, V.ér.; Reveillaud, J. 2021: Niche partitioning in the Rimicaris exoculata holobiont: the case of the first symbiotic Zetaproteobacteria. Microbiome 9(1): 87
Ormrod, A.E.C.; Doyle, F.I.; Lawson, K.J.; Hodges, K.E. 2021: Niche partitioning of avian predators in northern grasslands amended by biosolids. Ecology and Evolution 11(11): 6248-6259
Pavlovska, M.; Prekrasna, I.; Dykyi, E.; Zotov, A.; Dzhulai, A.; Frolova, A.; Slobodnik, J.; Stoica, E. 2021: Niche partitioning of bacterial communities along the stratified water column in the Black Sea. MicrobiologyOpen 10(3): e1195
Meier, D.V.; Pjevac, P.; Bach, W.; Hourdez, S.; Girguis, P.R.; Vidoudez, C.; Amann, R.; Meyerdierks, A. 2017: Niche partitioning of diverse sulfur-oxidizing bacteria at hydrothermal vents. Isme Journal 11(7): 1545-1558
Mayr, M.J.; Zimmermann, M.; Guggenheim, C.; Brand, A.; Bürgmann, H. 2020: Niche partitioning of methane-oxidizing bacteria along the oxygen-methane counter gradient of stratified lakes. Isme Journal 14(1): 274-287
Peipoch, M.; Miller, S.R.; Antao, T.R.; Valett, H.Maurice. 2019: Niche partitioning of microbial communities in riverine floodplains. Scientific Reports 9(1): 16384
Singh, S.A.; Elsler, A.; Stubbs, T.L.; Bond, R.; Rayfield, E.J.; Benton, M.J. 2021: Niche partitioning shaped herbivore macroevolution through the early Mesozoic. Nature Communications 12(1): 2796
Horev, Y.; Salameh, R.; Nassar, M.; Capucha, T.; Saba, Y.; Barel, O.; Zubeidat, K.; Matanes, D.; Leibovich, A.; Heyman, O.; Eli-Berchoer, L.; Hanhan, S.; Betser-Cohen, G.; Shapiro, H.; Elinav, E.; Bercovier, H.; Wilensky, A.; Hovav, A-Hai. 2020: Niche rather than origin dysregulates mucosal Langerhans cells development in aged mice. Mucosal Immunology 13(5): 767-776
Li, W.; Hayashida, Y.; Chen, Y-Ting.; Tseng, S.C.G. 2007: Niche regulation of corneal epithelial stem cells at the limbus. Cell Research 17(1): 26-36
Tseng, S.C.G.; Chen, S.-Y.; Mead, O.G.; Tighe, S. 2020: Niche regulation of limbal epithelial stem cells: HC-HA/PTX3 as surrogate matrix niche. Experimental Eye Research 199: 108181
Grover, S.B.; Antil, N.; Katyan, A.; Rajani, H.; Grover, H.; Mittal, P.; Prasad, S. 2020: Niche role of MRi in the evaluation of female infertility. Indian Journal of Radiology and Imaging 30(1): 32-45
Pitcher, A.; Villanueva, L.; Hopmans, E.C.; Schouten, S.; Reichart, G-Jan.; Sinninghe Damsté, J.S. 2011: Niche segregation of ammonia-oxidizing archaea and anammox bacteria in the Arabian Sea oxygen minimum zone. Isme Journal 5(12): 1896-1904
Ndayambaje, P.; Wei, L.; Zhang, T.; Li, Y.; Liu, L.; Huang, X.; Liu, C. 2021: Niche separation and weak interactions in the high tidal zone of saltmarsh-mangrove mixing communities. Ecology and Evolution 11(9): 3871-3883
Lapiedra, O.; Sayol, F.; Garcia-Porta, J.; Sol, D. 2021: Niche shifts after island colonization spurred adaptive diversification and speciation in a cosmopolitan bird clade. PROCEEDINGS. Biological Sciences 288(1958): 20211022
Pili, A.N.; Tingley, R.; Sy, E.Y.; Diesmos, M.Lowe.L.; Diesmos, A.C. 2020: Niche shifts and environmental non-equilibrium undermine the usefulness of ecological niche models for invasion risk assessments. Scientific Reports 10(1): 7972
Morgan, E.J.; Čertner, M.; Lučanová, M.; Kubíková, K.ři.; Marhold, K.; Kolář, F. 2020: Niche similarity in diploid-autotetraploid contact zones of Arabidopsis arenosa across spatial scales. American Journal of Botany 107(10): 1375-1388
Wirth, T.; Bergot, M.; Rasigade, J-Philippe.; Pichon, B.; Barbier, M.; Martins-Simoes, P.; Jacob, L.; Pike, R.; Tissieres, P.; Picaud, J-Charles.; Kearns, A.; Supply, P.; Butin, M.; Laurent, Fédéric.; Adamkova, V.; Barkham, T.; Becker, K.; Bennett, D.; Claris, O.; Creech, C.Buddy.; De Lencastre, H.; Deighton, M.; Denis, O.; Ferguson, J.; Huang, Y-Chering.; Klingenberg, C.; Ingebretsen, A.; Laferrière, C.; Dos Santos, K.Regina.Netto.; Schrenzel, J.; Spiliopoulou, I.; Stefani, S.; TaekSoo, K.; Tarkka, E.; Friedrich, A.; Vandenbroucke-Grauls, C.; Ussher, J.; V 2020: Niche specialization and spread of Staphylococcus capitis involved in neonatal sepsis. Nature Microbiology 5(5): 735-745
Shehata, H.R.; Ragupathy, S.; Henry, T.A.; Newmaster, S.G. 2021: Niche specificity and functional diversity of the bacterial communities associated with Ginkgo biloba and Panax quinquefolius. Scientific Reports 11(1): 10803
Segel, M.; Neumann, Börn.; Hill, M.F.E.; Weber, I.P.; Viscomi, C.; Zhao, C.; Young, A.; Agley, C.C.; Thompson, A.J.; Gonzalez, G.A.; Sharma, A.; Holmqvist, S.; Rowitch, D.H.; Franze, K.; Franklin, R.J.M.; Chalut, K.J. 2019: Niche stiffness underlies the ageing of central nervous system progenitor cells. Nature 573(7772): 130-134
Quillfeldt, P.; Weimerskirch, H.; Delord, K.; Cherel, Y. 2020: Niche switching and leapfrog foraging: movement ecology of sympatric petrels during the early breeding season. Movement Ecology 8: 23
Nieto-Rabiela, F.; Rico-Chávez, O.; Suzán, G.; Stephens, C.R. 2021: Niche theory-based modeling of assembly processes of viral communities in bats. Ecology and Evolution 11(11): 6305-6314
Pan, Q.; Cen, S.; Yu, L.; Tian, F.; Zhao, J.; Zhang, H.; Chen, W.; Zhai, Q. 2020: Niche-Specific Adaptive Evolution of Lactobacillus plantarum Strains Isolated from Human Feces and Paocai. Frontiers in Cellular and Infection Microbiology 10: 615876
Mönnich, J.; Tebben, J.; Bergemann, J.; Case, R.; Wohlrab, S.; Harder, T. 2020: Niche-based assembly of bacterial consortia on the diatom Thalassiosira rotula is stable and reproducible. Isme Journal 14(6): 1614-1625
Hartwell, K.A.; Miller, P.G.; Mukherjee, S.; Kahn, A.R.; Stewart, A.L.; Logan, D.J.; Negri, J.M.; Duvet, M.; Järås, M.; Puram, R.; Dancik, V.; Al-Shahrour, F.; Kindler, T.; Tothova, Z.; Chattopadhyay, S.; Hasaka, T.; Narayan, R.; Dai, M.; Huang, C.; Shterental, S.; Chu, L.P.; Haydu, J.Erika.; Shieh, J.Hung.; Steensma, D.P.; Munoz, B.; Bittker, J.A.; Shamji, A.F.; Clemons, P.A.; Tolliday, N.J.; Carpenter, A.E.; Gilliland, D.Gary.; Stern, A.M.; Moore, M.A.S.; Scadden, D.T.; Schreiber, S.L.; Ebert, B.L.; Golub, T.R. 2013: Niche-based screening identifies small-molecule inhibitors of leukemia stem cells. Nature Chemical Biology 9(12): 840-848
Grassi, E.S.; Jeannot, P.; Pantazopoulou, V.; Berg, T.J.; Pietras, A. 2020: Niche-derived soluble DLK1 promotes glioma growth. Neoplasia 22(12): 689-701
Patel, S.A.; Dalela, D.; Fan, A.C.; Lloyd, M.R.; Zhang, T.Y. 2021: Niche-directed therapy in acute myeloid leukemia: optimization of stem cell competition for niche occupancy. Leukemia and Lymphoma 2021: 1-9
Yin, X.; Farin, H.F.; van Es, J.H.; Clevers, H.; Langer, R.; Karp, J.M. 2014: Niche-independent high-purity cultures of Lgr5+ intestinal stem cells and their progeny. Nature Methods 11(1): 106-112
Mesa, K.R.; Rompolas, P.; Zito, G.; Myung, P.; Sun, T.Y.; Brown, S.; Gonzalez, D.G.; Blagoev, K.B.; Haberman, A.M.; Greco, V. 2015: Niche-induced cell death and epithelial phagocytosis regulate hair follicle stem cell pool. Nature 522(7554): 94-97
Oda, A.; Tezuka, T.; Ueno, Y.; Hosoda, S.; Amemiya, Y.; Notsu, C.; Kasahara, T.; Nishiyama, C.; Goitsuka, R. 2018: Niche-induced extramedullary hematopoiesis in the spleen is regulated by the transcription factor Tlx1. Scientific Reports 8(1): 8308
Masuda, S.; Li, M.; Izpisua Belmonte, J.Carlos. 2013: Niche-less maintenance of HSCs by 2i. Cell Research 23(4): 458-459
Peerani, R.; Rao, B.M.; Bauwens, C.; Yin, T.; Wood, G.A.; Nagy, A.; Kumacheva, E.; Zandstra, P.W. 2007: Niche-mediated control of human embryonic stem cell self-renewal and differentiation. EMBO Journal 26(22): 4744-4755
Cohen, Y.; Garach-Jehoshua, O.; Bar-Chaim, A.; Kornberg, A. 2012: Niche-modulated and niche-modulating genes in bone marrow cells. Blood Cancer Journal 2: E97
Ma, Z.S. 2021: Niche-neutral theoretic approach to mechanisms underlying the biodiversity and biogeography of human microbiomes. Evolutionary Applications 14(2): 322-334
McNeilly, T.N.; Frew, D.; Burgess, S.T.G.; Wright, H.; Bartley, D.J.; Bartley, Y.; Nisbet, A.J. 2017: Niche-specific gene expression in a parasitic nematode; increased expression of immunomodulators in Teladorsagia circumcincta larvae derived from host mucosa. Scientific Reports 7(1): 7214
Shaner, P.-J.L.; Chen, Y.-K.; Hsu, Y.-C. 2021: Niche-trait relationships at individual and population level in three co-occurring passerine species. Ecology and Evolution 11(12): 7378-7389
Kurenkova, A.D.; Medvedeva, E.V.; Newton, P.T.; Chagin, A.S. 2020: Niches for Skeletal Stem Cells of Mesenchymal Origin. Frontiers in Cell and Developmental Biology 8: 592
Wu, F.; Liao, B.; Chen, Y.; Jiang, Z.; Guo, Y.; Li, M. 2020: Niches of nine mangrove species in a Sonneratia apetala-colonized area of Dongzhai Harbor, Hainan Island, China. Ecology and Evolution 10(20): 11838-11846
Xing, P.; Hahnke, R.L.; Unfried, F.; Markert, S.; Huang, S.; Barbeyron, T.; Harder, J.; Becher, Dörte.; Schweder, T.; Glöckner, F.Oliver.; Amann, R.I.; Teeling, H. 2015: Niches of two polysaccharide-degrading Polaribacter isolates from the North Sea during a spring diatom bloom. Isme Journal 9(6): 1410-1422
Maes, H.H.; Martin, N. 2020: Nicholas (Nick) G. Martin and the Extended Twin Model. Twin Research and Human Genetics: the Official Journal of the International Society for Twin Studies 23(2): 84-86
Herrero, M. 2020: Nicholas Snow (Ed.): Basic multidimensional gas chromatography. Analytical and Bioanalytical Chemistry 412(25): 6637-6638
Pyle, A. 2021: Nicholas' gift. Nursing 51(11): 58-59
Keller, M.C.; Martin, N. 2020: Nick Martin as a Mentor - a Perspective. Twin Research and Human Genetics: the Official Journal of the International Society for Twin Studies 23(2): 112-113
Colodro-Conde, L.ía.; Couvy-Duchesne, B.; Martin, N. 2020: Nick Martin's Contribution to GxE Research. Twin Research and Human Genetics: the Official Journal of the International Society for Twin Studies 23(2): 131-134
Verweij, K.J.H.; Zietsch, B.P.; Martin, N. 2020: Nick Martin's Contributions to Human Sexuality Research. Twin Research and Human Genetics: the Official Journal of the International Society for Twin Studies 23(2): 116-117
Chaffey, N. 2001: Nick P, ed. 2000. Plant microtubules: potential for biotechnology . 209 pp. Berlin, Heidelberg, New York: Springer. £51.50 (hardback). Annals of Botany 87(2): 286-287
Ransford, N.; Doherty, R. 2014: Nick Ransford: 'There is a job to do so let's get on with it'. British Dental Journal 216(5): 218-219
Cao, B.; Wu, X.; Zhou, J.; Wu, H.; Liu, L.; Zhang, Q.; DeMott, M.S.; Gu, C.; Wang, L.; You, D.; Dedon, P.C. 2020: Nick-seq for single-nucleotide resolution genomic maps of DNA modifications and damage. Nucleic Acids Research 48(12): 6715-6725
Carreras-Badosa, G.; Maslovskaja, J.; Periyasamy, K.; Urgard, E.; Padari, K.är.; Vaher, H.; Tserel, L.; Gestin, M.; Kisand, K.; Arukuusk, P.; Lou, C.; Langel, Ül.; Wengel, J.; Pooga, M.; Rebane, A. 2020: NickFect type of cell-penetrating peptides present enhanced efficiency for microRNA-146a delivery into dendritic cells and during skin inflammation. Biomaterials 262: 120316
Lee, S.H.; Kim, D.K.; Seo, Y.R.; Woo, K.M.; Kim, C.S.; Cho, M.H. 1998: Nickel (II)-induced apoptosis and G2/M enrichment. Experimental and Molecular Medicine 30(3): 171-176
Karita, K. 2004: Nickel (Ni). Nihon Rinsho. Japanese Journal of Clinical Medicine 62(Suppl 12): 347-350
Cheng, J.; Qiao, L.; Xu, W.; Qian, Y.; Ge, Y.; Xia, T.; Li, Y. 2021: Nickel (ii) effects on Anammox reaction: reactor performance, dehydrogenase, sludge morphology and microbial community changes. Environmental Technology 2021: 1-27
Stroganova, E.A.; Kazakov, S.M.; Efimov, N.N.; Khrustalev, V.N.; Keilholz, S.; Götze, A.; Kohlmann, H.; Kuznetsov, A.N. 2020: Nickel - p-block metal mixed chalcogenides based on AuCu3-type fragments: iodine-assisted synthesis as a way of obtaining new structures. Dalton Transactions 49(42): 15081-15094
Olivier-Bourbigou, H.; Breuil, P.A.R.; Magna, L.; Michel, T.; Espada Pastor, M.F.; Delcroix, D. 2020: Nickel Catalyzed Olefin Oligomerization and Dimerization. Chemical Reviews 120(15): 7919-7983
Kang, H.; Uyeda, C. 2021: Nickel Catalyzed Vinylidene Insertions into O-H Bonds. Acs Catalysis 11(1): 193-198
Beka, L.Girma.; Li, X.; Liu, W. 2017: Nickel Cobalt Sulfide core/shell structure on 3D Graphene for supercapacitor application. Scientific Reports 7(1): 2105
Li, X.; Mo, H.; Zhou, C.; Ci, Y.; Wang, J.; Zang, L. 2021: Nickel Foam Promotes Syntrophic Metabolism of Propionate and Butyrate in Anaerobic Digestion. Acs Omega 6(32): 21033-21042
Li, J.; Xing, C.; Zhang, Y.; Zhang, T.; Spadaro, M.C.; Wu, Q.; Yi, Y.; He, S.; Llorca, J.; Arbiol, J.; Cabot, A.; Cui, C. 2021: Nickel Iron Diselenide for Highly Efficient and Selective Electrocatalytic Conversion of Methanol to Formate. Small 17(6): E2006623
Rizzi, A.; Chini, R.; Inchingolo, R.; Carusi, V.; Pandolfi, F.; Gasbarrini, A.; Nucera, E. 2020: Nickel allergy in lipid transfer protein sensitized patients: Prevalence and clinical features. International Journal of Immunopathology and Pharmacology 34: 2058738420974895
Baumann, C.A.; Crist, B.D. 2020: Nickel allergy to orthopaedic implants: a review and case series. Journal of Clinical Orthopaedics and Trauma 11(Suppl 4): S596-S603
Kriti; Basant, N.; Singh, J.; Kumari, B.; Sinam, G.; Gautam, A.; Singh, G.; Swapnil; Mishra, K.; Mallick, S. 2021: Nickel and cadmium phytoextraction efficiencies of vetiver and lemongrass grown on Ni-Cd battery waste contaminated soil: a comparative study of linear and nonlinear models. Journal of Environmental Management 295: 113144
Usui, A. 1979: Nickel and copper accumplation as essential elements in 10-A manganite of deep-sea manganese nodules. Nature 279(5712): 411-413
Herzberg, C.; Asimow, P.D.; Ionov, D.A.; Vidito, C.; Jackson, M.G.; Geist, D. 2013: Nickel and helium evidence for melt above the core-mantle boundary. Nature 493(7432): 393-397
Heng, M.P.; Sim, K.S.; Tan, K.W. 2020: Nickel and zinc complexes of testosterone N4-substituted thiosemicarbazone: Selective cytotoxicity towards human colorectal carcinoma cell line HCT 116 and their cell death mechanisms. Journal of Inorganic Biochemistry 208: 111097
Wu, X.; Huang, P.; Dong, C.; Deng, X. 2021: Nickel bioaccumulation by a marine bacterium Brevibacterium sp. (X6) isolated from Shenzhen Bay, China. Marine Pollution Bulletin 170: 112656
van der Ent, A.; Callahan, D.L.; Noller, B.N.; Mesjasz-Przybylowicz, J.; Przybylowicz, W.J.; Barnabas, A.; Harris, H.H. 2017: Nickel biopathways in tropical nickel hyperaccumulating trees from Sabah (Malaysia). Scientific Reports 7: 41861
Zhang, L.; Hu, X. 2020: Nickel catalysis enables convergent paired electrolysis for direct arylation of benzylic C-H bonds. Chemical Science 11(39): 10786-10791
Chakraborty, G.; Mondal, R.; Guin, A.K.; Paul, N.D. 2021: Nickel catalyzed sustainable synthesis of benzazoles and purines via acceptorless dehydrogenative coupling and borrowing hydrogen approach. Organic and Biomolecular Chemistry 19(33): 7217-7233
Benoit, Séphane.L.; Schmalstig, A.A.; Glushka, J.; Maier, S.E.; Edison, A.S.; Maier, R.J. 2019: Nickel chelation therapy as an approach to combat multi-drug resistant enteric pathogens. Scientific Reports 9(1): 13851
Yang, Y.; Zuo, Z.; Yang, Z.; Yin, H.; Wei, L.; Fang, J.; Guo, H.; Cui, H.; Ouyang, P.; Chen, X.; Chen, J.; Geng, Y.; Chen, Z.; Huang, C.; Zhu, Y.; Liu, W. 2021: Nickel chloride induces spermatogenesis disorder by testicular damage and hypothalamic-pituitary-testis axis disruption in mice. Ecotoxicology and Environmental Safety 225: 112718
Chen, J.; Wu, S.-J.; Cui, W.-J.; Guo, Y.-H.; Wang, T.-W.; Yao, Z.-W.; Shi, Y.; Zhao, H.; Liu, J.; Hu, Z.-Y.; Li, Y. 2022: Nickel clusters accelerating hierarchical zinc indium sulfide nanoflowers for unprecedented visible-light hydrogen production. Journal of Colloid and Interface Science 608(Part 1): 504-512
Shiozawa, H.; Briones-Leon, A.; Domanov, O.; Zechner, G.; Sato, Y.; Suenaga, K.; Saito, T.; Eisterer, M.; Weschke, E.; Lang, W.; Peterlik, H.; Pichler, T. 2015: Nickel clusters embedded in carbon nanotubes as high performance magnets. Scientific Reports 5: 15033
Zhong, Y.; Cao, X.; Liu, Y.; Cui, L.; Liu, J. 2021: Nickel cobalt manganese ternary carbonate hydroxide nanoflakes branched on cobalt carbonate hydroxide nanowire arrays as novel electrode material for supercapacitors with outstanding performance. Journal of Colloid and Interface Science 581(Part A): 11-20
Hao, Z.; Wei, P.; Kang, H.; Yang, Y.; Li, J.; Chen, X.; Guo, D.; Liu, L. 2020: Nickel cobalt oxide nanowires with iron incorporation realizing a promising electrocatalytic oxygen evolution reaction. Nanotechnology 31(43): 435707
Pettersson, H.; Rotschi, H. 1950: Nickel content of deep-sea deposits. Nature 166(4216): 308
Carrington, P.E.; Chivers, P.T.; Al-Mjeni, F.; Sauer, R.T.; Maroney, M.J. 2003: Nickel coordination is regulated by the DNA-bound state of NikR. Nature Structural Biology 10(2): 126-130
Mohan, H.; Yoo, S.; Thimmarayan, S.; Oh, H.S.; Kim, G.; Seralathan, K.-K.; Shin, T. 2021: Nickel decorated manganese oxynitride over graphene nanosheets as highly efficient visible light driven photocatalysts for acetylsalicylic acid degradation. Environmental Pollution 289: 117864
Tahir, K.; Miran, W.; Jang, J.; Maile, N.; Shahzad, A.; Moztahida, M.; Ghani, A.A.; Kim, B.; Jeon, H.; Lim, S.-R.; Lee, D.S. 2021: Nickel ferrite/MXene-coated carbon felt anodes for enhanced microbial fuel cell performance. Chemosphere 268: 128784
Paul, A.L.D.; Gei, V.; Isnard, S.; Fogliani, B.; Echevarria, G.; Erskine, P.D.; Jaffré, T.; Munzinger, J.ér.ôm.; van der Ent, A. 2020: Nickel hyperaccumulation in new Caledonian Hybanthus (Violaceae) and occurrence of nickel-rich phloem in Hybanthus austrocaledonicus. Annals of Botany 126(5): 905-914
Prider, R.T. 1970: Nickel in Western australia. Nature 226(5247): 691-693
El-Naggar, A.; Ahmed, N.; Mosa, A.; Niazi, N.K.; Yousaf, B.; Sharma, A.; Sarkar, B.; Cai, Y.; Chang, S.X. 2021: Nickel in soil and water: Sources, biogeochemistry, and remediation using biochar. Journal of Hazardous Materials 419: 126421
Kumar, A.; Jigyasu, D.K.; Kumar, A.; Subrahmanyam, G.; Mondal, R.; Shabnam, A.A.; Cabral-Pinto, M.M.S.; Malyan, S.K.; Chaturvedi, A.K.; Gupta, D.K.; Fagodiya, R.K.; Khan, S.A.; Bhatia, A. 2021: Nickel in terrestrial biota: Comprehensive review on contamination, toxicity, tolerance and its remediation approaches. Chemosphere 275: 129996
Navratilova, A.; Kovar, M.; Trakovicka, A.; Pozgajova, M. 2021: Nickel induced cell impairments are negatively regulated by the Tor1 kinase in Schizosaccharomyces pombe. World Journal of Microbiology and Biotechnology 37(10): 165
Yin, H.; Zuo, Z.; Yang, Z.; Guo, H.; Fang, J.; Cui, H.; Ouyang, P.; Chen, X.; Chen, J.; Geng, Y.; Chen, Z.; Huang, C.; Zhu, Y. 2021: Nickel induces autophagy via PI3K/AKT/mTOR and AMPK pathways in mouse kidney. Ecotoxicology and Environmental Safety 223: 112583
Wang, S-Jiong.; Wang, W.; Zhu, J-Ming.; Wu, Z.; Liu, J.; Han, G.; Teng, F-Zhen.; Huang, S.; Wu, H.; Wang, Y.; Wu, G.; Li, W. 2021: Nickel isotopic evidence for late-stage accretion of Mercury-like differentiated planetary embryos. Nature Communications 12(1): 294
Wu, N.; Zhai, M.; Chen, F.; Zhang, X.; Guo, R.; Hu, T.; Ma, M. 2020: Nickel nanocrystal/nitrogen-doped carbon composites as efficient and carbon monoxide-resistant electrocatalysts for methanol oxidation reactions. Nanoscale 12(42): 21687-21694
Hao, J.; Zhao, S.; Mao, R.; Zhao, X. 2021: Nickel phosphide on Ni foam as anode and peroxymonosulfate as the chemical oxidizer for effective direct urea fuel cell. Journal of Environmental Sciences 110: 84-91
Basker, R.M. 1981: Nickel sensitivity. Some dental implications. British Dental Journal 151(12): 414-415
Nádudvari, N.ór.; Németh, D.; Pónyai, G.ör.; Sárdy, M.ós.; Temesvári, E.éb. 2021: Nickel sensitization: impact of the European Union Nickel Directives. Orvosi Hetilap 162(16): 629-637
Zhao, S.-C.; Xu, Z.-R.; Xu, C.-L.; He, Q.-K.; Yang, G.-M.; Li, Y.-P.; Luo, Y.-S.; Wang, H.-L.; Qi, Z.-Q.; Liu, Y. 2021: Nickel sulfate exposure induces ovarian inflammation and fibrosis and decreases oocyte quality in mice. Ecotoxicology and Environmental Safety 224: 112634
Yan, Z.; Xiao, J.; Lai, W.; Wang, L.; Gebert, F.; Wang, Y.; Gu, Q.; Liu, H.; Chou, S-Lei.; Liu, H.; Dou, S-Xue. 2019: Nickel sulfide nanocrystals on nitrogen-doped porous carbon nanotubes with high-efficiency electrocatalysis for room-temperature sodium-sulfur batteries. Nature Communications 10(1): 4793
Meng, A.; Hong, X.; Zhang, H.; Tian, W.; Li, Z.; Sheng, L.; Li, Q. 2021: Nickel sulfide nanoworm network architecture as a binder-free high-performance non-enzymatic glucose sensor. Mikrochimica Acta 188(2): 34
Zhuang, Z.; Giles, S.A.; Zheng, J.; Jenness, G.R.; Caratzoulas, S.; Vlachos, D.G.; Yan, Y. 2016: Nickel supported on nitrogen-doped carbon nanotubes as hydrogen oxidation reaction catalyst in alkaline electrolyte. Nature Communications 7: 10141
Edulamudi, P.; Antony Masilamani, A.Johnson.; Vanga, U.Rao.; Divi, V.Ramana.Sai.Gopal.; Konada, V.Mallaiah. 2021: Nickel tolerance and biosorption potential of rhizobia associated with horse gram [ Macrotyloma uniflorum (Lam.) Verdc.. International Journal of Phytoremediation 2021: 1-7
Ge, J.; Wang, H.; Lin, J.; Tian, S.; Zhao, J.; Lin, X.; Lu, L. 2020: Nickel tolerance, translocation and accumulation in a Cd/Zn co-hyperaccumulator plant Sedum alfredii. Journal of Hazardous Materials 398: 123074
Malea, P.; Mylona, Z.; Panteris, E.; Kevrekidis, D.P.; Kevrekidis, T. 2021: Nickel uptake kinetics and its structural and physiological impacts in the seagrass Halophila stipulacea. Ecotoxicology and Environmental Safety 208: 111386
Huang, J.; Zheng, X.; Del Rosal, I.; Zhao, B.; Maron, L.; Xu, X. 2020: Nickel(0)-Induced β-H Elimination of Magnesium Alkyls: Formation and Reactivity of Heterometallic Hydrides. Inorganic Chemistry 59(18): 13473-13480
Hu, Y.; Thomas, M.B.; Webre, W.A.; Moss, A.; Jinadasa, R.G.W.; Nesterov, V.N.; D'Souza, F.; Wang, H. 2020: Nickel(II) Bisporphyrin-Fused Pentacenes Exhibiting Abnormal High Stability. Angewandte Chemie 59(45): 20075-20082
Vafazadeh, R.; Mansouri, Z.; Willis, A.C. 2020: Nickel(II) Complex with a Flexidentate Ligand Derived from Acetohydrazide: Synthesis, Structural Characterization and Hirshfeld Surface Analysis. Acta Chimica Slovenica 67(2): 516-521
Dias, H.V.R.; Pramanik, A. 2020: Nickel(II) carbonyl, ammonia, and aceto-nitrile complexes supported by a pyridine dipyrrolide pincer ligand. Acta Crystallographica. Section e Crystallographic Communications 76(Part 11): 1741-1747
Rivas Marquina, A.; Movilla, F.; Sánchez Montilva, O.C.; Rentschler, E.; Carrella, L.; Albores, P.; Di Salvo, F. 2020: Nickel(II) complexes based on L-amino-acid-derived ligands: synthesis, characterization and study of the role of the supramolecular structure in carbon dioxide capture. Acta Crystallographica Section B Structural Science Crystal Engineering and Materials 76(Part 5): 825-838
Adhikari, S.; Bhattacharjee, T.; Bhattacharjee, S.; Daniliuc, C.G.; Frontera, A.; Lopato, E.M.; Bernhard, S. 2021: Nickel(II) complexes based on dithiolate-polyamine binary ligand systems: crystal structures, hirshfeld surface analysis, theoretical study, and catalytic activity study on photocatalytic hydrogen generation. Dalton Transactions 50(16): 5632-5643
Dobrov, A.; Fesenko, A.; Yankov, A.; Stepanenko, I.; Darvasiová, D.; Breza, M.; Rapta, P.; Martins, L.ís.M.D.R.S.; Pombeiro, A.J.L.; Shutalev, A.; Arion, V.B. 2020: Nickel(II), Copper(II) and Palladium(II) Complexes with Bis-Semicarbazide Hexaazamacrocycles: Redox-Noninnocent Behavior and Catalytic Activity in Oxidation and C-C Coupling Reactions. Inorganic Chemistry 59(15): 10650-10664
Qiu, X.; Li, Y.; Zhou, L.; Chen, P.; Li, F.; Zhang, Y.; Ling, Y. 2020: Nickel(II)-Catalyzed Borylation of Alkenyl Methyl Ethers via C-O Bond Cleavage. Organic Letters 22(16): 6424-6428
Zou, N.; Lan, J.-X.; Yan, G.-G.; Liang, C.; Su, G.-F.; Mo, D.-L. 2020: Nickel(II)-Catalyzed Oxygen Transfer Reaction of N-Vinyl Nitrones to Prepare 2-(Pyridin-2-yl)ethanols. Organic Letters 22(21): 8446-8450
Yang, W.; Lin, X.; Zhang, Y.; Cao, W.; Liu, X.; Feng, X. 2020: Nickel(II)-catalyzed asymmetric thio-Claisen rearrangement of α-diazo pyrazoleamides with thioindoles. Chemical Communications 56(69): 10002-10005
Barmpa, A.; Geromichalos, G.D.; Hatzidimitriou, A.G.; Psomas, G. 2021: Nickel(II)-meclofenamate complexes: Structure, in vitro and in silico DNA- and albumin-binding studies, antioxidant and anticholinergic activity. Journal of Inorganic Biochemistry 222: 111507
Cai, M.; Ding, S.; Gibbons, B.; Yang, X.; Kessinger, M.C.; Morris, A.J. 2020: Nickel(II)-modified covalent-organic framework film for electrocatalytic oxidation of 5-hydroxymethylfurfural (HMF). Chemical Communications 56(92): 14361-14364
Ahn, E.-J.; Kim, S.-J.; Kim, S.-H.; Park, K.-H.; Jang, W.-W.; Kang, Y.-G. 2021: Nickel, chromium and methyl methacrylate monomer release from orthopaedic functional appliances. European Journal of Paediatric Dentistry 22(2): 144-150
Chaaban, M.; El-Rassy, H. 2020: Nickel-Aluminum Oxide Aerogels: Super-adsorbents for Azo Dyes for Water Remediation. Acs Omega 5(42): 27401-27412
Li, W.; Yu, S.; Li, J.; Zhao, Y. 2020: Nickel-Catalyzed Allylmethylation of Alkynes with Allylic Alcohols and AlMe3 : Facile Access to Skipped Dienes and Trienes. Angewandte Chemie 59(34): 14404-14408
Han, D.; Li, S.; Xia, S.; Su, M.; Jin, J. 2020: Nickel-Catalyzed Amination of (Hetero)aryl Halides Facilitated by a Catalytic Pyridinium Additive. Chemistry 26(54): 12349-12354
Sardini, S.R.; Brown, M.K. 2020: Nickel-Catalyzed Arylboration of Cyclopentene. Organic Syntheses; An Annual Publication of Satisfactory Methods for the Preparation of Organic Chemicals 97: 355-367
Li, Y.; Li, W.; Tian, J.; Huang, G.; Lv, H. 2020: Nickel-Catalyzed Asymmetric Addition of Aromatic Halides to Ketones: Highly Enantioselective Synthesis of Chiral 2,3-Dihydrobenzofurans Containing a Tertiary Alcohol. Organic Letters 22(14): 5353-5357
Yang, P.; Zhang, L.; Fu, K.; Sun, Y.; Wang, X.; Yue, J.; Ma, Y.; Tang, B. 2020: Nickel-Catalyzed Asymmetric Transfer Hydrogenation and α-Selective Deuteration of N-Sulfonyl Imines with Alcohols: Access to α-Deuterated Chiral Amines. Organic Letters 22(21): 8278-8284
Nohira, I.; Liu, S.; Bai, R.; Lan, Y.; Chatani, N. 2020: Nickel-Catalyzed C-F/N-H Annulation of Aromatic Amides with Alkynes: Activation of C-F Bonds under Mild Reaction Conditions. Journal of the American Chemical Society 142(41): 17306-17311
Kim, S.; Goldfogel, M.J.; Gilbert, M.M.; Weix, D.J. 2020: Nickel-Catalyzed Cross-Electrophile Coupling of Aryl Chlorides with Primary Alkyl Chlorides. Journal of the American Chemical Society 142(22): 9902-9907
Biswas, S.; Qu, B.; Desrosiers, J.-N.; Choi, Y.; Haddad, N.; Yee, N.K.; Song, J.J.; Senanayake, C.H. 2020: Nickel-Catalyzed Cross-Electrophile Reductive Couplings of Neopentyl Bromides with Aryl Bromides. Journal of Organic Chemistry 85(12): 8214-8220
Xia, A.; Lv, P.; Xie, X.; Liu, Y. 2020: Nickel-Catalyzed Cyanation of Unactivated Alkyl Sulfonates with Zn(CN)2. Organic Letters 22(20): 7842-7847
Brigham, C.E.; Malapit, C.A.; Lalloo, N.; Sanford, M.S. 2020: Nickel-Catalyzed Decarbonylative Synthesis of Fluoroalkyl Thioethers. Acs Catalysis 10(15): 8315-8320
Tong, Z.; Tang, Z.; Au, C.-T.; Qiu, R. 2020: Nickel-Catalyzed Decarbonyloxidation of 3-Aryl Benzofuran-2(3H)-ones to 2-Hydroxybenzophenones. Journal of Organic Chemistry 85(13): 8533-8543
Bera, S.; Bera, A.; Banerjee, D. 2020: Nickel-Catalyzed Dehydrogenation of N-Heterocycles Using Molecular Oxygen. Organic Letters 22(16): 6458-6463
Qi, X.; Diao, T. 2020: Nickel-Catalyzed Dicarbofunctionalization of Alkenes. Acs Catalysis 10(15): 8542-8556
Yang, F.; Ding, D.; Wang, C. 2020: Nickel-Catalyzed Directed Cross-Electrophile Coupling of Phenolic Esters with Alkyl Bromides. Organic Letters 22(23): 9203-9209
Poremba, K.E.; Dibrell, S.E.; Reisman, S.E. 2020: Nickel-Catalyzed Enantioselective Reductive Cross-Coupling Reactions. Acs Catalysis 10(15): 8237-8246
Zhou, M.; Zhao, H.-Y.; Zhang, S.; Zhang, Y.; Zhang, X. 2020: Nickel-Catalyzed Four-Component Carbocarbonylation of Alkenes under 1 atm of CO. Journal of the American Chemical Society 142(42): 18191-18199
Zhang, P.; Zhang, M.; Ji, Y.; Xing, M.; Zhao, Q.; Zhang, C. 2020: Nickel-Catalyzed Highly Selective Hydroalkenylation of Alkenyl Boronic Esters to Access Allyl Boron. Organic Letters 22(21): 8285-8290
Gan, Y.; Hu, H.; Liu, Y. 2020: Nickel-Catalyzed Homo- and Cross-Coupling of Allyl Alcohols via Allyl Boronates. Organic Letters 22(11): 4418-4423
Chen, X.; Lin, J.; Wang, B.; Tian, X. 2020: Nickel-Catalyzed Mizoroki-Heck/Amination Cascade Reactions of o-Dihaloarenes with Allylamines: Synthesis of Indoles. Organic Letters 22(19): 7704-7708
Derhamine, S.A.; Krachko, T.; Monteiro, N.; Pilet, G.; Schranck, J.; Tlili, A.; Amgoune, A. 2020: Nickel-Catalyzed Mono-Selective α-Arylation of Acetone with Aryl Chlorides and Phenol Derivatives. Angewandte Chemie 59(43): 18948-18953
Feng, Y.; Yang, S.; Zhao, S.; Zhang, D.-P.; Li, X.; Liu, H.; Dong, Y.; Sun, F.-G. 2020: Nickel-Catalyzed Reductive Aryl Thiocarbonylation of Alkene via Thioester Group Transfer Strategy. Organic Letters 22(17): 6734-6738
Wang, C.; Xi, Y.; Huang, W.; Qu, J.; Chen, Y. 2020: Nickel-Catalyzed Regioselective Hydroarylation of Internal Enamides. Organic Letters 22(23): 9319-9324
Zhu, D.-L.; Xu, R.; Wu, Q.; Li, H.-Y.; Lang, J.-P.; Li, H.-X. 2020: Nickel-Catalyzed Sonogashira C(sp)-C(sp2) Coupling through Visible-Light Sensitization. Journal of Organic Chemistry 85(14): 9201-9212
Qi, X.; Bao, Z.-P.; Yao, X.-T.; Wu, X.-F. 2020: Nickel-Catalyzed Thiocarbonylation of Arylboronic Acids with Sulfonyl Chlorides for the Synthesis of Thioesters. Organic Letters 22(16): 6671-6676
Wang, L.; Wang, C. 2020: Nickel-Catalyzed Three-Component Reductive Alkylacylation of Electron-Deficient Activated Alkenes. Organic Letters 22(22): 8829-8835
Tambe, S.D.; Iqbal, N.; Cho, E.J. 2020: Nickel-Catalyzed trans-Carboamination across Internal Alkynes to Access Multifunctionalized Indoles. Organic Letters 22(21): 8550-8554
Xu, J.; Bercher, O.P.; Talley, M.R.; Watson, M.P. 2021: Nickel-Catalyzed, Stereospecific C-C and C-B Cross-Couplings via C-N and C-O Bond Activation. Acs Catalysis 11(3): 1604-1612
Fu, X.; Liu, X.; Hao, D.; Xiao, W.; Nie, Q.; Meng, J. 2021: Nickel-Catcher-Doped Zwitterionic Hydrogel Coating on Nickel-Titanium Alloy Toward Capture and Detection of Nickel Ions. Frontiers in Bioengineering and Biotechnology 9: 698745
Zhang, L.; Xia, H.; Liu, S.; Zhou, Y.; Zhao, Y.; Xie, W. 2021: Nickel-Cobalt Hydroxides with Tunable Thin-Layer Nanosheets for High-Performance Supercapacitor Electrode. Nanoscale Research Letters 16(1): 83
Radice, S.; Neto, M.Q.; Fischer, A.; Wimmer, M.A. 2022: Nickel-free high-nitrogen austenitic steel outperforms CoCrMo alloy regarding tribocorrosion in simulated inflammatory synovial fluids. Journal of Orthopaedic Research: Official Publication of the Orthopaedic Research Society 40(6): 1397-1408
Liang, S.; Jing, M.; Pervaiz, E.; Guo, H.; Thomas, T.; Song, W.; Xu, J.; Saad, A.; Wang, J.; Shen, H.; Liu, J.; Yang, M. 2020: Nickel-Iron Nitride-Nickel Sulfide Composites for Oxygen Evolution Electrocatalysis. Acs Applied Materials and Interfaces 12(37): 41464-41470
Bhandi, S.; Seracchiani, M.; Donfrancesco, O.; Reda, R.; Mazzoni, A.; Nottola, S.; Familiari, G.; Testarelli, L.; Gambarini, G. 2021: Nickel-Titanium Rotary Instruments: An in Vitro Comparison (Torsional Resistance of two Heat-treated Reciprocating Files). Journal of Contemporary Dental Practice 22(4): 361-364
Berti, F.; Wang, P.-J.; Spagnoli, A.; Pennati, G.; Migliavacca, F.; Edelman, E.R.; Petrini, L. 2021: Nickel-Titanium peripheral stents: which is the best criterion for the multi-axial fatigue strength assessment?. Journal of the Mechanical Behavior of Biomedical Materials 113: 104142
Poitiers, N.E.; Huch, V.; Zimmer, M.; Scheschkewitz, D. 2020: Nickel-assisted complete cleavage of CO by a silylene/siliconoid hybrid under formation of an Si[double bond, length as m-dash]C enol ether bridge. Chemical Communications 56(74): 10898-10901
Jafari, B.; Muthuvel, M.; Botte, G.G. 2021: Nickel-based electrochemical sensor with a wide detection range for measuring hydroxyl ions and pH sensing. Journal of Electroanalytical Chemistry 895: None
Weires, N.A.; Baker, E.L.; Garg, N.K. 2016: Nickel-catalysed Suzuki-Miyaura coupling of amides. Nature Chemistry 8(1): 75-79
Saper, N.I.; Ohgi, A.; Small, D.W.; Semba, K.; Nakao, Y.; Hartwig, J.F. 2020: Nickel-catalysed anti-Markovnikov hydroarylation of unactivated alkenes with unactivated arenes facilitated by non-covalent interactions. Nature Chemistry 12(3): 276-283
Jiang, X.; Han, B.; Xue, Y.; Duan, M.; Gui, Z.; Wang, Y.; Zhu, S. 2021: Nickel-catalysed migratory hydroalkynylation and enantioselective hydroalkynylation of olefins with bromoalkynes. Nature Communications 12(1): 3792
Hu, J.; Wang, M.; Pu, X.; Shi, Z. 2017: Nickel-catalysed retro-hydroamidocarbonylation of aliphatic amides to olefins. Nature Communications 8: 14993
Zhang, Y.; Xu, X.; Zhu, S. 2019: Nickel-catalysed selective migratory hydrothiolation of alkenes and alkynes with thiols. Nature Communications 10(1): 1752
Yang, P.; Wang, X.; Ma, Y.; Sun, Y.; Zhang, L.; Yue, J.; Fu, K.; Zhou, J.S.; Tang, B. 2020: Nickel-catalyzed C-alkylation of thioamide, amides and esters by primary alcohols through a hydrogen autotransfer strategy. Chemical Communications 56(90): 14083-14086
Iyori, Y.; Ueno, R.; Morishige, A.; Chatani, N. 2020: Nickel-catalyzed C-O/N-H, C-S/N-H, and C-CN/N-H annulation of aromatic amides with alkynes: C-O, C-S, and C-CN activation. Chemical Science 12(5): 1772-1777
Zhou, J.S.; Huang, X.; Teng, S.; Chi, Y.R. 2021: Nickel-catalyzed Heck reaction of cycloalkenes using aryl sulfonates and pivalates. Chemical Communications 57(32): 3933-3936
Guo, L.; Srimontree, W.; Zhu, C.; Maity, B.; Liu, X.; Cavallo, L.; Rueping, M. 2019: Nickel-catalyzed Suzuki-Miyaura cross-couplings of aldehydes. Nature Communications 10(1): 1957
Ji, D.-W.; He, G.-C.; Zhang, W.-S.; Zhao, C.-Y.; Hu, Y.-C.; Chen, Q.-A. 2020: Nickel-catalyzed allyl-allyl coupling reactions between 1,3-dienes and allylboronates. Chemical Communications 56(54): 7431-7434
Weng, Y.; Zhang, C.; Tang, Z.; Shrestha, M.; Huang, W.; Qu, J.; Chen, Y. 2020: Nickel-catalyzed allylic carbonylative coupling of alkyl zinc reagents with tert-butyl isocyanide. Nature Communications 11(1): 392
Lin, Z.; Jin, Y.; Hu, W.; Wang, C. 2021: Nickel-catalyzed asymmetric reductive aryl-allylation of unactivated alkenes. Chemical Science 12(19): 6712-6718
Sun, D.; Ma, G.; Zhao, X.; Lei, C.; Gong, H. 2021: Nickel-catalyzed asymmetric reductive arylation of α-chlorosulfones with aryl halides. Chemical Science 12(14): 5253-5258
DeLano, T.J.; Dibrell, S.E.; Lacker, C.R.; Pancoast, A.R.; Poremba, K.E.; Cleary, L.; Sigman, M.S.; Reisman, S.E. 2021: Nickel-catalyzed asymmetric reductive cross-coupling of α-chloroesters with (hetero)aryl iodides. Chemical Science 12(22): 7758-7762
Zhang, X.; Qi, D.; Jiao, C.; Liu, X.; Zhang, G. 2021: Nickel-catalyzed deaminative Sonogashira coupling of alkylpyridinium salts enabled by NN 2 pincer ligand. Nature Communications 12(1): 4904
Duan, S.; Deng, G.; Zi, Y.; Wu, X.; Tian, X.; Liu, Z.; Li, M.; Zhang, H.; Yang, X.; Walsh, P.J. 2021: Nickel-catalyzed enantioselective vinylation of aryl 2-azaallyl anions. Chemical Science 12(18): 6406-6412
Bera, S.; Bera, A.; Banerjee, D. 2020: Nickel-catalyzed hydrogen-borrowing strategy: chemo-selective alkylation of nitriles with alcohols. Chemical Communications 56(50): 6850-6853
Biswas, S.; Pal, S.; Uyeda, C. 2020: Nickel-catalyzed insertions of vinylidenes into Si-H bonds. Chemical Communications 56(91): 14175-14178
Lv, H.; Kang, H.; Zhou, B.; Xue, X.; Engle, K.M.; Zhao, D. 2019: Nickel-catalyzed intermolecular oxidative Heck arylation driven by transfer hydrogenation. Nature Communications 10(1): 5025
Li, Y.; Li, Y.; Peng, L.; Wu, D.; Zhu, L.; Yin, G. 2020: Nickel-catalyzed migratory alkyl-alkyl cross-coupling reaction. Chemical Science 11(38): 10461-10464
Lin, T.; Gu, Y.; Qian, P.; Guan, H.; Walsh, P.J.; Mao, J. 2020: Nickel-catalyzed reductive coupling of homoenolates and their higher homologues with unactivated alkyl bromides. Nature Communications 11(1): 5638
Cruz, C.L.; Montgomery, J. 2021: Nickel-catalyzed reductive coupling of unactivated alkyl bromides and aliphatic aldehydes. Chemical Science 12(36): 11995-12000
Cui, R.; Sheng, J.; Wu, B.-B.; Hu, D.-D.; Zheng, H.-Q.; Wang, X.-S. 2021: Nickel-catalyzed reductive monofluoroakylation of alkyl tosylate with bromofluoromethane to primary alkyl fluoride. Chemical Communications 57(72): 9084-9087
Fang, Y.; Rogge, T.; Ackermann, L.; Wang, S-Yi.; Ji, S-Jun. 2018: Nickel-catalyzed reductive thiolation and selenylation of unactivated alkyl bromides. Nature Communications 9(1): 2240
Xu, Z.; Tang, Y.; Shen, C.; Zhang, H.; Gan, Y.; Ji, X.; Tian, X.; Dong, K. 2020: Nickel-catalyzed regio- and diastereoselective hydroarylative and hydroalkenylative cyclization of 1,6-dienes. Chemical Communications 56(56): 7741-7744
Li, L.; Gong, T.; Lu, X.; Xiao, B.; Fu, Y. 2017: Nickel-catalyzed synthesis of 1,1-diborylalkanes from terminal alkenes. Nature Communications 8(1): 345
Wang, X.-X.; Lu, X.; He, S.-J.; Fu, Y. 2020: Nickel-catalyzed three-component olefin reductive dicarbofunctionalization to access alkylborates. Chemical Science 11(30): 7950-7956
Brazzolotto, D.; Gennari, M.; Queyriaux, N.; Simmons, T.R.; Pécaut, J.; Demeshko, S.; Meyer, F.; Orio, M.; Artero, V.; Duboc, C. 2016: Nickel-centred proton reduction catalysis in a model of [NiFe] hydrogenase. Nature Chemistry 8(11): 1054-1060
Xu, W.; Zhang, H.; Li, G.; Wu, Z. 2014: Nickel-cobalt bimetallic anode catalysts for direct urea fuel cell. Scientific Reports 4: 5863
Li, Z.; Wang, X.; Wang, Z.; Wang, L.; Guo, Y.; Zhou, C.; Li, X.; Du, K.; Luo, Y. 2022: Nickel-cobalt layered double hydroxide nanosheets anchored to the inner wall of wood carbon tracheids by nitrogen-doped atoms for high-performance supercapacitors. Journal of Colloid and Interface Science 608(Part 1): 70-78
Iranzo, A.; Mulder, F.M. 2021: Nickel-iron layered double hydroxides for an improved Ni/Fe hybrid battery-electrolyser. Materials Advances 2(15): 5076-5088
Beagan, D.M.; Cabelof, A.C.; Pink, M.; Carta, V.; Gao, X.; Caulton, K.G. 2021: Nickel-mediated N-N bond formation and N2O liberation via nitrogen oxyanion reduction. Chemical Science 12(31): 10664-10672
Li, Y.; Wei, X.; Chen, L.; Shi, J.; He, M. 2019: Nickel-molybdenum nitride nanoplate electrocatalysts for concurrent electrolytic hydrogen and formate productions. Nature Communications 10(1): 5335
Xu, J.; Cai, E.; Zhang, S.; Fan, X.; Wang, M.; Lou, F.; Wang, M.; Wang, X.; Xu, L. 2021: Nickel-vanadium layered double hydroxide nanosheets as the saturable absorber for a passively Q-switched 2  µm solid-state laser. Applied Optics 60(7): 1851-1855
Fan, K.; Chen, H.; Ji, Y.; Huang, H.; Claesson, P.Martin.; Daniel, Q.; Philippe, B.; Rensmo, Håkan.; Li, F.; Luo, Y.; Sun, L. 2016: Nickel-vanadium monolayer double hydroxide for efficient electrochemical water oxidation. Nature Communications 7: 11981
Yang, D.; Shin, T.; Kim, H.; Lee, S. 2020: Nickel/briphos-catalyzed transamidation of unactivated tertiary amides. Organic and Biomolecular Chemistry 18(31): 6053-6057
Basketter, D. 2021: Nickel: Intrinsic Skin Sensitization Potency and Relation to Prevalence of Contact Allergy. Dermatitis: Contact Atopic Occupational Drug 32(2): 71-77
Bencko, V. 1984: Nickel: a review of its occupational and environmental toxicology. Zeitschrift für die Gesamte Hygiene und ihre Grenzgebiete 30(5): 259-263
Osada, M.; Wang, B.Y.; Goodge, B.H.; Harvey, S.P.; Lee, K.; Li, D.; Kourkoutis, L.F.; Hwang, H.Y. 2021: Nickelate Superconductivity without Rare-Earth Magnetism: (La,Sr)NiO2. Advanced Materials 33(45): E2104083
Rahamtullah; Mishra, R. 2021: Nicking and fragmentation are responsible for α-lactalbumin amyloid fibril formation at acidic pH and elevated temperature. Protein Science: a Publication of the Protein Society 30(9): 1919-1934
Luzzietti, N.; Knappe, S.; Richter, I.; Seidel, R. 2012: Nicking enzyme-based internal labeling of DNA at multiple loci. Nature Protocols 7(4): 643-653
Yuan, Y.; Pan, Y.-T.; Zhang, Z.; Zhang, W.; Li, X.; Yang, R. 2021: Nickle nanocrystals decorated on graphitic nanotubes with broad channels for fire hazard reduction of epoxy resin. Journal of Hazardous Materials 402: 123880
Jara, M.O.; Warnken, Z.N.; Sahakijpijarn, S.; Moon, C.; Maier, E.Y.; Christensen, D.J.; Koleng, J.J.; Peters, J.I.; Hackman Maier, S.D.; Williams Iii, R.O. 2021: Niclosamide inhalation powder made by thin-film freezing: Multi-dose tolerability and exposure in rats and pharmacokinetics in hamsters. International Journal of Pharmaceutics 603: 120701
Thi Tran, U.; Kitami, T. 2019: Niclosamide activates the NLRP3 inflammasome by intracellular acidification and mitochondrial inhibition. Communications Biology 2: 2
Thi Tran, U.; Kitami, T. 2019: Niclosamide activates the NLRP3 inflammasome by intracellular acidification and mitochondrial inhibition. Communications Biology 2(1): 2
Jiao, Y.; Chen, C.; Hu, X.; Feng, X.; Shi, Z.; Cao, J.; Li, Q.; Zhu, Y. 2020: Niclosamide and its derivative DK-520 inhibit RANKL-induced osteoclastogenesis. FEBS open bio 10(8): 1685-1697
Braga, C.ás.L.; Felix, N.S.; Teixeira, D.E.; Vieira, J.B.; Silva-Aguiar, R.P.; Bose, R.M.; Antunes, M.A.; Rocha, N.d.N.; Caruso-Neves, C.; Cruz, F.F.; Rocco, P.R.M.; Silva, P.L. 2020: Niclosamide attenuates lung vascular remodeling in experimental pulmonary arterial hypertension. European Journal of Pharmacology 887: 173438
Piao, H.; Rejinold, N.S.; Choi, G.; Pei, Y.-R.; Jin, G.-W.; Choy, J.-H. 2021: Niclosamide encapsulated in mesoporous silica and geopolymer: a potential oral formulation for COVID-19. Microporous and Mesoporous Materials: the Official Journal of the International Zeolite Association 326: 111394
Cai, Y.; Zhan, H.; Weng, W.; Wang, Y.; Han, P.; Yu, X.; Shao, M.; Sun, H. 2021: Niclosamide ethanolamine ameliorates diabetes-related muscle wasting by inhibiting autophagy. Skeletal Muscle 11(1): 15
Han, P.; Weng, W.; Chen, Y.; Cai, Y.; Wang, Y.; Wang, M.; Zhan, H.; Yuan, C.; Yu, X.; Shao, M.; Sun, H. 2020: Niclosamide ethanolamine attenuates systemic lupus erythematosus and lupus nephritis in MRL/lpr mice. American Journal of Translational Research 12(9): 5015-5031
Tao, H.; Zhang, Y.; Zeng, X.; Shulman, G.I.; Jin, S. 2014: Niclosamide ethanolamine-induced mild mitochondrial uncoupling improves diabetic symptoms in mice. Nature Medicine 20(11): 1263-1269
Kim, M.Y.; Jung, A.R.; Shin, D.; Kwon, H.; Cho, H.J.; Ha, U.-S.; Hong, S.-H.; Lee, J.Y.; Kim, S.W.; Park, Y.H. 2021: Niclosamide exerts anticancer effects through inhibition of the FOXM1-mediated DNA damage response in prostate cancer. American Journal of Cancer Research 11(6): 2944-2959
Chowdhury, M.Kamrul.Hasan.; Turner, N.; Bentley, N.L.; Das, A.; Wu, L.E.; Richani, D.; Bustamante, S.; Gilchrist, R.B.; Morris, M.J.; Shepherd, P.R.; Smith, G.C. 2017: Niclosamide reduces glucagon sensitivity via hepatic PKA inhibition in obese mice: Implications for glucose metabolism improvements in type 2 diabetes. Scientific Reports 7: 40159
Gyamfi, J.; Lee, Y-Hee.; Min, B.Soh.; Choi, J. 2019: Niclosamide reverses adipocyte induced epithelial-mesenchymal transition in breast cancer cells via suppression of the interleukin-6/STAT3 signalling axis. Scientific Reports 9(1): 11336
Jang, S.G.; Lee, J.; Hong, S.-M.; Song, Y.-S.; Kim, M.J.; Kwok, S.-K.; Cho, M.-L.; Park, S.-H. 2021: Niclosamide suppresses the expansion of follicular helper T cells and alleviates disease severity in two murine models of lupus via STAT3. Journal of Translational Medicine 19(1): 86
Zeyada, M.S.; Abdel-Rahman, N.; El-Karef, A.; Yahia, S.; El-Sherbiny, I.M.; Eissa, L.A. 2020: Niclosamide-loaded polymeric micelles ameliorate hepatocellular carcinoma in vivo through targeting Wnt and Notch pathways. Life Sciences 261: 118458
Yu, Q.-S.; Xin, H.-R.; Qiu, R.-L.; Deng, Z.-L.; Deng, F.; Yan, Z.-J. 2020: Niclosamide: drug repurposing for human chondrosarcoma treatment via the caspase-dependent mitochondrial apoptotic pathway. American Journal of Translational Research 12(7): 3688-3701
Hancocks, S.A.; Boissard, N. 1985: Nicola Boissard Research Fund. First British research chair in oral biochemistry. British Dental Journal 159(4): 127-128
Badaro, H. 1948: Nicola's operation for recurrent shoulder subluxation. RevueMedicaleduMoyen-Orient 5(4): 483
Creyssel, J.; Michel; Fourrier 1948: Nicola's operation for recurrent shoulder subluxation. Lyon Chirurgical 43(1): 108
Foley, R.; Duignan, S.; McArdle, L.; Betts, D.R.; Green, A.; McMahon, C.J. 2022: Nicolaides-Baraitser syndrome in a patient with hypertrophic cardiomyopathy and SMARCA2 gene deletion. Cardiology in the Young 32(5): 821-823
Malfatti, G. 1948: Nicolas and Favre virus stomatitis and lymphogranulomatous angina. L'Oto-Rino-Laringologia Italiana 17(1): 63-74
Vasquez, L.E. 1947: Nicolas favre's disease. Gaceta Medica de Occidente 9(54): 1867
Duhamel, J.; Cohen, M. 1970: Nicolas-Favre disease. Archives Francaises des Maladies de l'Appareil Digestif 59(7): Suppl 7
Temime, P.; Tramier, G.; Coulier, L.; Boucebci, M. 1962: Nicolas-Favre disease. Bulletin de la Societe Francaise de Dermatologie et de Syphiligraphie 69: 786
Grupper, C. 1946: Nicolas-Favre marital illness; lymphogranulomatous urethritis in men, esthiomer in women. Annales de Dermatologie et de Syphiligraphie 6(9): 531
Benhamou, E.; Destaing, F. 1949: Nicolas-Favre's bubonic disease dramatically cured by oral aureomycin. Bulletins et Memoires de la Societe Medicale des Hopitaux de Paris 65(21-22): 832-837
Simons, R.D.G. 1949: Nicolas-Favre's disease, recurrent, with old scar. Dermatologica 99(1): 55
Demircan, C.; Akdogan, N.; Elmas, L. 2023: Nicolau Syndrome Secondary to Subcutaneous Glatiramer Acetate Injection. International Journal of Lower Extremity Wounds 22(1): 149-151
Sasmal, P.K.; Sahoo, A.; Singh, P.K.; Vs, V. 2021: Nicolau Syndrome: An Unforeseen Yet Evadable Consequence of Intramuscular Injection. Surgery Journal 7(2): E62-E65
Moszczyński, P.; Mikos, M.; Skura, A. 1975: Nicolau's syndrome. Wiadomosci Lekarskie 28(15): 1321-1323
Wronecki, K.; Czernik, J. 1975: Nicolau's syndrome. Pediatria Polska 50(12): 1497-1499
Sapiński, A.; Gumowska, M. 1973: Nicolau's syndrome. Polski Tygodnik Lekarski 28(2): 64-65
Marinov, K.; Georgiev, O.; Tikhova, D. 1984: Nicolau's syndrome. Vutreshni Bolesti 23(1): 114-116
Srivastava, P.; Someshwar, S.; Jerajani, H. 2015: Nicolau's syndrome. Indian Pediatrics 52(4): 356
Vigliani, G.A.; Castellino, N. 1953: Nicolò Castellino. Rassegna di Medicina Industriale e di Igiene del Lavoro 22(2): 121-122
Pecora, L.; Castellino, N. 1953: Nicolò Castellino. La Riforma Medica 67(13): 365-366
Xu, S.; Cao, X.; Yu, Z.; He, W.; Pang, Y.; Lin, W.; Chen, Z.; Guo, W.; Lu, X.; Lin, C. 2021: Nicorandil Inhibits Osteoclast Formation Base on NF-κB and p-38 MAPK Signaling Pathways and Relieves Ovariectomy-Induced Bone Loss. Frontiers in Pharmacology 12: 726361
Abdel-Sattar, A.Ramadan.; Abo-Saif, A.Ahmed.; Aboyoussef, A.M. 2020: Nicorandil and atorvastatin attenuate carbon tetrachloride - induced liver fibrosis in rats. Immunopharmacology and Immunotoxicology 42(6): 582-593
Webster, K.; Godbold, P. 2005: Nicorandil induced oral ulceration. British Dental Journal 198(10): 619-621
Chen, F.; Chen, Z.-Q.; Zhong, G.-L.; Zhu, J.-J. 2021: Nicorandil inhibits TLR4/MyD88/NF-κB/NLRP3 signaling pathway to reduce pyroptosis in rats with myocardial infarction. Experimental Biology and Medicine 246(17): 1938-1947
Zheng, J.; Long, M.; Qin, Z.; Wang, F.; Chen, Z.; Li, L. 2021: Nicorandil inhibits cardiomyocyte apoptosis and improves cardiac function by suppressing the HtrA2/XIAP/PARP signaling after coronary microembolization in rats. Pharmacology Research and Perspectives 9(1): E00699
Ezzat, D.M.; Soliman, A.M.; El-Kashef, D.H. 2021: Nicorandil mitigates folic acid-induced nephrotoxicity in mice: Role of iNOS and eNOS. Journal of Biochemical and Molecular Toxicology 35(4): E22692
Zhan, B.; Xu, Z.; Zhang, Y.; Wan, K.; Deng, H.; Wang, D.; Bao, H.; Wu, Q.; Hu, X.; Wang, H.; Huang, X.; Cheng, X. 2020: Nicorandil reversed homocysteine-induced coronary microvascular dysfunction via regulating PI3K/Akt/eNOS pathway. Biomedicine and PharmacoTherapy 127: 110121
Noyes, J.D.; Mordi, I.R.; Zeb, Q.; Lang, C.C. 2021: Nicorandil-induced colovesical fistula in a patient with diverticular disease. Clinical Case Reports 9(3): 1737-1741
Meneghini, P.; Norza, L. 1948: Nicotamide in the treatment of salicylic intolerance. Il Progresso Medico 5(15): 457-461
Akkaya, Öz. 2020: Nicotiana tabacum-associated bioengineered Pseudomonas putida can enhance rhizoremediation of soil containing 2,4-dinitrotoluene. 3 Biotech 10(9): 398
Beasley, J.T.; Johnson, A.A.T.; Kolba, N.; Bonneau, J.P.; Glahn, R.P.; Ozeri, L.; Koren, O.; Tako, E. 2020: Nicotianamine-chelated iron positively affects iron status, intestinal morphology and microbial populations in vivo (Gallus gallus). Scientific Reports 10(1): 2297
Ross, S.M. 2021: Nicotinamide Adenine Dinucleotide (NAD+) Biosynthesis in the Regulation of Metabolism, Aging, and Neurodegeneration. Holistic Nursing Practice 35(4): 230-232
Parker, R.; Schmidt, M.S.; Cain, O.; Gunson, B.; Brenner, C. 2020: Nicotinamide Adenine Dinucleotide Metabolome Is Functionally Depressed in Patients Undergoing Liver Transplantation for Alcohol-Related Liver Disease. Hepatology Communications 4(8): 1183-1192
Xie, X.; Hao, F.; Chen, R.; Wang, J.; Wei, Y.; Liu, J.; Wang, H.; Zhang, Z.; Bai, Y.; Shao, G.; Xiong, Q.; Feng, Z. 2021: Nicotinamide Adenine Dinucleotide-Dependent Flavin Oxidoreductase of Mycoplasma hyopneumoniae Functions as a Potential Novel Virulence Factor and not only as a Metabolic Enzyme. Frontiers in Microbiology 12: 747421
Kang, K.; Sun, Y.; Pan, D.; Chang, B.; Sang, L.-X. 2021: Nicotinamide Ameliorates Dextran Sulfate Sodium-Induced Chronic Colitis in Mice through its Anti-Inflammatory Properties and Modulates the Gut Microbiota. Journal of Immunology Research 2021: 5084713
Yanez, M.; Jhanji, M.; Murphy, K.; Gower, R.Michael.; Sajish, M.; Jabbarzadeh, E. 2019: Nicotinamide Augments the Anti-Inflammatory Properties of Resveratrol through PARP1 Activation. Scientific Reports 9(1): 10219
Liu, B.; Zhao, G.; Jin, L.; Shi, J. 2021: Nicotinamide Improves Cognitive Function in Mice with Chronic Cerebral Hypoperfusion. Frontiers in Neurology 12: 596641
Yoon, H.; Kim, H.J.; Shin, H.R.; Kim, B.S.; Kim, W.J.; Cho, Y.D.; Ryoo, H.M. 2021: Nicotinamide Improves Delayed Tooth Eruption in Runx2 +/- Mice. Journal of Dental Research 100(4): 423-431
Sattar, S.; Martinez, M.T.; Ruiz, A.F.; Hanna-Rose, W.; Thompson, G.A. 2019: Nicotinamide Inhibits Aphid Fecundity and Impacts Survival. Scientific Reports 9(1): 19709
Nasr, W.; Fabian, C.; Arnold, K.; Köhl, U.; Sack, U.; Weiss, R.; Cross, M.; Hauschildt, S. 2020: Nicotinamide Inhibits Self-renewal and Induces Granulocyte Differentiation of Multipotent Progenitor Cells. Stem Cell Reviews and Reports 16(6): 1335-1342
Jones, C.L.; Stevens, B.M.; Pollyea, D.A.; Culp-Hill, R.; Reisz, J.A.; Nemkov, T.; Gehrke, S.; Gamboni, F.; Krug, A.; Winters, A.; Pei, S.; Gustafson, A.; Ye, H.; Inguva, A.; Amaya, M.; Minhajuddin, M.; Abbott, D.; Becker, M.W.; DeGregori, J.; Smith, C.A.; D'Alessandro, A.; Jordan, C.T. 2020: Nicotinamide Metabolism Mediates Resistance to Venetoclax in Relapsed Acute Myeloid Leukemia Stem Cells. Cell Stem Cell 27(5): 748-764.E4
Meng, Y.-F.; Pu, Q.; Dai, S.-Y.; Ma, Q.; Li, X.; Zhu, W. 2021: Nicotinamide Mononucleotide Alleviates Hyperosmolarity-Induced IL-17a Secretion and Macrophage Activation in Corneal Epithelial Cells/Macrophage Co-Culture System. Journal of Inflammation Research 14: 479-493
Liu, J.; Zong, Z.; Zhang, W.; Chen, Y.; Wang, X.; Shen, J.; Yang, C.; Liu, X.; Deng, H. 2021: Nicotinamide Mononucleotide Alleviates LPS-Induced Inflammation and Oxidative Stress via Decreasing COX-2 Expression in Macrophages. Frontiers in Molecular Biosciences 8: 702107
Miao, Y.; Li, X.; Shi, X.; Gao, Q.; Chen, J.; Wang, R.; Fan, Y.; Xiong, B. 2021: Nicotinamide Mononucleotide Restores the Meiotic Competency of Porcine Oocytes Exposed to Ethylene Glycol Butyl Ether. Frontiers in Cell and Developmental Biology 9: 628580
Ramsden, D.B.; Waring, R.H.; Parsons, R.B.; Barlow, D.J.; Williams, A.C. 2020: Nicotinamide N -Methyltransferase: Genomic Connection to Disease. International Journal of Tryptophan Research: Ijtr 13: 1178646920919770
Wu, M.; Hu, W.; Wang, G.; Yao, Y.; Yu, X.-F. 2020: Nicotinamide N-Methyltransferase Is a Prognostic Biomarker and Correlated with Immune Infiltrates in Gastric Cancer. Frontiers in Genetics 11: 580299
Thomas, M.G.; Saldanha, M.; Mistry, R.J.; Dexter, D.T.; Ramsden, D.B.; Parsons, R.B. 2013: Nicotinamide N-methyltransferase expression in SH-SY5Y neuroblastoma and N27 mesencephalic neurones induces changes in cell morphology via ephrin-B2 and Akt signalling. Cell Death and Disease 4: E669
Campagna, R.; Mateuszuk, Łu.; Wojnar-Lason, K.; Kaczara, P.; Tworzydło, A.; Kij, A.; Bujok, R.; Mlynarski, J.; Wang, Y.; Sartini, D.; Emanuelli, M.; Chlopicki, S. 2021: Nicotinamide N-methyltransferase in endothelium protects against oxidant stress-induced endothelial injury. Biochimica et Biophysica Acta. Molecular Cell Research 1868(10): 119082
Yu, H.; Zhou, X.; Wang, Y.; Huang, X.; Yang, J.; Zeng, J.; Li, G.; Xie, X.; Zhang, J. 2020: Nicotinamide N-methyltransferase inhibits autophagy induced by oxidative stress through suppressing the AMPK pathway in breast cancer cells. Cancer Cell International 20: 191
Kraus, D.; Yang, Q.; Kong, D.; Banks, A.S.; Zhang, L.; Rodgers, J.T.; Pirinen, E.; Pulinilkunnil, T.C.; Gong, F.; Wang, Y-chin.; Cen, Y.; Sauve, A.A.; Asara, J.M.; Peroni, O.D.; Monia, B.P.; Bhanot, S.; Alhonen, L.; Puigserver, P.; Kahn, B.B. 2014: Nicotinamide N-methyltransferase knockdown protects against diet-induced obesity. Nature 508(7495): 258-262
Hong, S.; Moreno-Navarrete, J.M.; Wei, X.; Kikukawa, Y.; Tzameli, I.; Prasad, D.; Lee, Y.; Asara, J.M.; Fernandez-Real, J.Manuel.; Maratos-Flier, E.; Pissios, P. 2015: Nicotinamide N-methyltransferase regulates hepatic nutrient metabolism through Sirt1 protein stabilization. Nature Medicine 21(8): 887-894
Roberti, A.; Fernández, A.ín.F.; Fraga, M.F. 2021: Nicotinamide N-methyltransferase: at the crossroads between cellular metabolism and epigenetic regulation. Molecular Metabolism 45: 101165
Kunath, A.; Heiker, J.T.; Kern, M.; Kosacka, J.; Flehmig, G.; Stumvoll, M.; Kovacs, P.; Blüher, M.; Klöting, N. 2020: Nicotinamide Nucleotide Transhydrogenase (Nnt) is Related to Obesity in Mice. Hormone and Metabolic Research 52(12): 877-881
Ilbeigi, D.; Nourbakhsh, M.; Pasalar, P.; Meshkani, R.; Shokri Afra, H.; Panahi, G.H.; Borji, M.; Sharifi, R. 2020: Nicotinamide Phosphoribosyltransferase Knockdown Leads to Lipid Accumulation in HepG2 Cells through the SIRT1-AMPK Pathway. Cell Journal 22(Suppl 1): 125-132
Méndez-Lara, K.A.; Rodríguez-Millán, E.; Sebastián, D.; Blanco-Soto, R.; Camacho, M.; Nan, M.N.; Diarte-Añazco, E.M.G.; Mato, E.èn.; Lope-Piedrafita, S.; Roglans, N.úr.; Laguna, J.C.; Alonso, N.úr.; Mauricio, D.íd.; Zorzano, A.; Villarroya, F.; Villena, J.A.; Blanco-Vaca, F.; Julve, J. 2021: Nicotinamide Protects Against Diet-Induced Body Weight Gain, Increases Energy Expenditure, and Induces White Adipose Tissue Beiging. Molecular Nutrition and Food Research 65(11): E2100111
Wang, Z.-H.; Bao, X.-G.; Hu, J.-J.; Shen, S.-B.; Xu, G.-H.; Wu, Y.-L. 2021: Nicotinamide Riboside Enhances Endothelial Precursor Cell Function to Promote Refractory Wound Healing Through Mediating the Sirt1/AMPK Pathway. Frontiers in Pharmacology 12: 671563
De Castro, J.M.; Stein, D.J.ão.; Medeiros, H.R.; de Oliveira, C.; Torres, I.L.S. 2021: Nicotinamide Riboside Neutralizes Hypothalamic Inflammation and Increases Weight Loss Without Altering Muscle Mass in Obese Rats Under Calorie Restriction: a Preliminary Investigation. Frontiers in Nutrition 8: 648893
Trammell, S.A.J.; Weidemann, B.J.; Chadda, A.; Yorek, M.S.; Holmes, A.; Coppey, L.J.; Obrosov, A.; Kardon, R.H.; Yorek, M.A.; Brenner, C. 2016: Nicotinamide Riboside Opposes Type 2 Diabetes and Neuropathy in Mice. Scientific Reports 6: 26933
Park, J.M.; Han, Y.M.; Lee, H.J.; Park, Y.J.; Hahm, K.B. 2021: Nicotinamide Riboside Vitamin B3 Mitigated C26 Adenocarcinoma-Induced Cancer Cachexia. Frontiers in Pharmacology 12: 665493
Chen, A.; Kristiansen, C.K.; Hong, Y.; Kianian, A.; Fang, E.F.; Sullivan, G.J.; Wang, J.; Li, X.; Bindoff, L.A.; Liang, K.X. 2021: Nicotinamide Riboside and Metformin Ameliorate Mitophagy Defect in Induced Pluripotent Stem Cell-Derived Astrocytes with POLG Mutations. Frontiers in Cell and Developmental Biology 9: 737304
Hussain, S.; Singh, A.; Alshammari, T.M.; Habib, A.; Hussain, M.S.; Jha, R.; Akhtar, M.; Najmi, A.K. 2020: Nicotinamide therapy in Dialysis Patients: a Systematic Review of Randomized Controlled Trials. Saudi Journal of Kidney Diseases and Transplantation: An Official Publication of the Saudi Center for Organ Transplantation Saudi Arabia 31(5): 883-897
Griffiths, H.B.S.; Williams, C.; King, S.J.; Allison, S.J. 2020: Nicotinamide adenine dinucleotide (NAD+): essential redox metabolite, co-substrate and an anti-cancer and anti-ageing therapeutic target. Biochemical Society Transactions 48(3): 733-744
Ryu, C.H.; Kim, S.H.; Hur, D.Y. 2020: Nicotinamide adenine dinucleotide phosphate oxidase inhibitor induces apoptosis on Epstein-Barr virus positive B lymphoma cells. Anatomy and Cell Biology 53(4): 471-480
Zhu, X.; Shen, W.; Wang, Y.; Jaiswal, A.; Ju, Z.; Sheng, Q. 2017: Nicotinamide adenine dinucleotide replenishment rescues colon degeneration in aged mice. Signal Transduction and Targeted Therapy 2: 17017
Liu, J.; Yang, B.; Zhou, P.; Kong, Y.; Hu, W.; Zhu, G.; Ying, W.; Li, W.; Wang, Y.; Li, S. 2017: Nicotinamide adenine dinucleotide suppresses epileptogenesis at an early stage. Scientific Reports 7(1): 7321
Wang, X.; Li, B.; Liu, L.; Zhang, L.; Ma, T.; Guo, L. 2021: Nicotinamide adenine dinucleotide treatment alleviates the symptoms of experimental autoimmune encephalomyelitis by activating autophagy and inhibiting the NLRP3 inflammasome. International Immunopharmacology 90: 107092
Tannous, C.; Booz, G.W.; Altara, R.; Muhieddine, D.H.; Mericskay, M.; Refaat, M.M.; Zouein, F.A. 2021: Nicotinamide adenine dinucleotide: Biosynthesis, consumption and therapeutic role in cardiac diseases. Acta Physiologica 231(3): E13551
Alipour, S.; Bilska, K.; Stolarska, E.; Wojciechowska, N.; Kalemba, E.M. 2021: Nicotinamide adenine dinucleotides are associated with distinct redox control of germination in Acer seeds with contrasting physiology. Plos one 16(1): E0245635
Anderson, R.M.; Bitterman, K.J.; Wood, J.G.; Medvedik, O.; Sinclair, D.A. 2003: Nicotinamide and PNC1 govern lifespan extension by calorie restriction in Saccharomyces cerevisiae. Nature 423(6936): 181-185
Gerazova-Efremova, K.; Kjovkarovska, S.D.-; Domazetovska, S.; Miova, B. 2020: Nicotinamide and heat preconditioning - Effects on hepatic HSP70, carbohydrate and oxidative disturbances in STZ-induced diabetic rats. Journal of Thermal Biology 91: 102645
Alechinsky, A. 1947: Nicotinamide and histamine shock. ComptesRendusdesSeancesdelaSocietedeBiologieetdeSesFiliales 141(9-10): 524
Brownfoot, F.; Binder, N.; Hastie, R.; Harper, A.; Beard, S.; Tuohey, L.; Keenan, E.; Tong, S.; Hannan, N. 2021: Nicotinamide and its effects on endothelial dysfunction and secretion of antiangiogenic factors by primary human placental cells and tissues. Placenta 109: 28-31
Ma, Z.; Zhou, W.; Huang, D.; Liu, Q.; Xiao, Z.; Jiang, H.; Yang, Z.; Zhang, W.; Huang, Y. 2020: Nicotinamide as Additive for Microcrystalline and Defect Passivated Perovskite Solar Cells with 21.7% Efficiency. Acs Applied Materials and Interfaces 12(47): 52500-52508
Patwa, J.; Khan, S.; Jena, G. 2020: Nicotinamide attenuates cyclophosphamide-induced hepatotoxicity in SD rats by reducing oxidative stress and apoptosis. Journal of Biochemical and Molecular Toxicology 34(10): E22558
Cruz, P.L.; Moraes-Silva, I.C.; Ribeiro, A.A.; Machi, J.F.; de Melo, M.D.T.; Dos Santos, F.; da Silva, M.B.; Strunz, C.M.C.; Caldini, E.G.; Irigoyen, M.-C. 2021: Nicotinamide attenuates streptozotocin-induced diabetes complications and increases survival rate in rats: role of autonomic nervous system. Bmc Endocrine Disorders 21(1): 133
Alyoussef, A.; Nasr, M.; Ahmed, R.F.; Ahmed Farid, O.A.H.; Bakeer, R.; Karandikar, H.; Paradkar, A. 2020: Nicotinamide extrudates as novel anti-aging and collagen promoting platform: a comparative cosmeceutical study versus the gel form. Pharmaceutical Development and Technology 25(9): 1139-1149
Xu, J.; Zhang, L.; Jiang, R.; Hu, K.; Hu, D.; Liao, C.; Jiang, S.; Yang, Y.; Huang, J.; Tang, L.; Li, L. 2021: Nicotinamide improves NAD+ levels to protect against acetaminophen-induced acute liver injury in mice. Human and Experimental Toxicology 40(11): 1938-1946
Scatozza, F.; Moschella, F.; D'Arcangelo, D.; Rossi, S.; Tabolacci, C.; Giampietri, C.; Proietti, E.; Facchiano, F.; Facchiano, A. 2020: Nicotinamide inhibits melanoma in vitro and in vivo. Journal of Experimental and Clinical Cancer Research: Cr 39(1): 211
Möhler, H.; Polc, P.; Cumin, R.; Pieri, L.; Kettler, R. 1979: Nicotinamide is a brain constituent with benzodiazepine-like actions. Nature 278(5704): 563-565
Upadhyay, A.; Pisupati, A.; Jegla, T.; Crook, M.; Mickolajczyk, K.J.; Shorey, M.; Rohan, L.E.; Billings, K.A.; Rolls, M.M.; Hancock, W.O.; Hanna-Rose, W. 2016: Nicotinamide is an endogenous agonist for a C. elegans TRPV OSM-9 and OCR-4 channel. Nature Communications 7: 13135
Zang, S.; Ali, Y.O.; Ruan, K.; Zhai, R.Grace. 2013: Nicotinamide mononucleotide adenylyltransferase maintains active zone structure by stabilizing Bruchpilot. Embo Reports 14(1): 87-94
Kusumanchi, P.; Zhang, Y.; Jani, M.B.; Jayaram, N.H.; Khan, R.A.; Tang, Y.; Antony, A.C.; Jayaram, H.N. 2013: Nicotinamide mononucleotide adenylyltransferase2 overexpression enhances colorectal cancer cell-kill by Tiazofurin. Cancer Gene Therapy 20(7): 403-412
Miwa, A.; Sawada, Y.; Tamaoki, D.; Yokota Hirai, M.; Kimura, M.; Sato, K.; Nishiuchi, T. 2017: Nicotinamide mononucleotide and related metabolites induce disease resistance against fungal phytopathogens in Arabidopsis and barley. Scientific Reports 7(1): 6389
Wei, C-Chun.; Kong, Y-Yuan.; Li, G-Qiang.; Guan, Y-Feng.; Wang, P.; Miao, C-Yu. 2017: Nicotinamide mononucleotide attenuates brain injury after intracerebral hemorrhage by activating Nrf2/HO-1 signaling pathway. Scientific Reports 7(1): 717
Wan, Y.; He, B.; Zhu, D.; Wang, L.; Huang, R.; Zhu, J.; Wang, C.; Gao, F. 2021: Nicotinamide mononucleotide attenuates doxorubicin-induced cardiotoxicity by reducing oxidative stress, inflammation and apoptosis in rats. Archives of Biochemistry and Biophysics 712: 109050
Wu, K.; Li, B.; Lin, Q.; Xu, W.; Zuo, W.; Li, J.; Liu, N.; Tu, T.; Zhang, B.; Xiao, Y.; Liu, Q. 2021: Nicotinamide mononucleotide attenuates isoproterenol-induced cardiac fibrosis by regulating oxidative stress and Smad3 acetylation. Life Sciences 274: 119299
Takeda, K.; Okumura, K. 2021: Nicotinamide mononucleotide augments the cytotoxic activity of natural killer cells in young and elderly mice. Biomedical Research 42(5): 173-179
Sugiyama, K.; Iijima, K.; Yoshino, M.; Dohra, H.; Tokimoto, Y.; Nishikawa, K.; Idogaki, H.; Yoshida, N. 2021: Nicotinamide mononucleotide production by fructophilic lactic acid bacteria. Scientific Reports 11(1): 7662
Song, J.; Li, J.; Yang, F.; Ning, G.; Zhen, L.; Wu, L.; Zheng, Y.; Zhang, Q.; Lin, D.; Xie, C.; Peng, L. 2019: Nicotinamide mononucleotide promotes osteogenesis and reduces adipogenesis by regulating mesenchymal stromal cells via the SIRT1 pathway in aged bone marrow. Cell Death and Disease 10(5): 336
Dietrich, L.S.; Fuller, L.; Yero, I.L.; Martinez, L. 1965: Nicotinamide mononucleotide pyrophosphorylase activity in ascites cell extracts. Nature 208(5008): 347-348
Wang, Q.-H.; Li, Y.; Dou, D.-Y.; Wang, R.; Jiang, T.-T.; Wang, L.; Li, M.-Q.; Joshua Olatunji, O.; Zuo, J. 2021: Nicotinamide mononucleotide-elicited NAMPT signaling activation aggravated adjuvant-induced arthritis in rats by affecting peripheral immune cells differentiation. International Immunopharmacology 98: 107856
Wei, Z.; Chai, H.; Chen, Y.; Cheng, Y.; Liu, X. 2021: Nicotinamide mononucleotide: An emerging nutraceutical against cardiac aging?. Current Opinion in Pharmacology 60: 291-297
Roos, J.; Zinngrebe, J.; Fischer-Posovszky, P. 2021: Nicotinamide mononucleotide: a potential effective natural compound against insulin resistance. Signal Transduction and Targeted Therapy 6(1): 310
Rao, K.N.S.; Shen, X.; Pardue, S.; Krzywanski, D.M. 2020: Nicotinamide nucleotide transhydrogenase (NNT) regulates mitochondrial ROS and endothelial dysfunction in response to angiotensin Ii. Redox Biology 36: 101650
Duan, Z.; Song, Y.; Zou, X.; Liu, S.; Zhang, W.; Liu, L. 2020: Nicotinamide nucleotide transhydrogenase acts as a new prognosis biomarker in hepatocellular carcinoma. International Journal of Clinical and Experimental Pathology 13(5): 972-978
Stratford, M.R.; Dennis, M.F.; Hoskin, P.; Phillips, H.; Hodgkiss, R.J.; Rojas, A. 1996: Nicotinamide pharmacokinetics in humans: effect of gastric acid inhibition, comparison of rectal vs oral administration and the use of saliva for drug monitoring. British Journal of Cancer 74(1): 16-21
Pittelli, M.; Cavone, L.; Lapucci, A.; Oteri, C.; Felici, R.; Niccolai, E.; Amedei, A.; Chiarugi, A. 2014: Nicotinamide phosphoribosyltransferase (NAMPT) activity is essential for survival of resting lymphocytes. Immunology and Cell Biology 92(2): 191-199
Kong, Y-Yuan.; Li, G-Qiang.; Zhang, W-Jie.; Hua, X.; Zhou, C-Can.; Xu, T-Ying.; Li, Z-Yong.; Wang, P.; Miao, C-Yu. 2019: Nicotinamide phosphoribosyltransferase aggravates inflammation and promotes atherosclerosis in ApoE knockout mice. Acta Pharmacologica Sinica 40(9): 1184-1192
Huang, J.; Guo, L.; Kang, H-Wei.; Lv, D.; Lin, W.; Li, C-Fen.; Huang, X-Qin.; Ding, Q-Li. 2021: Nicotinamide phosphoribosyltransferase as a biomarker for the diagnosis of infectious pleural effusions. Scientific Reports 11(1): 21121
Zeng, M.; Wei, T.-F.; Chen, C.; Shen, C.; Gao, T.-Y.; Xie, X.; Wu, M.; Lu, Y.-B.; Zhang, W.-P. 2021: Nicotinamide phosphoribosyltransferase inhibitor ameliorates mouse aging-induced cognitive impairment. Journal of Cerebral Blood Flow and Metabolism: Official Journal of the International Society of Cerebral Blood Flow and Metabolism 41(10): 2510-2523
Yamaguchi, D.; Imaizumi, T.; Yagi, K.; Matsumoto, Y.; Nakashima, T.; Hirose, A.; Kashima, N.; Nosaka, Y.; Hamada, T.; Okawa, K.; Nishiya, Y.; Kubo, K. 2019: Nicotinamide phosphoribosyltransferase is a molecular target of potent anticancer agents identified from phenotype-based drug screening. Scientific Reports 9(1): 7742
Zhang, Y.; Xu, J.; Ren, Z.; Meng, Y.; Liu, W.; Lu, L.; Zhou, Z.; Chen, G. 2021: Nicotinamide promotes pancreatic differentiation through the dual inhibition of CK1 and ROCK kinases in human embryonic stem cells. Stem Cell Research and Therapy 12(1): 362
Tribble, J.R.; Otmani, A.; Sun, S.; Ellis, S.A.; Cimaglia, G.; Vohra, R.; Jöe, M.; Lardner, E.; Venkataraman, A.P.; Domínguez-Vicent, A.; Kokkali, E.; Rho, S.; Jóhannesson, G.; Burgess, R.W.; Fuerst, P.G.; Brautaset, R.; Kolko, M.; Morgan, J.E.; Crowston, J.G.; Votruba, M.; Williams, P.A. 2021: Nicotinamide provides neuroprotection in glaucoma by protecting against mitochondrial and metabolic dysfunction. Redox Biology 43: 101988
Griffin, S.íl.M.; Pickard, M.R.; Hawkins, C.P.; Williams, A.C.; Fricker, R.A. 2020: Nicotinamide restricts neural precursor proliferation to enhance catecholaminergic neuronal subtype differentiation from mouse embryonic stem cells. Plos one 15(9): E0233477
Sun, X.; Cao, B.; Naval-Sanchez, M.; Pham, T.; Sun, Y.Bo.Yang.; Williams, B.; Heazlewood, S.Y.; Deshpande, N.; Li, J.; Kraus, F.; Rae, J.; Nguyen, Q.; Yari, H.; Schröder, J.; Heazlewood, C.K.; Fulton, M.; Hatwell-Humble, J.; Das Gupta, K.; Kapetanovic, R.; Chen, X.; Sweet, M.J.; Parton, R.G.; Ryan, M.T.; Polo, J.M.; Nefzger, C.M.; Nilsson, S.K. 2021: Nicotinamide riboside attenuates age-associated metabolic and functional changes in hematopoietic stem cells. Nature Communications 12(1): 2665
Trammell, S.A.J.; Schmidt, M.S.; Weidemann, B.J.; Redpath, P.; Jaksch, F.; Dellinger, R.W.; Li, Z.; Abel, E.Dale.; Migaud, M.E.; Brenner, C. 2016: Nicotinamide riboside is uniquely and orally bioavailable in mice and humans. Nature Communications 7: 12948
De Castro, J.M.; Assumpção, J.é A.ôn.F.; Stein, D.J.ão.; Toledo, R.S.öh.; da Silva, L.S.; Caumo, W.; Carraro, C.C.; da Rosa Araujo, A.S.; Torres, I.L.S. 2020: Nicotinamide riboside reduces cardiometabolic risk factors and modulates cardiac oxidative stress in obese Wistar rats under caloric restriction. Life Sciences 263: 118596
Hamity, M.V.; White, S.R.; Blum, C.; Gibson-Corley, K.N.; Hammond, D.L. 2020: Nicotinamide riboside relieves paclitaxel-induced peripheral neuropathy and enhances suppression of tumor growth in tumor-bearing rats. Pain 161(10): 2364-2375
Simic, P.; Vela Parada, X.F.; Parikh, S.M.; Dellinger, R.; Guarente, L.P.; Rhee, E.P. 2020: Nicotinamide riboside with pterostilbene (NRPT) increases NAD+ in patients with acute kidney injury (AKI): a randomized, double-blind, placebo-controlled, stepwise safety study of escalating doses of NRPT in patients with AKi. Bmc Nephrology 21(1): 342
Zhou, L.; Shi, D.-P.; Chu, W.-J.; Song, S.; Hao, X.-H.; Yang, L.-L.; Xu, H.-F. 2021: Nicotinamide suppresses bevacizumab-induced epithelial-mesenchymal transition of ARPE-19 cells by attenuating oxidative stress. International Journal of Ophthalmology 14(4): 481-488
Flachs, A. 1948: Nicotinamide therapy for pellagra's diarrhea (pellagra's pellagra). Nordisk Medicin 39(33): 1507-1509
Chaplin, D.J.; Horsman, M.R.; Aoki, D.S. 1991: Nicotinamide, Fluosol DA and Carbogen: a strategy to reoxygenate acutely and chronically hypoxic cells in vivo. British Journal of Cancer 63(1): 109-113
Salech, F.; Ponce, D.P.; Paula-Lima, A.C.; SanMartin, C.D.; Behrens, M.ía.I. 2020: Nicotinamide, a Poly [ADP-Ribose] Polymerase 1 (PARP-1) Inhibitor, as an Adjunctive Therapy for the Treatment of Alzheimer's Disease. Frontiers in Aging Neuroscience 12: 255
Liu, Z.; Li, C.; Fan, X.; Kuang, Y.; Zhang, X.; Chen, L.; Song, J.; Zhou, Y.; Takahashi, E.; He, G.; Li, W. 2020: Nicotinamide, a vitamin B3 ameliorates depressive behaviors independent of SIRT1 activity in mice. Molecular Brain 13(1): 162
Kasak, P.; Hrobárik, P.; Osička, J.; Soláriková, D.; Horváth, B.; Tkac, J.; Sadasivuni, K.K.; AlMaadeed, M.A.; Mikláš, R. 2021: Nicotinamide-based supergelator self-assembling via asymmetric hydrogen bonding NH⋯OC and H⋯Br- pattern for reusable, moldable and self-healable nontoxic fuel gels. Journal of Colloid and Interface Science 603: 182-190
Shah, S.A.R.; Khan, M.I.; Jawaid, H.; Qureshi, U.; Ul-Haq, Z.; Hafizur, M.R. 2021: Nicotinamide-cinnamic acid cocktail exerts pancreatic β-cells survival coupled with insulin secretion through ERK1/2 signaling pathway in an animal model of apoptosis. Daru: Journal of Faculty of Pharmacy Tehran University of Medical Sciences 29(2): 483-492
Yuan, Y.-G.; Wang, J.-L.; Mesalam, A.; Li, L.; Choi, Y.-J.; Talimur Reza, A.M.M.; Zhou, D.; Chen, L.; Qian, C. 2020: Nicotinamide-induced mouse embryo developmental defect rescued by resveratrol and I-CBP112. Molecular Reproduction and Development 87(9): 1009-1017
Marche, J. 1950: Nicotinamidemia. Laval Medical 15(1): 79-110
Marche, J. 1949: Nicotinamidemia and metabolism of vitamin PP. Laval Medical 14(8): 1035-1061
Grinberg, R.; Correa Urquiza, L.M. 1949: Nicotinate and copper glutamate action on rat Roffo sarcoma. La Semana Medica 56(32 Part 2): 265-268
Sun, S-Yu.; Cao, Y-Mei.; Huo, Y-Jie.; Qiu, F.; Quan, W-Juan.; He, C-Ping.; Chen, Y.; Liao, D-Fang.; Tuo, Q-Hui. 2021: Nicotinate-curcumin inhibits AngII-induced vascular smooth muscle cell phenotype switching by upregulating Daxx expression. Cell Adhesion and Migration 15(1): 116-125
Snow, D. 2020: Nicotine Addiction and E-Cigarettes. Journal of Addictions Nursing 31(2): 77-78
Meng, T.-T.; Wang, W.; Meng, F.-L.; Wang, S.-Y.; Wu, H.-H.; Chen, J.-M.; Zheng, Y.; Wang, G.-X.; Zhang, M.-X.; Li, Y.; Su, G.-H. 2021: Nicotine Causes Mitochondrial Dynamics Imbalance and Apoptosis Through ROS Mediated Mitophagy Impairment in Cardiomyocytes. Frontiers in Physiology 12: 650055
Rest, E.C.; Mermelstein, R.J.; Hedeker, D. 2021: Nicotine Dependence in Dual Users of Cigarettes and E-Cigarettes: Common and Distinct Elements. Nicotine and Tobacco Research: Official Journal of the Society for Research on Nicotine and Tobacco 23(4): 662-668
Lee, J. 2021: Nicotine Dependence of Electronic Cigarette, Dual Combustible and Electronic Cigarette Users. Korean Journal of Family Medicine 42(3): 189-190
Chen, H.; Zhao, B.; Li, X.; Xie, R.; Li, W. 2020: Nicotine Dependence, Perceived Behavioral Control, Descriptive Quitting Norms, and Intentions to Quit Smoking among Chinese Male Regular Smokers. Substance use and Misuse 2020: 1-8
Vossen, A.R.J.V.; van Straalen, K.R.; Swolfs, E.F.H.; van den Bosch, J.F.; Ardon, C.B.; van der Zee, H.H. 2021: Nicotine Dependency and Readiness to Quit Smoking among Patients with Hidradenitis Suppurativa. Dermatology 237(3): 383-385
Intskirveli, I.; Metherate, R. 2021: Nicotine Enhances Amplitude and Consistency of Timing of Responses to Acoustic Trains in A1. Frontiers in Neural Circuits 15: 597401
Izumi, S.; Domoto, M.; Esaki, H.; Sasase, H.; Nishitani, N.; Deyama, S.; Kaneda, K. 2021: Nicotine Enhances Firing Activity of Layer 5 Pyramidal Neurons in the Medial Prefrontal Cortex through Inhibition of Kv7 Channels. Biological and Pharmaceutical Bulletin 44(5): 724-731
Angelyn, H.; Loney, G.C.; Meyer, P.J. 2021: Nicotine Enhances Goal-Tracking in Ethanol and Food Pavlovian Conditioned Approach Paradigms. Frontiers in Neuroscience 15: 561766
Esaki, H.; Izumi, S.; Fukao, A.; Ito, S.; Nishitani, N.; Deyama, S.; Kaneda, K. 2021: Nicotine Enhances Object Recognition Memory via Stimulating α4β2 and α7 Nicotinic Acetylcholine Receptors in the Medial Prefrontal Cortex of Mice. Biological and Pharmaceutical Bulletin 44(7): 1007-1013
Kennedy, P.; Saloky, K.; Yadavalli, A.; Barlow, E.; Aynardi, M.; Garner, M.; Bible, J.; Lewis, G.S.; Dhawan, A. 2021: Nicotine Exposure Via Electronic Cigarettes Significantly Impedes Biomechanical Healing Properties of Tendon Healing in a Rat Model. Arthroscopy: the Journal of Arthroscopic and Related Surgery: Official Publication of the Arthroscopy Association of North America and the International Arthroscopy Association 37(10): 3170-3176
McMillan, D.M.; Tyndale, R.F. 2015: Nicotine Increases Codeine Analgesia Through the Induction of Brain CYP2D and Central Activation of Codeine to Morphine. Neuropsychopharmacology: Official Publication of the American College of Neuropsychopharmacology 40(7): 1804-1812
Castillo-Rolón, D.; Ramírez-Sánchez, E.; Arenas-López, G.; Garduño, J.; Hernández-González, O.; Mihailescu, S.; Hernández-López, S. 2020: Nicotine Increases Spontaneous Glutamate Release in the Rostromedial Tegmental Nucleus. Frontiers in Neuroscience 14: 604583
Ni, H.; Xu, S.; Chen, H.; Dai, Q. 2020: Nicotine Modulates CTSS (Cathepsin S) Synthesis and Secretion Through Regulating the Autophagy-Lysosomal Machinery in Atherosclerosis. Arteriosclerosis Thrombosis and Vascular Biology 40(9): 2054-2069
Tai, L.-C.; Ahn, C.H.; Nyein, H.Y.Y.; Ji, W.; Bariya, M.; Lin, Y.; Li, L.; Javey, A. 2020: Nicotine Monitoring with a Wearable Sweat Band. Acs Sensors 5(6): 1831-1837
Nguyen, S.M.; Deering, L.; Nelson, G.T.; McDaniel, S.S. 2021: Nicotine Patch Improved Autosomal Dominant Sleep-Related Hypermotor Epilepsy. Pediatric Neurology 123: 41-42
Barry, K.; Finke, J. 2020: Nicotine Replacement Therapy for Smoking Cessation. American Family Physician 102(1): 17-18
Moriguchi, S.; Inagaki, R.; Yi, L.; Shibata, M.; Sakagami, H.; Fukunaga, K. 2020: Nicotine Rescues Depressive-like Behaviors via α7-type Nicotinic Acetylcholine Receptor Activation in CaMKIV Null Mice. Molecular Neurobiology 57(12): 4929-4940
Jimenez, T.; Friedman, T.; Vadgama, J.; Singh, V.; Tucker, A.; Collazo, J.; Sinha, S.; Hikim, A.S.; Singh, R.; Pervin, S. 2020: Nicotine Synergizes with High-Fat Diet to Induce an Anti-Inflammatory Microenvironment to Promote Breast Tumor Growth. Mediators of Inflammation 2020: 5239419
Shen, L.; Qiu, H.-B.; Xu, H.-H.; Wei, K.; Zhao, L.; Zhu, C.-C.; Li, C.-J.; Lu, Z.-J. 2021: Nicotine withdrawal induces hyperalgesia via downregulation of descending serotonergic pathway in the nucleus raphe magnus. Neuropharmacology 189: 108515
Benowitz, N.L.; Porchet, H.; Sheiner, L.; Jacob, P. 1988: Nicotine absorption and cardiovascular effects with smokeless tobacco use: comparison with cigarettes and nicotine gum. Clinical Pharmacology and Therapeutics 44(1): 23-28
Hasenfratz, M.; Bättig, K. 1991: Nicotine absorption and the subjective and physiologic effects of nicotine toothpicks. Clinical Pharmacology and Therapeutics 50(4): 456-461
Farsalinos, K.E.; Spyrou, A.; Stefopoulos, C.; Tsimopoulou, K.; Kourkoveli, P.; Tsiapras, D.; Kyrzopoulos, S.; Poulas, K.; Voudris, V. 2015: Nicotine absorption from electronic cigarette use: comparison between experienced consumers (vapers) and naïve users (smokers). Scientific Reports 5: 11269
Farsalinos, K.E.; Spyrou, A.; Tsimopoulou, K.; Stefopoulos, C.; Romagna, G.; Voudris, V. 2014: Nicotine absorption from electronic cigarette use: comparison between first and new-generation devices. Scientific Reports 4: 4133
Uhl, G.R.; Drgon, T.; Johnson, C.; Rose, J.E. 2009: Nicotine abstinence genotyping: assessing the impact on smoking cessation clinical trials. Pharmacogenomics Journal 9(2): 111-115
Pidoplichko, V.I.; DeBiasi, M.; Williams, J.T.; Dani, J.A. 1997: Nicotine activates and desensitizes midbrain dopamine neurons. Nature 390(6658): 401-404
Talavera, K.; Gees, M.; Karashima, Y.; Meseguer, Víctor.M.; Vanoirbeek, J.A.J.; Damann, N.; Everaerts, W.; Benoit, M.; Janssens, A.; Vennekens, R.; Viana, Félix.; Nemery, B.; Nilius, B.; Voets, T. 2009: Nicotine activates the chemosensory cation channel TRPA1. Nature Neuroscience 12(10): 1293-1299
Wang, K.S.; Brown, K.; Frederick, B.B.; Moran, L.V.; Olson, D.; Pizzagalli, D.A.; Kaiser, R.H.; Janes, A.C. 2021: Nicotine acutely alters temporal properties of resting brain states. Drug and Alcohol Dependence 226: 108846
Dani, J.A.; Harris, R.Adron. 2005: Nicotine addiction and comorbidity with alcohol abuse and mental illness. Nature Neuroscience 8(11): 1465-1470
Changeux, J-Pierre. 2010: Nicotine addiction and nicotinic receptors: lessons from genetically modified mice. Nature Reviews. Neuroscience 11(6): 389-401
White, F.J. 1998: Nicotine addiction and the lure of reward. Nature Medicine 4(6): 659-660
Fedele, E.; Varnier, G.; Ansaldo, M.A.; Raiteri, M. 1998: Nicotine administration stimulates the in vivo N-methyl-D-aspartate receptor/nitric oxide/cyclic GMP pathway in rat hippocampus through glutamate release. British Journal of Pharmacology 125(5): 1042-1048
Gao, J.; Fan, J.; Meng, Z.; Wang, R.; Liu, C.; Liu, J.; Liang, B.; Wang, J.; Xie, Y.; Zhao, J.; Guo, R.; Zhao, J.; Ma, X.; Jiao, X.; Cao, J.; Wang, Y. 2021: Nicotine aggravates vascular adiponectin resistance via ubiquitin-mediated adiponectin receptor degradation in diabetic Apolipoprotein E knockout mouse. Cell Death and Disease 12(6): 508
Kroemer, N.B.; Guevara, A.; Vollstädt-Klein, S.; Smolka, M.N. 2013: Nicotine alters food-cue reactivity via networks extending from the hypothalamus. Neuropsychopharmacology: Official Publication of the American College of Neuropsychopharmacology 38(11): 2307-2314
Dao, J.M.; McQuown, S.C.; Loughlin, S.E.; Belluzzi, J.D.; Leslie, F.M. 2011: Nicotine alters limbic function in adolescent rat by a 5-HT1A receptor mechanism. Neuropsychopharmacology: Official Publication of the American College of Neuropsychopharmacology 36(7): 1319-1331
Rice, M.E.; Cragg, S.J. 2004: Nicotine amplifies reward-related dopamine signals in striatum. Nature Neuroscience 7(6): 583-584
Nop, O.; Senft Miller, A.; Culver, H.; Makarewicz, J.; Dumas, J.A. 2021: Nicotine and Cognition in Cognitively Normal Older Adults. Frontiers in Aging Neuroscience 13: 640674
Kowsari, G.; Mehrabi, S.; Soleimani Asl, S.; Pourhamzeh, M.; Mousavizadeh, K.; Mehdizadeh, M. 2021: Nicotine and modafinil combination protects against the neurotoxicity induced by 3,4-Methylenedioxymethamphetamine in hippocampal neurons of male rats. Journal of Chemical Neuroanatomy 116: 101986
Morris, C.D.; Garver-Apgar, C.E. 2020: Nicotine and Opioids: a Call for Co-treatment as the Standard of Care. Journal of Behavioral Health Services and Research 47(4): 601-613
Whitehead, A.K.; Erwin, A.P.; Yue, X. 2021: Nicotine and vascular dysfunction. Acta Physiologica 231(4): E13631
Kalayciyan, A.; Orawa, H.; Fimmel, S.; Perschel, F.H.; González, Jé-B.; Fitzner, R.G.; Orfanos, C.E.; Zouboulis, C.C. 2007: Nicotine and biochanin A, but not cigarette smoke, induce anti-inflammatory effects on keratinocytes and endothelial cells in patients with Behçet's disease. Journal of Investigative Dermatology 127(1): 81-89
Young-Wolff, K.C.; Adams, S.R.; Sterling, S.A.; Tan, A.S.L.; Salloum, R.G.; Torre, K.; Carter-Harris, L.; Prochaska, J.J. 2021: Nicotine and cannabis vaping among adolescents in treatment for substance use disorders. Journal of Substance Abuse Treatment 125: 108304
Benowitz, N.L.; Jacob, P. 1984: Nicotine and carbon monoxide intake from high- and low-yield cigarettes. Clinical Pharmacology and Therapeutics 36(2): 265-270
Benowitz, N.L.; Jacob, P. 1993: Nicotine and cotinine elimination pharmacokinetics in smokers and nonsmokers. Clinical Pharmacology and Therapeutics 53(3): 316-323
Heinrich, J.; Hölscher, B.; Seiwert, M.; Carty, C.L.; Merkel, Günter.; Schulz, C. 2005: Nicotine and cotinine in adults' urine: The German Environmental Survey 1998. Journal of Exposure Analysis and Environmental Epidemiology 15(1): 74-80
Schwartz, A.; Bellissimo, N. 2021: Nicotine and energy balance: a review examining the effect of nicotine on hormonal appetite regulation and energy expenditure. Appetite 164: 105260
Piao, W-Hua.; Campagnolo, D.; Dayao, C.; Lukas, R.J.; Wu, J.; Shi, F-Dong. 2009: Nicotine and inflammatory neurological disorders. Acta Pharmacologica Sinica 30(6): 715-722
Li, H.; Peng, Y.; Lin, C.; Zhang, X.; Zhang, T.; Wang, Y.; Li, Y.; Wu, S.; Wang, H.; Hutchinson, M.R.; Watkins, L.R.; Wang, X. 2021: Nicotine and its metabolite cotinine target MD2 and inhibit TLR4 signaling. Innovation 2(2): 100111
Popik, P.; Kozela, E.; Krawczyk, M. 2003: Nicotine and nicotinic receptor antagonists potentiate the antidepressant-like effects of imipramine and citalopram. British Journal of Pharmacology 139(6): 1196-1202
Addicott, M.A.; Froeliger, B.; Kozink, R.V.; Van Wert, D.M.; Westman, E.C.; Rose, J.E.; McClernon, F.J. 2014: Nicotine and non-nicotine smoking factors differentially modulate craving, withdrawal and cerebral blood flow as measured with arterial spin labeling. Neuropsychopharmacology: Official Publication of the American College of Neuropsychopharmacology 39(12): 2750-2759
Hirotsu, C.; Pedroni, M.Negrao.; Berro, Lís.Fernanda.; Tufik, S.; Andersen, M.Levy. 2018: Nicotine and sleep deprivation: impact on pain sensitivity and immune modulation in rats. Scientific Reports 8(1): 13837
Tajlil, A.; Ghaffari, S.; Pourafkari, L.; Mashayekhi, S.; Roshanravan, N. 2020: Nicotine and smoking in the COVID-19 era. Journal of Cardiovascular and Thoracic Research 12(2): 136-139
Tizabi, Y.; Getachew, B.; Copeland, R.L.; Aschner, M. 2020: Nicotine and the nicotinic cholinergic system in COVID-19. Febs Journal 287(17): 3656-3663
Griffel, L.; Das, K.M. 1994: Nicotine and ulcerative colitis. National Medical Journal of India 7(5): 222-223
John, S. 1995: Nicotine as a drug. Nature 378(6553): 124
Kumari, K.; Das, B.; Adhya, A.; Chaudhary, S.; Senapati, S.; Mishra, S.K. 2018: Nicotine associated breast cancer in smokers is mediated through high level of EZH2 expression which can be reversed by methyltransferase inhibitor DZNepA. Cell Death and Disease 9(2): 152
Liu, Q.; Zhao, B. 2004: Nicotine attenuates beta-amyloid peptide-induced neurotoxicity, free radical and calcium accumulation in hippocampal neuronal cultures. British Journal of Pharmacology 141(4): 746-754
Wolfman, S.L.; Gill, D.F.; Bogdanic, F.; Long, K.; Al-Hasani, R.; McCall, J.G.; Bruchas, M.R.; McGehee, D.S. 2018: Nicotine aversion is mediated by GABAergic interpeduncular nucleus inputs to laterodorsal tegmentum. Nature Communications 9(1): 2710
Xiu, X.; Puskar, N.L.; Shanata, J.A.P.; Lester, H.A.; Dougherty, D.A. 2009: Nicotine binding to brain receptors requires a strong cation-pi interaction. Nature 458(7237): 534-537
Suemaru, K.; Yasuda, K.; Umeda, K.; Araki, H.; Shibata, K.; Choshi, T.; Hibino, S.; Gomita, Y. 2004: Nicotine blocks apomorphine-induced disruption of prepulse inhibition of the acoustic startle in rats: possible involvement of central nicotinic alpha7 receptors. British Journal of Pharmacology 142(5): 843-850
Sal, F.; Prados, J.; Urcelay, G.P. 2021: Nicotine chronic tolerance development and withdrawal in the planaria (Schmidtea mediterranea). Pharmacology Biochemistry and Behavior 200: 173075
Morel, C.; Fattore, L.; Pons, S.; Hay, Y.A.; Marti, F.; Lambolez, B.; De Biasi, M.; Lathrop, M.; Fratta, W.; Maskos, U.; Faure, P. 2014: Nicotine consumption is regulated by a human polymorphism in dopamine neurons. Molecular Psychiatry 19(8): 930-936
Frankenburg, W.G. 1955: Nicotine degradation in vitro induced by agents from tobacco seed. Nature 175(4465): 945-946
Mallock, N.; Rabenstein, A.; Gernun, S.; Laux, P.; Hutzler, C.; Karch, S.; Koller, G.; Henkler-Stephani, F.; Parr, M.Kristina.; Pogarell, O.; Luch, A.; Rüther, T. 2021: Nicotine delivery and relief of craving after consumption of European JUUL e-cigarettes prior and after pod modification. Scientific Reports 11(1): 12078
Phillips-Waller, A.; Przulj, D.; Pesola, F.; Smith, K.M.; Hajek, P. 2021: Nicotine Delivery and User Ratings of IQOS Heated Tobacco System Compared with Cigarettes, Juul, and Refillable E-Cigarettes. Nicotine and Tobacco Research: Official Journal of the Society for Research on Nicotine and Tobacco 23(11): 1889-1894
Prévôt, N.; de Oliveira, F.; Perinel-Ragey, S.; Basset, T.; Vergnon, J-Michel.; Pourchez, Jérémie. 2017: Nicotine delivery from the refill liquid to the aerosol via high-power e-cigarette device. Scientific Reports 7(1): 2592
Lesage, E.; Sutherland, M.T.; Ross, T.J.; Salmeron, B.J.; Stein, E.A. 2020: Nicotine dependence (trait) and acute nicotinic stimulation (state) modulate attention but not inhibitory control: converging fMRI evidence from Go-Nogo and Flanker tasks. Neuropsychopharmacology: Official Publication of the American College of Neuropsychopharmacology 45(5): 857-865
Tan, L.; Tang, Q.; Hao, W. 2009: Nicotine dependence and smoking cessation. Zhong Nan da Xue Xue Bao. Yi Xue Ban 34(11): 1049-1057
Thomas, S.; Carroll, J.C.; Brown, M.C.; Chen, Z.; Mirshams, M.; Patel, D.; Boyd, K.; Pierre, A.; Goldstein, D.P.; Giuliani, M.E.; Xu, W.; Eng, L.; Khodayari Moez, E.; Liu, G.; Hung, R.J. 2020: Nicotine dependence as a risk factor for upper aerodigestive tract (UADT) cancers: a mediation analysis. Plos one 15(8): E0237723
Jurmu, A.; Jurmu, E.; Riala, K.; Hakko, Hä.; Riipinen, P. 2020: Nicotine dependence in adolescence predicts later drug criminality: a register-based follow-up of adolescent psychiatric inpatients. Journal of Addictive Diseases 38(2): 170-175
Teitelbaum, A.M.; Murphy, S.E.; Akk, G.; Baker, T.B.; Germann, A.; von Weymarn, L.B.; Bierut, L.J.; Goate, A.; Kharasch, E.D.; Bloom, A.J. 2018: Nicotine dependence is associated with functional variation in FMO3, an enzyme that metabolizes nicotine in the brain. Pharmacogenomics Journal 18(1): 136-143
Yılmazel, G.ül. 2021: Nicotine dependence levels in pre and during pandemic and its correlations with COVID-19 phobia among healthy men during controlled social life: a sample of primary care population. International Journal of Clinical Practice 75(10): E14627
Kechter, A.; Cho, J.; Miech, R.A.; Barrington-Trimis, J.L.; Leventhal, A.M. 2021: Nicotine dependence symptoms in U.S. youth who use JUUL E-cigarettes. Drug and Alcohol Dependence 227: 108941
Ayo-Yusuf, O.A.; Omole, O.B. 2020: Nicotine dependence, socioeconomic status, lifestyle behaviours and lifetime quit attempts among adult smokers in South Africa. South African Medical Journal 110(8): 796-801
Zhang, X.Yang.; Tan, Y.Long.; Zhou, D.Feng.; Haile, C.N.; Wu, G.Ying.; Cao, L.Yuan.; Kosten, T.A.; Kosten, T.R. 2007: Nicotine dependence, symptoms and oxidative stress in male patients with schizophrenia. Neuropsychopharmacology: Official Publication of the American College of Neuropsychopharmacology 32(9): 2020-2024
Evans, D.E.; Maxfield, N.D.; Van Rensburg, K.Janse.; Oliver, J.A.; Jentink, K.G.; Drobes, D.J. 2013: Nicotine deprivation influences P300 markers of cognitive control. Neuropsychopharmacology: Official Publication of the American College of Neuropsychopharmacology 38(12): 2525-2531
Hope, P.H.; Esperon M, E. 1945: Nicotine distribution in the water-oil system. ANALES. Escuela Nacional de Ciencias Biologicas 4(4): 391-403
Kenmochi, H.; Yamasaki, T.; Koizumi, S.; Sameshima, T.; Namba, H. 2020: Nicotine does not affect stem cell properties requisite for suicide gene therapy against glioma. Neurological Research 42(10): 818-827
Zuccarello, P.; Rust, S.; Caruso, M.; Emma, R.; Pulvirenti, R.; Favara, C.; Polosa, R.; Li Volti, G.; Ferrante, M. 2021: Nicotine dosimetry and stability in cambridge filter PADs (CFPs) following different smoking regime protocols and storage conditions. Regulatory Toxicology and Pharmacology: Rtp 122: 104917
Lallai, V.; Chen, Y.-C.; Roybal, M.M.; Kotha, E.R.; Fowler, J.P.; Staben, A.; Cortez, A.; Fowler, C.D. 2021: Nicotine e-cigarette vapor inhalation and self-administration in a rodent model: Sex- and nicotine delivery-specific effects on metabolism and behavior. Addiction Biology 26(6): E13024
Hong, L.Elliot.; Wonodi, I.; Lewis, J.; Thaker, G.K. 2008: Nicotine effect on prepulse inhibition and prepulse facilitation in schizophrenia patients. Neuropsychopharmacology: Official Publication of the American College of Neuropsychopharmacology 33(9): 2167-2174
Hahn, B.; Wells, A.K.; Lenartowicz, A.; Yuille, M.B. 2018: Nicotine effects on associative learning in human non-smokers. Neuropsychopharmacology: Official Publication of the American College of Neuropsychopharmacology 43(11): 2190-2196
Tolu, S.; Marti, F.; Morel, C.; Perrier, C.; Torquet, N.; Pons, S.; de Beaurepaire, R.; Faure, P. 2017: Nicotine enhances alcohol intake and dopaminergic responses through β2* and β4* nicotinic acetylcholine receptors. Scientific Reports 7: 45116
Esaki, H.; Izumi, S.; Fukao, A.; Nishitani, N.; Deyama, S.; Kaneda, K. 2021: Nicotine enhances object recognition memory through inhibition of voltage-dependent potassium 7 channels in the medial prefrontal cortex of mice. Journal of Pharmacological Sciences 147(1): 58-61
Smits, P.; Eijsbouts, A.; Thien, T. 1989: Nicotine enhances the circulatory effects of adenosine in human beings. Clinical Pharmacology and Therapeutics 46(3): 272-278
Zhang, Y.; Glowatzki, E.; Roux, I.; Fuchs, P.A. 2020: Nicotine evoked efferent transmitter release onto immature cochlear inner hair cells. Journal of Neurophysiology 124(5): 1377-1387
Cheng, C.-C.; Lin, H.-C.; Chiang, Y.-W.; Chang, J.; Sie, Z.-L.; Yang, B.-L.; Lim, K.-H.; Peng, C.-L.; Ho, A.-S.; Chang, Y.-F. 2021: Nicotine exhausts CD8+ T cells against tumor cells through increasing miR-629-5p to repress IL2RB-mediated granzyme B expression. Cancer Immunology Immunotherapy: Cii 70(5): 1351-1364
Taki, F.A.; Pan, X.; Lee, M-Hee.; Zhang, B. 2014: Nicotine exposure and transgenerational impact: a prospective study on small regulatory microRNAs. Scientific Reports 4: 7513
Iñiguez, S.D.; Warren, B.L.; Parise, E.M.; Alcantara, L.F.; Schuh, B.; Maffeo, M.L.; Manojlovic, Z.; Bolaños-Guzmán, C.A. 2009: Nicotine exposure during adolescence induces a depression-like state in adulthood. Neuropsychopharmacology: Official Publication of the American College of Neuropsychopharmacology 34(6): 1609-1624
Peixoto, T.C.; Moura, E.G.; Soares, P.N.; Rodrigues, V.S.T.; Claudio-Neto, S.; Oliveira, E.; Manhães, A.C.; Lisboa, P.C. 2021: Nicotine exposure during lactation causes disruption of hedonic eating behavior and alters dopaminergic system in adult female rats. Appetite 160: 105115
Zhang, Q.; Ganapathy, S.; Avraham, H.; Nishioka, T.; Chen, C. 2020: Nicotine exposure potentiates lung tumorigenesis by perturbing cellular surveillance. British Journal of Cancer 122(6): 904-911
Koide, M.; Nishizawa, S.; Yamamoto, S.; Yamaguchi, M.; Namba, H.; Terakawa, S. 2005: Nicotine exposure, mimicked smoking, directly and indirectly enhanced protein kinase C activity in isolated canine basilar artery, resulting in enhancement of arterial contraction. Journal of Cerebral Blood Flow and Metabolism: Official Journal of the International Society of Cerebral Blood Flow and Metabolism 25(3): 292-301
Liang, D.; Wang, Z.; Yan, Z.; Hou, S.; Xu, W.; Wang, L.; Shang, M.; Qiao, Z. 2017: Nicotine facilitates VSMC dysfunction through a miR-200b/RhoGDIA/cytoskeleton module. Scientific Reports 7: 43798
Gholap, V.V.; Kosmider, L.; Golshahi, L.; Halquist, M.S. 2020: Nicotine forms: why and how do they matter in nicotine delivery from electronic cigarettes?. Expert Opinion on Drug Delivery 17(12): 1727-1736
Henderson, B.J.; Cooper, S.Y. 2021: Nicotine formulations impact reinforcement-related behaviors in a mouse model of vapor self-administration. Drug and Alcohol Dependence 224: 108732
Rickards, E.H. 1992: Nicotine gum in Tourette's disorder. American Journal of Psychiatry 149(3): 417; Author Reply 418
Elgayar, S.A.M.; Hussein, O.A.; Mubarak, H.A.; Ismaiel, A.M.; Gomaa, A.M.S. 2021: Nicotine impact on rat substantia nigra compacta. Anatomy and Cell Biology 54(1): 112-123
Weiss, Séphanie.; Nosten-Bertrand, M.; McIntosh, J.Michael.; Giros, B.; Martres, M-Pascale. 2007: Nicotine improves cognitive deficits of dopamine transporter knockout mice without long-term tolerance. Neuropsychopharmacology: Official Publication of the American College of Neuropsychopharmacology 32(12): 2465-2478
Young, J.W.; Finlayson, K.; Spratt, C.; Marston, H.M.; Crawford, N.; Kelly, J.S.; Sharkey, J. 2004: Nicotine improves sustained attention in mice: evidence for involvement of the alpha7 nicotinic acetylcholine receptor. Neuropsychopharmacology: Official Publication of the American College of Neuropsychopharmacology 29(5): 891-900
Rushforth, S.L.; Steckler, T.; Shoaib, M. 2011: Nicotine improves working memory span capacity in rats following sub-chronic ketamine exposure. Neuropsychopharmacology: Official Publication of the American College of Neuropsychopharmacology 36(13): 2774-2781
Morgan, J.; Jones, A.; Kelso, C. 2021: Nicotine in electronic cigarette fluid: importation pathways to unequal harm. Internal Medicine Journal 51(7): 1156-1159
Baracchi, D.; Marples, A.; Jenkins, A.J.; Leitch, A.R.; Chittka, L. 2017: Nicotine in floral nectar pharmacologically influences bumblebee learning of floral features. Scientific Reports 7(1): 1951
Domi, E.; Xu, L.; Pätz, M.; Nordeman, A.; Augier, G.ël.; Holm, L.; Toivainen, S.; Augier, E.; Hansson, A.C.; Heilig, M. 2020: Nicotine increases alcohol self-administration in male rats via a μ-opioid mechanism within the mesolimbic pathway. British Journal of Pharmacology 177(19): 4516-4531
Nishioka, T.; Luo, L-Y.; Shen, L.; He, H.; Mariyannis, A.; Dai, W.; Chen, C. 2014: Nicotine increases the resistance of lung cancer cells to cisplatin through enhancing Bcl-2 stability. British Journal of Cancer 110(7): 1785-1792
Guo, L.; Zhang, Y.; Lv, Q.; Zhang, Z. 2020: Nicotine induces P2X4 receptor, interleukin-1 beta, and brain-derived neurotrophic factor expression in BV2 microglia cells. Neuroreport 31(18): 1249-1255
Chen, S.; Tan, S.; Yang, S.; Chen, G.; Zhu, L.; Sun, Z.; Li, H.; Yao, S. 2020: Nicotine induces apoptosis through exacerbation of blocked alveolar macrophage autophagic degradation in silicosis. Toxicology Letters 334: 94-101
Jia, G.; Meng, Z.; Liu, C.; Ma, X.; Gao, J.; Liu, J.; Guo, R.; Yan, Z.; Christopher, T.; Lopez, B.; Liu, W.; Dai, H.; Lau, W.B.; Jiao, X.; Zhao, J.; Wang, Z.-X.; Cao, J.; Wang, Y. 2020: Nicotine induces cardiac toxicity through blocking mitophagic clearance in young adult rat. Life Sciences 257: 118084
Lambe, E.K.; Picciotto, M.R.; Aghajanian, G.K. 2003: Nicotine induces glutamate release from thalamocortical terminals in prefrontal cortex. Neuropsychopharmacology: Official Publication of the American College of Neuropsychopharmacology 28(2): 216-225
Von Chamier, M.; Reyes, L.; Hayward, L.F.; Brown, M.B. 2021: Nicotine Induces Maternal and Fetal Inflammatory Responses which Predispose Intrauterine Infection Risk in a Rat Model. Nicotine and Tobacco Research: Official Journal of the Society for Research on Nicotine and Tobacco 23(10): 1763-1770
Yoshida, T.; Sakane, N.; Umekawa, T.; Kogure, A.; Kondo, M.; Kumamoto, K.; Kawada, T.; Nagase, I.; Saito, M. 1999: Nicotine induces uncoupling protein 1 in white adipose tissue of obese mice. International Journal of Obesity and Related Metabolic Disorders: Journal of the International Association for the Study of Obesity 23(6): 570-575
Lu, C-biao.; Li, C-zhang.; Li, D-liang.; Henderson, Z. 2013: Nicotine induction of theta frequency oscillations in rodent medial septal diagonal band in vitro. Acta Pharmacologica Sinica 34(6): 819-829
Harmych, S.J.; Kumar, J.; Bouni, M.E.; Chadee, D.N. 2020: Nicotine inhibits MAPK signaling and spheroid invasion in ovarian cancer cells. Experimental Cell Research 394(1): 112167
Zuccaro, P.; Pacifici, R.; Pichini, S. 2007: Nicotine intake and steady-state cotinine when smoking cigarettes of different yields. Clinical Pharmacology and Therapeutics 82(3): 251
Quintana, P.J.E.; Hoh, E.; Dodder, N.G.; Matt, G.E.; Zakarian, J.M.; Anderson, K.A.; Akins, B.; Chu, L.; Hovell, M.F. 2019: Nicotine levels in silicone wristband samplers worn by children exposed to secondhand smoke and electronic cigarette vapor are highly correlated with child's urinary cotinine. Journal of Exposure Science and Environmental Epidemiology 29(6): 733-741
Pianezza, M.L.; Sellers, E.M.; Tyndale, R.F. 1998: Nicotine metabolism defect reduces smoking. Nature 393(6687): 750
Kyerematen, G.A.; Morgan, M.L.; Chattopadhyay, B.; deBethizy, J.D.; Vesell, E.S. 1994: Nicotine metabolism in cigarette smokers and nonsmokers. Clinical Pharmacology and Therapeutics 55(1): 84-87
Benowitz, N.L.; Jacob, P. 1991: Nicotine metabolism in humans. Clinical Pharmacology and Therapeutics 50(4): 462-464
Benowitz, N.L.; Jacob, P. 1990: Nicotine metabolism in nonsmokers. Clinical Pharmacology and Therapeutics 48(4): 473-474
Jones, S.K.; Wolf, B.J.; Froeliger, B.; Wallace, K.; Carpenter, M.J.; Alberg, A.J. 2022: Nicotine Metabolism Predicted by CYP2A6 Genotypes in Relation to Smoking Cessation: a Systematic Review. Nicotine and Tobacco Research: Official Journal of the Society for Research on Nicotine and Tobacco 24(5): 633-642
Giratallah, H.K.; Chenoweth, M.J.; Addo, N.; Ahluwalia, J.S.; Cox, L.S.; Lerman, C.; George, T.P.; Benowitz, N.L.; Tyndale, R.F. 2021: Nicotine metabolite ratio: Comparison of the three urinary versions to the plasma version and nicotine clearance in three clinical studies. Drug and Alcohol Dependence 223: 108708
Thiel, C.M.; Zilles, K.; Fink, G.R. 2005: Nicotine modulates reorienting of visuospatial attention and neural activity in human parietal cortex. Neuropsychopharmacology: Official Publication of the American College of Neuropsychopharmacology 30(4): 810-820
Janes, A.C.; Zegel, M.; Ohashi, K.; Betts, J.; Molokotos, E.; Olson, D.; Moran, L.; Pizzagalli, D.A. 2018: Nicotine normalizes cortico-striatal connectivity in non-smoking individuals with major depressive disorder. Neuropsychopharmacology: Official Publication of the American College of Neuropsychopharmacology 43(12): 2445-2451
Tsukada, H.; Miyasato, K.; Nishiyama, S.; Fukumoto, D.; Kakiuchi, T.; Domino, E.F. 2005: Nicotine normalizes increased prefrontal cortical dopamine D1 receptor binding and decreased working memory performance produced by repeated pretreatment with MK-801: a PET study in conscious monkeys. Neuropsychopharmacology: Official Publication of the American College of Neuropsychopharmacology 30(12): 2144-2153
Wu, X.; Zhang, H.; Qi, W.; Zhang, Y.; Li, J.; Li, Z.; Lin, Y.; Bai, X.; Liu, X.; Chen, X.; Yang, H.; Xu, C.; Zhang, Y.; Yang, B. 2018: Nicotine promotes atherosclerosis via ROS-NLRP3-mediated endothelial cell pyroptosis. Cell Death and Disease 9(2): 171
Tyagi, A.; Sharma, S.; Wu, K.; Wu, S-Ying.; Xing, F.; Liu, Y.; Zhao, D.; Deshpande, R.Pramod.; D'Agostino, R.B.; Watabe, K. 2021: Nicotine promotes breast cancer metastasis by stimulating N2 neutrophils and generating pre-metastatic niche in lung. Nature Communications 12(1): 474
Qi, M.; Li, L.; Tang, X.; Lu, Y.; Wang, M.; Yang, J.; Zhang, M. 2021: Nicotine promotes the development of oral leukoplakia via regulating peroxiredoxin 1 and its binding proteins. Brazilian Journal of Medical and Biological Research 54(9): E10931
Miramontes, C.V.; Rodríguez-Carlos, A.án.; Marin-Luévano, S.P.; Trejo Martínez, L.A.; de Haro Acosta, J.; Enciso-Moreno, J.é A.; Rivas-Santiago, B. 2021: Nicotine promotes the intracellular growth of Mycobacterium tuberculosis in epithelial cells. Tuberculosis 127: 102026
Corsini, S.; Tortora, M.; Rauti, R.; Nistri, A. 2017: Nicotine protects rat hypoglossal motoneurons from excitotoxic death via downregulation of connexin 36. Cell Death and Disease 8(6): E2881
Chen, J.L.; Wei, L.; Bereczki, D.; Hans, F.J.; Otsuka, T.; Acuff, V.; Ghersi-Egea, J.F.; Patlak, C.; Fenstermacher, J.D. 1995: Nicotine raises the influx of permeable solutes across the rat blood-brain barrier with little or no capillary recruitment. Journal of Cerebral Blood Flow and Metabolism: Official Journal of the International Society of Cerebral Blood Flow and Metabolism 15(4): 687-698
Zuo, W.; Xiao, C.; Gao, M.; Hopf, F.Woodward.; Krnjević, Kšimir.; McIntosh, J.Michael.; Fu, R.; Wu, J.; Bekker, A.; Ye, J-Hong. 2016: Nicotine regulates activity of lateral habenula neurons via presynaptic and postsynaptic mechanisms. Scientific Reports 6: 32937
Maskos, U.; Molles, B.E.; Pons, S.; Besson, M.; Guiard, B.P.; Guilloux, J-P.; Evrard, A.; Cazala, P.; Cormier, A.; Mameli-Engvall, M.; Dufour, N.; Cloëz-Tayarani, I.; Bemelmans, A-P.; Mallet, J.; Gardier, A.M.; David, V.; Faure, P.; Granon, S.; Changeux, J-P. 2005: Nicotine reinforcement and cognition restored by targeted expression of nicotinic receptors. Nature 436(7047): 103-107
Benowitz, N.L. 1991: Nicotine replacement therapy during pregnancy. JAMA 266(22): 3174-3177
Koren, G. 2001: Nicotine replacement therapy during pregnancy. Canadian Family Physician Medecin de Famille Canadien 47: 1971-1972
Jiménez Ruiz, C.A. 2006: Nicotine replacement therapy during pregnancy. Archivos de Bronconeumologia 42(8): 404-409
Silagy, C.; Mant, D.; Fowler, G.; Lancaster, T. 2000: Nicotine replacement therapy for smoking cessation. Cochrane Database of Systematic Reviews 3: Cd000146
Silagy, C.; Lancaster, T.; Stead, L.; Mant, D.; Fowler, G. 2001: Nicotine replacement therapy for smoking cessation. Cochrane Database of Systematic Reviews 3: Cd000146
Silagy, C.; Lancaster, T.; Stead, L.; Mant, D.; Fowler, G. 2002: Nicotine replacement therapy for smoking cessation. Cochrane Database of Systematic Reviews 4: Cd000146
Kanova, M.; Tejkalova, K.; Neiser, J.; Kula, R. 2021: Nicotine replacement therapy in surgical patients. Neuro Endocrinology Letters 42(5): 305-311
Devi, R.E.; Barman, D.; Sinha, S.; Hazarika, S.J.; Das, S. 2020: Nicotine replacement therapy: a friend or foe. Journal of Family Medicine and Primary Care 9(6): 2615-2620
Koukouli, F.; Rooy, M.; Tziotis, D.; Sailor, K.A.; O'Neill, H.C.; Levenga, J.; Witte, M.; Nilges, M.; Changeux, J-Pierre.; Hoeffer, C.A.; Stitzel, J.A.; Gutkin, B.S.; DiGregorio, D.A.; Maskos, U. 2017: Nicotine reverses hypofrontality in animal models of addiction and schizophrenia. Nature Medicine 23(3): 347-354
Wedn, A.M.; El-Gowilly, S.M.; El-Mas, M.M. 2019: Nicotine reverses the enhanced renal vasodilator capacity in endotoxic rats: Role of α7/α4β2 nAChRs and HSP70. Pharmacological Reports: Pr 71(5): 782-793
Kenny, P.J.; Markou, A. 2006: Nicotine self-administration acutely activates brain reward systems and induces a long-lasting increase in reward sensitivity. Neuropsychopharmacology: Official Publication of the American College of Neuropsychopharmacology 31(6): 1203-1211
Kumar, A.; Sinha, N.; Haque, S.; Kodidela, S.; Wang, T.; Martinez, A.G.; Chen, H.; Kumar, S. 2021: Nicotine self-administration with menthol and audiovisual cue facilitates differential packaging of CYP2A6 and cytokines/chemokines in rat plasma extracellular vesicles. Scientific Reports 11(1): 17393
Riaz, T.; Murtaza, G.; Arif, A.; Mahmood, S.; Sultana, R.; Al-Hussain, F.; Bashir, S. 2021: Nicotine smoking is associated with impaired cognitive performance in Pakistani young people. Peerj 9: E11470
Heeschen, C.; Jang, J.J.; Weis, M.; Pathak, A.; Kaji, S.; Hu, R.S.; Tsao, P.S.; Johnson, F.L.; Cooke, J.P. 2001: Nicotine stimulates angiogenesis and promotes tumor growth and atherosclerosis. Nature Medicine 7(7): 833-839
Kumar, P.; Scholze, P.; Fronius, M.; Krasteva-Christ, G.; Hollenhorst, M.I. 2020: Nicotine stimulates ion transport via metabotropic β4 subunit containing nicotinic ACh receptors. British Journal of Pharmacology 177(24): 5595-5608
Carvajal-Oliveros, A.; Domínguez-Baleón, C.; Zárate, R.V.; Campusano, J.M.; Narváez-Padilla, Vónica.; Reynaud, E. 2021: Nicotine suppresses Parkinson's disease like phenotypes induced by Synphilin-1 overexpression in Drosophila melanogaster by increasing tyrosine hydroxylase and dopamine levels. Scientific Reports 11(1): 9579
Beer, A.; Slotkin, T.A.; Seidler, F.J.; Aldridge, J.E.; Yanai, J. 2005: Nicotine therapy in adulthood reverses the synaptic and behavioral deficits elicited by prenatal exposure to phenobarbital. Neuropsychopharmacology: Official Publication of the American College of Neuropsychopharmacology 30(1): 156-165
Parise, L.F.; Sial, O.K.; Warren, B.L.; Sattler, C.R.; Duperrouzel, J.C.; Parise, E.M.; Bolaños-Guzmán, C.A. 2020: Nicotine treatment buffers negative behavioral consequences induced by exposure to physical and emotional stress in adolescent male mice. Psychopharmacology 237(10): 3125-3137
Sun, L.; Wang, X.; Gu, T.; Hu, B.; Luo, J.; Qin, Y.; Wan, C. 2020: Nicotine triggers islet β cell senescence to facilitate the progression of type 2 diabetes. Toxicology 441: 152502
Waters, A.J.; Jarvis, M.J.; Sutton, S.R. 1998: Nicotine withdrawal and accident rates. Nature 394(6689): 137
Knowles, J. 1999: Nicotine withdrawal and road accidents. Nature 400(6740): 128
Seoane-Collazo, P.; Diéguez, C.; Nogueiras, R.én.; Rahmouni, K.; Fernández-Real, J.é M.; López, M. 2021: Nicotine' actions on energy balance: Friend or foe?. Pharmacology and Therapeutics 219: 107693
Quintana, P.J.E.; Lopez-Galvez, N.; Dodder, N.G.; Hoh, E.; Matt, G.E.; Zakarian, J.M.; Vyas, M.; Chu, L.; Akins, B.; Padilla, S.; Anderson, K.A.; Hovell, M.F. 2021: Nicotine, Cotinine, and Tobacco-Specific Nitrosamines Measured in Children's Silicone Wristbands in Relation to Secondhand Smoke and E-cigarette Vapor Exposure. Nicotine and Tobacco Research: Official Journal of the Society for Research on Nicotine and Tobacco 23(3): 592-599
Picciotto, M.R.; Mineur, Y.S. 2013: Nicotine, food intake, and activation of POMC neurons. Neuropsychopharmacology: Official Publication of the American College of Neuropsychopharmacology 38(1): 245
Metayer 1949: Nicotine, insecticide and parasiticide. Produits Pharmaceutiques 4(5): 203-206
Palmer, R.; Scully, C.; Felix, D.H. 2006: Nicotine, smoke and patches. British Dental Journal 200(2): 65
Armitage, A.K.; Hall, G.H. 1968: Nicotine, smoking and cortical activation. Nature 219(5159): 1179-1180
Phillis, J.W.; York, D.H. 1968: Nicotine, smoking and cortical inhibition. Nature 219(5149): 89-91
Griffiths, M. 1996: Nicotine, tobacco and addiction. Nature 384(6604): 18
Shytle, R.D.; Silver, A.A.; Sanberg, P.R. 1996: Nicotine, tobacco and addiction. Nature 384(6604): 18-19
Desai, R.I.; Bergman, J. 2016: Nicotine-Targeting Nano-Vaccines for Smoking Cessation. Neuropsychopharmacology: Official Publication of the American College of Neuropsychopharmacology 41(1): 377-378
Cohen, C.; Perrault, G.; Griebel, G.; Soubrié, P. 2005: Nicotine-associated cues maintain nicotine-seeking behavior in rats several weeks after nicotine withdrawal: reversal by the cannabinoid (CB1) receptor antagonist, rimonabant (SR141716). Neuropsychopharmacology: Official Publication of the American College of Neuropsychopharmacology 30(1): 145-155
Cora, N.; Ghandour, J.; Pollard, C.M.; Desimine, V.L.; Ferraino, K.E.; Pereyra, J.M.; Valiente, R.; Lymperopoulos, A. 2020: Nicotine-induced adrenal beta-arrestin1 upregulation mediates tobacco-related hyperaldosteronism leading to cardiac dysfunction. World Journal of Cardiology 12(5): 192-202
Marenco, S.; Carson, R.E.; Berman, K.Faith.; Herscovitch, P.; Weinberger, D.R. 2004: Nicotine-induced dopamine release in primates measured with [11C]raclopride PET. Neuropsychopharmacology: Official Publication of the American College of Neuropsychopharmacology 29(2): 259-268
Zhao-Shea, R.; Liu, L.; Soll, L.G.; Improgo, M.Reina.; Meyers, E.E.; McIntosh, J.Michael.; Grady, S.R.; Marks, M.J.; Gardner, P.D.; Tapper, A.R. 2011: Nicotine-mediated activation of dopaminergic neurons in distinct regions of the ventral tegmental area. Neuropsychopharmacology: Official Publication of the American College of Neuropsychopharmacology 36(5): 1021-1032
Faheem, A.; Rehman, K.; Jabeen, K.; Akash, M.S.H. 2020: Nicotine-mediated upregulation of microRNA-141 expression determines adipokine-intervened insulin resistance. Environmental Toxicology and Pharmacology 80: 103506
Ebrahimi Kalan, M.; Bursac, Z.; Behaleh, R.; Jebai, R.; Osibogun, O.; Gautam, P.; Li, W.; Anderson, T.; Rahman, A.; Ward, K.D.; Ben Taleb, Z. 2020: Nicotine-naïve adolescents who live with tobacco products users, 2018 Florida Youth Tobacco Survey. Journal of Addictive Diseases 2020: 1-7
Momi, N.; Ponnusamy, M.P.; Kaur, S.; Rachagani, S.; Kunigal, S.S.; Chellappan, S.; Ouellette, M.M.; Batra, S.K. 2013: Nicotine/cigarette smoke promotes metastasis of pancreatic cancer through α7nAChR-mediated MUC4 upregulation. Oncogene 32(11): 1384-1395
Evans-Polce, R.J.; Veliz, P.; Kcomt, L.; Boyd, C.J.; McCabe, S.E. 2021: Nicotine and Tobacco Product use and Dependence Symptoms Among US Adolescents and Adults: Differences by Age, Sex, and Sexual Identity. Nicotine and Tobacco Research: Official Journal of the Society for Research on Nicotine and Tobacco 23(12): 2065-2074
Fox, J.; Thodeson, D.M.; Dolce, A.M. 2021: Nicotine: a Targeted Therapy for Epilepsy Due to nAChR Gene Variants. Journal of Child Neurology 36(5): 371-377
Sugamura, K.; Keaney, J.F. 2012: Nicotine: linking smoking to abdominal aneurysms. Nature Medicine 18(6): 856-858
Fu, X.; Zong, T.; Yang, P.; Li, L.; Wang, S.; Wang, Z.; Li, M.; Li, X.; Zou, Y.; Zhang, Y.; Htet Aung, L.H.; Yang, Y.; Yu, T. 2021: Nicotine: Regulatory roles and mechanisms in atherosclerosis progression. Food and Chemical Toxicology: An International Journal Published for the British Industrial Biological Research Association 151: 112154
Metayer, G. 1949: Nicotine; its Physiological Properties; its use as An Insecticide and in Veterinary Medicine. Produits Pharmaceutiques 4(4): 160-164
Thirugnanasambandam, N.; Grundey, J.; Adam, K.; Drees, A.; Skwirba, A.C.; Lang, N.; Paulus, W.; Nitsche, M.A. 2011: Nicotinergic impact on focal and non-focal neuroplasticity induced by non-invasive brain stimulation in non-smoking humans. Neuropsychopharmacology: Official Publication of the American College of Neuropsychopharmacology 36(4): 879-886
Corrie, L.W.; Stokes, C.; Wilkerson, J.L.; Carroll, F.I.; McMahon, L.R.; Papke, R.L. 2020: Nicotinic Acetylcholine Receptor Accessory Subunits Determine the Activity Profile of Epibatidine Derivatives. Molecular Pharmacology 98(4): 328-342
Sun, P.; Liu, D.-G.; Ye, X.-M. 2021: Nicotinic Acetylcholine Receptor α7 Subunit Is an Essential Regulator of Seizure Susceptibility. Frontiers in Neurology 12: 656752
Hu, D.; Zhang, L.; Jiang, R.; Liao, C.; Xu, J.; Jiang, S.; Yang, Y.; Lin, L.; Huang, J.; Shen, Y.; Tang, L.; Li, L. 2021: Nicotinic Acid against Acetaminophen-Induced Hepatotoxicity via Sirt1/Nrf2 Antioxidative Pathway in Mice. Journal of Nutritional Science and Vitaminology 67(3): 145-152
Mera, A.F. 1945: Nicotinic Acid and Pellagra. Revista de Medicina Veterinaria 27: 209-225
Lagoumintzis, G.; Chasapis, C.T.; Alexandris, N.; Kouretas, D.; Tzartos, S.; Eliopoulos, E.; Farsalinos, K.; Poulas, K. 2021: Nicotinic cholinergic system and COVID-19: in silico identification of interactions between α7 nicotinic acetylcholine receptor and the cryptic epitopes of SARS-Co-V and SARS-CoV-2 Spike glycoproteins. Food and Chemical Toxicology: An International Journal Published for the British Industrial Biological Research Association 149: 112009
Perez, E.; Quijano-Cardé, N.; De Biasi, M. 2015: Nicotinic Mechanisms Modulate Ethanol Withdrawal and Modify Time Course and Symptoms Severity of Simultaneous Withdrawal from Alcohol and Nicotine. Neuropsychopharmacology: Official Publication of the American College of Neuropsychopharmacology 40(10): 2327-2336
Ghimire, M.; Cai, R.; Ling, L.; Hackett, T.A.; Caspary, D.M. 2020: Nicotinic Receptor Subunit Distribution in Auditory Cortex: Impact of Aging on Receptor Number and Function. Journal of Neuroscience: the Official Journal of the Society for Neuroscience 40(30): 5724-5739
Gipson, C.D.; Fowler, C.D. 2020: Nicotinic Receptors Underlying Nicotine Dependence: Evidence from Transgenic Mouse Models. Current Topics in Behavioral Neurosciences 45: 101-121
Vivekanandarajah, A.; Nelson, M.E.; Kinney, H.C.; Elliott, A.J.; Folkerth, R.D.; Tran, H.; Cotton, J.; Jacobs, P.; Minter, M.; McMillan, K.; Duncan, J.R.; Broadbelt, K.G.; Schissler, K.; Odendaal, H.J.; Angal, J.; Brink, L.; Burger, E.H.; Coldrey, J.A.; Dempers, J.; Boyd, T.K.; Fifer, W.P.; Geldenhuys, E.; Groenewald, C.; Holm, I.A.; Myers, M.M.; Randall, B.; Schubert, P.; Sens, M.A.; Wright, C.A.; Roberts, D.J.; Nelsen, L.; Wadee, S.; Zaharie, D.; Haynes, R.L. 2021: Nicotinic Receptors in the Brainstem Ascending Arousal System in SIDS with Analysis of Pre-natal Exposures to Maternal Smoking and Alcohol in High-Risk Populations of the Safe Passage Study. Frontiers in Neurology 12: 636668
Chaity, N.I.; Sultana, T.N.; Hasan, M.M.; Shrabonee, I.I.; Nahid, N.A.; Islam, M.S.; Apu, M.N.H. 2021: Nicotinic acetylcholine gene cluster CHRNA5-A3-B4 variants influence smoking status in a Bangladeshi population. Pharmacological Reports: Pr 73(2): 574-582
Galle-Treger, L.; Suzuki, Y.; Patel, N.; Sankaranarayanan, I.; Aron, J.L.; Maazi, H.; Chen, L.; Akbari, O. 2016: Nicotinic acetylcholine receptor agonist attenuates ILC2-dependent airway hyperreactivity. Nature Communications 7: 13202
Wang, H.; Yu, M.; Ochani, M.; Amella, C.Ann.; Tanovic, M.; Susarla, S.; Li, J.Hua.; Wang, H.; Yang, H.; Ulloa, L.; Al-Abed, Y.; Czura, C.J.; Tracey, K.J. 2003: Nicotinic acetylcholine receptor alpha7 subunit is an essential regulator of inflammation. Nature 421(6921): 384-388
Murray, T.A.; Liu, Q.; Whiteaker, P.; Wu, J.; Lukas, R.J. 2009: Nicotinic acetylcholine receptor alpha7 subunits with a C2 cytoplasmic loop yellow fluorescent protein insertion form functional receptors. Acta Pharmacologica Sinica 30(6): 828-841
Blommaart, P.J.; Ferwerda, G.; Kodde, A.; Tytgat, G.N.; Boeckxstaens, G.E. 1999: Nicotinic acetylcholine receptor blocking effect of guanethidine in the rat gastric fundus. British Journal of Pharmacology 128(4): 903-908
Pimlott, S.L.; Piggott, M.; Owens, J.; Greally, E.; Court, J.A.; Jaros, E.; Perry, R.H.; Perry, E.K.; Wyper, D. 2004: Nicotinic acetylcholine receptor distribution in Alzheimer's disease, dementia with Lewy bodies, Parkinson's disease, and vascular dementia: in vitro binding study using 5-[(125)i]-a-85380. Neuropsychopharmacology: Official Publication of the American College of Neuropsychopharmacology 29(1): 108-116
Zhang, G.; Thomas, A.L.; Marshall, A.L.; Kernan, K.A.; Su, Y.; Zheng, Y.; Takano, J.; Saido, T.C.; Eddy, A.A. 2011: Nicotinic acetylcholine receptor α1 promotes calpain-1 activation and macrophage inflammation in hypercholesterolemic nephropathy. Laboratory Investigation; a Journal of Technical Methods and Pathology 91(1): 106-123
Shen, J-xin.; Yakel, J.L. 2009: Nicotinic acetylcholine receptor-mediated calcium signaling in the nervous system. Acta Pharmacologica Sinica 30(6): 673-680
Li, J-Guo.; Lehr, M.; Liu-Chen, L-Yuan.; Woodruff-Pak, D.S. 2008: Nicotinic acetylcholine receptors and modulation of learning in 4- and 27-month-old rabbits. Neuropsychopharmacology: Official Publication of the American College of Neuropsychopharmacology 33(12): 2820-2830
Wittenberg, R.E.; Wolfman, S.L.; De Biasi, M.; Dani, J.A. 2020: Nicotinic acetylcholine receptors and nicotine addiction: a brief introduction. Neuropharmacology 177: 108256
Shytle, R.D.; Silver, A.A.; Lukas, R.J.; Newman, M.B.; Sheehan, D.V.; Sanberg, P.R. 2002: Nicotinic acetylcholine receptors as targets for antidepressants. Molecular Psychiatry 7(6): 525-535
Afrashteh Nour, M.; Hajiasgharzadeh, K.; Kheradmand, F.; Asadzadeh, Z.; Bolandi, N.; Baradaran, B. 2021: Nicotinic acetylcholine receptors in chemotherapeutic drugs resistance: An emerging targeting candidate. Life Sciences 278: 119557
Schaaf, C.P. 2014: Nicotinic acetylcholine receptors in human genetic disease. Genetics in Medicine: Official Journal of the American College of Medical Genetics 16(9): 649-656
Le Mauff, A.ïs.; Chouikh, H.; Cartereau, A.; Charvet, C.L.; Neveu, C.éd.; Rispe, C.; Plantard, O.; Taillebois, E.; Thany, S.H. 2020: Nicotinic acetylcholine receptors in the synganglion of the tick Ixodes ricinus: Functional characterization using membrane microtransplantation. International Journal for Parasitology. Drugs and Drug Resistance 14: 144-151
Trikash, I.; Kasatkina, L.; Lykhmus, O.; Skok, M. 2020: Nicotinic acetylcholine receptors regulate clustering, fusion and acidification of the rat brain synaptic vesicles. Neurochemistry International 138: 104779
Briggs, F.B. 2021: Nicotinic acetylcholine receptors α7 and α9 modifies tobacco smoke risk for multiple sclerosis. Multiple Sclerosis 27(8): 1166-1174
Rufener, L.; Kaur, K.; Sarr, A.; Aaen, S.M.ør.; Horsberg, T.E. 2020: Nicotinic acetylcholine receptors: Ex-vivo expression of functional, non-hybrid, heteropentameric receptors from a marine arthropod, Lepeophtheirus salmonis. Plos Pathogens 16(7): E1008715
Moccia, F.; Zuccolo, E.; Di Nezza, F.; Pellavio, G.; Faris, P.S.; Negri, S.; De Luca, A.; Laforenza, U.; Ambrosone, L.; Rosti, V.; Guerra, G. 2021: Nicotinic acid adenine dinucleotide phosphate activates two-pore channel TPC1 to mediate lysosomal Ca2+ release in endothelial colony-forming cells. Journal of Cellular Physiology 236(1): 688-705
Romeo, F.; Puzzo, M. 1949: Nicotinic acid and its action on renal function, studied with Romeo's formula. Minerva Medica 40(30): 950-954
Audus, L.J. 1948: Nicotinic acid and the inhibition of growth by auxin. Nature 162(4125): 811
Klatzkin, G.; Norris, F.W.; Wokes, F. 1948: Nicotinic acid in cereals; the effect of germination. Biochemical Journal 42(3): 414-420
Dean, R.F.A.; Holman, W.I.M. 1948: Nicotinic acid in human blood cells at birth. Nature 161(4090): 439
Furtado, D.; Carvalho, O. 1946: Nicotinic acid in neurological therapy. Schweizer Archiv für Neurologie und Psychiatrie. Archives Suisses de Neurologie et de Psychiatrie. Archivio Svizzero di Neurologia e Psichiatria 57(2): 270-274
Mather, K.; Barton-Wright, E.C. 1946: Nicotinic acid in sugary and starchy maize. Nature 157: 109
Fernandez Crehuet, R. 1945: Nicotinic acid in the treatment of infantile dystrophies. Actualidad Medica 31: 721-728
Lessa, Z.T. 1945: Nicotinic acid in the treatment of lightning sickness. Revista Paulista de Medicina 26: 135-150
Giuffrida, E.; Lomeo, G. 1947: Nicotinic acid in the treatment of ozena. Bollettino Delle Malattie Dell'orecchio Della Gola del Naso 65(11-12): 271-277
Condorelli, L. 1948: Nicotinic acid in vascular therapy, the synthesis of a decade of pathophysiological and clinical research. Schweizerische Medizinische Wochenschrift 78(38): 923-927
Li, J.; Qu, J.; Shi, Y.; Perfetto, M.; Ping, Z.; Christian, L.; Niu, H.; Mei, S.; Zhang, Q.; Yang, X.; Wei, S. 2017: Nicotinic acid inhibits glioma invasion by facilitating Snail1 degradation. Scientific Reports 7: 43173
Ma, L.; Lee, B.Hyun.; Clifton, H.; Schaefer, S.; Zheng, J. 2015: Nicotinic acid is a common regulator of heat-sensing TRPV1-4 ion channels. Scientific Reports 5: 8906
Sasaki, Y.; Zhu, J.; Shi, Y.; Gu, W.; Kobe, B.; Ve, T.; DiAntonio, A.; Milbrandt, J. 2021: Nicotinic acid mononucleotide is an allosteric SARM1 inhibitor promoting axonal protection. Experimental Neurology 345: 113842
Szentirmai, Éva.; Kapás, L. 2019: Nicotinic acid promotes sleep through prostaglandin synthesis in mice. Scientific Reports 9(1): 17084
Watson, W.D.; Timm, K.N.; Lewis, A.J.; Miller, J.J.J.; Emmanuel, Y.; Clarke, K.; Neubauer, S.; Tyler, D.J.; Rider, O.J. 2020: Nicotinic acid receptor agonists impair myocardial contractility by energy starvation. FASEB journal: official publication of the Federation of American Societies for Experimental Biology 34(11): 14878-14891
Verrey, A. 1948: Nicotinic acid treatment trials. Schweizerische Medizinische Wochenschrift 78(36): 887
Bodor, E.T.; Offermanns, S. 2008: Nicotinic acid: an old drug with a promising future. British Journal of Pharmacology 153 Suppl. 1: S68-S75
Ishibashi, M.; Leonard, C.S.; Kohlmeier, K.A. 2009: Nicotinic activation of laterodorsal tegmental neurons: implications for addiction to nicotine. Neuropsychopharmacology: Official Publication of the American College of Neuropsychopharmacology 34(12): 2529-2547
Champougny, J.; Le Breton, E. 1947: Nicotinic amide, pyridoxine and pantothenic acid, group B vitamins, are coenzymes of the higher fatty acid dehydrogenase. Comptes Rendus des Seances de la Societe de Biologie et de ses Filiales 141(1-2): 43-45
Mamaligas, A.A.; Cai, Y.; Ford, C.P. 2016: Nicotinic and opioid receptor regulation of striatal dopamine D2-receptor mediated transmission. Scientific Reports 6: 37834
Nestler, E.J.; Beam, K.G.; Greengard, P. 1978: Nicotinic cholinergic stimulation increases cyclic GMP levels in vertebrate skeletal muscle. Nature 275(5679): 451-453
Alexandris, N.; Lagoumintzis, G.; Chasapis, C.T.; Leonidas, D.D.; Papadopoulos, G.E.; Tzartos, S.J.; Tsatsakis, A.; Eliopoulos, E.; Poulas, K.; Farsalinos, K. 2021: Nicotinic cholinergic system and COVID-19: in silico evaluation of nicotinic acetylcholine receptor agonists as potential therapeutic interventions. Toxicology Reports 8: 73-83
Kawai, H.; Lazar, R.; Metherate, R. 2007: Nicotinic control of axon excitability regulates thalamocortical transmission. Nature Neuroscience 10(9): 1168-1175
Placzek, A.Nicholas.; Zhang, T.A.; Dani, J.Anthony. 2009: Nicotinic mechanisms influencing synaptic plasticity in the hippocampus. Acta Pharmacologica Sinica 30(6): 752-760
Eiden, L.E.; Giraud, P.; Dave, J.R.; Hotchkiss, A.J.; Affolter, H.U. 1984: Nicotinic receptor stimulation activates enkephalin release and biosynthesis in adrenal chromaffin cells. Nature 312(5995): 661-663
Sixma, T.K. 2007: Nicotinic receptor structure emerging slowly. Nature Neuroscience 10(8): 937-938
Kabbani, N.; Olds, J.L. 2021: Nicotinic receptor targeting in physiological and environmental vulnerability: a whole of biosphere perspective. Science of the Total Environment 780: 146642
Naudé, Jérémie.; Tolu, S.; Dongelmans, M.; Torquet, N.; Valverde, Sébastien.; Rodriguez, G.; Pons, Séphanie.; Maskos, U.; Mourot, A.; Marti, F.; Faure, P. 2016: Nicotinic receptors in the ventral tegmental area promote uncertainty-seeking. Nature Neuroscience 19(3): 471-478
Morel, C.; Fernandez, S.P.; Pantouli, F.; Meye, F.J.; Marti, F.; Tolu, S.; Parnaudeau, S.; Marie, H.; Tronche, F.; Maskos, U.; Moretti, M.; Gotti, C.; Han, M-H.; Bailey, A.; Mameli, M.; Barik, J.; Faure, P. 2018: Nicotinic receptors mediate stress-nicotine detrimental interplay via dopamine cells' activity. Molecular Psychiatry 23(7): 1597-1605
Cecchini, M.; Changeux, J.-P. 2022: Nicotinic receptors: from protein allostery to computational neuropharmacology. Molecular Aspects of Medicine 84: 101044
Kelley, A.E. 2002: Nicotinic receptors: addiction's smoking gun?. Nature Medicine 8(5): 447-449
Taly, A.; Corringer, P-Jean.; Guedin, D.; Lestage, P.; Changeux, J-Pierre. 2009: Nicotinic receptors: allosteric transitions and therapeutic targets in the nervous system. Nature Reviews. Drug Discovery 8(9): 733-750
Smith, R.M.; Alachkar, H.; Papp, A.C.; Wang, D.; Mash, D.C.; Wang, J-Chyong.; Bierut, L.J.; Sadee, W. 2011: Nicotinic α5 receptor subunit mRNA expression is associated with distant 5' upstream polymorphisms. European Journal of Human Genetics: Ejhg 19(1): 76-83
Borkar, N.A.; Roos, B.; Prakash, Y.S.; Sathish, V.; Pabelick, C.M. 2021: Nicotinic α7 acetylcholine receptor (α7nAChR) in human airway smooth muscle. Archives of Biochemistry and Biophysics 706: 108897
Cavanna, D. 1949: Nicotinylamino 1-2 diphenylethane (C. 1065) and some nicotinic acid derivatives. Minerva Medica 40(33 Part 2): 20
Lee, H.; Choi, M-kyu.; Lee, D.; Kim, H-sung.; Hwang, H.; Kim, H.; Park, S.; Paik, Y-ki.; Lee, J. 2011: Nictation, a dispersal behavior of the nematode Caenorhabditis elegans, is regulated by IL2 neurons. Nature Neuroscience 15(1): 107-112
Jagroop, R.; Martin, C.J.; Moorehead, R.A. 2021: Nidogen 1 regulates proliferation and migration/invasion in murine claudin-low mammary tumor cells. Oncology Letters 21(1): 52
Aumailley, M.; Battaglia, C.; Mayer, U.; Reinhardt, D.; Nischt, R.; Timpl, R.; Fox, J.W. 1993: Nidogen mediates the formation of ternary complexes of basement membrane components. Kidney International 43(1): 7-12
Zbinden, A.; Layland, S.L.; Urbanczyk, M.; Carvajal Berrio, D.A.; Marzi, J.; Zauner, M.; Hammerschmidt, A.; Brauchle, E.M.; Sudrow, K.; Fink, S.; Templin, M.; Liebscher, S.; Klein, G.; Deb, A.; Duffy, G.P.; Crooks, G.M.; Eble, J.A.; Mikkola, H.K.A.; Nsair, A.; Seifert, M.; Schenke-Layland, K. 2021: Nidogen-1 Mitigates Ischemia and Promotes Tissue Survival and Regeneration. Advanced Science 8(4): 2002500
Parrish, K.; Kirkland, P.D.; Skerratt, L.F.; Ariel, E. 2021: Nidoviruses in Reptiles: a Review. Frontiers in Veterinary Science 8: 733404
Duang-Nkern, J.; Nontaleerak, B.; Udomkanarat, T.; Saninjuk, K.; Sukchawalit, R.; Mongkolsuk, S. 2021: NieR is the repressor of a NaOCl-inducible efflux system in Agrobacterium tumefaciens C58. Microbiological Research 251: 126816
Saunte, O.H.; Hoeg, N. 1951: Niels Höeg, Feb. 19th 1876-Jan. 12th 1951. Acta Ophthalmologica 29(1): 1-2
Tjomsland, A. 1938: Niels Stensen: his Tercentenary. Annals of Medical History 10(6): 491-507
Juhl, A.D.; Lund, F.W.; Jensen, M.L.V.; Szomek, M.; Heegaard, C.W.; Guttmann, P.; Werner, S.; McNally, J.; Schneider, G.; Kapishnikov, S.; Wüstner, D. 2021: Niemann Pick C2 protein enables cholesterol transfer from endo-lysosomes to the plasma membrane for efflux by shedding of extracellular vesicles. Chemistry and Physics of Lipids 235: 105047
Zhao, S.; Shi, Q.; Deng, W.; Zhou, Y. 2020: Niemann-Pick Disease Type B in Traumatic Splenic Rupture. American Journal of Forensic Medicine and Pathology 41(3): 227-229
Park, S.W.; Park, J.H.; Moon, H.J.; Shin, M.; Moon, J.S.; Ko, J.S. 2021: Niemann-Pick Disease Type C Diagnosed Using Neonatal Cholestasis Gene Panel. Korean Journal of Gastroenterology 78(4): 240-244
Lozano, J.; Morales, A.; Cremesti, A.; Fuks, Z.; Tilly, J.L.; Schuchman, E.; Gulbins, E.; Kolesnick, R. 2001: Niemann-Pick Disease versus acid sphingomyelinase deficiency. Cell Death and Differentiation 8(1): 100-103
Berry-Kravis, E. 2021: Niemann-Pick Disease, Type C: Diagnosis, Management and Disease-Targeted Therapies in Development. Seminars in Pediatric Neurology 37: 100879
Sorrentino, F.; Arighi, A.; Serpente, M.; Arosio, B.; Arcaro, M.; Visconte, C.; Rotondo, E.; Vimercati, R.; Ferri, E.; Fumagalli, G.G.; Pietroboni, A.M.; Carandini, T.; Scarpini, E.; Fenoglio, C.; Galimberti, D. 2021: Niemann-Pick Type C 1 (NPC1) and NPC2 Gene Variability in Demented Patients with Evidence of Brain Amyloid Deposition. Journal of Alzheimer's Disease: Jad 83(3): 1313-1323
Zergollern, L.; Depeder, Z.; Zima, Z. 1977: Niemann-Pick disease. Acta Medica Iugoslavica 31(3): 271-288
Kudoh, T. 1988: Niemann-Pick disease. Tanpakushitsu Kakusan Koso. Protein Nucleic Acid Enzyme 33(5): 738-740
Warey, P.; Tamer, S.K.; Agrawal, S.K.; Chaturvedi, U. 1983: Niemann-Pick disease. Indian Pediatrics 20(8): 613-614
Rosipal, S.; Michalec, C. 1982: Niemann-Pick disease. Ceskoslovenska Pediatrie 37(11): 646-648
Diaz Rousselot, J.; Salas Panisello, F.; Valdes Diaz, R.; Roque, A.; Pereiras, R. 1956: Niemann-Pick disease. Archivos de Medicina Infantil 25(4): 243-268
Rizzardini, M.; Solimano, G.; Oxman, S. 1962: Niemann-Pick disease. Pediatria 5: 247-255
Milovanovitsh, D.D.; Janeva, A.; Jovanovitsh, V. 1995: Niemann-Pick disease (type C). Srpski Arhiv Za Celokupno Lekarstvo 123(11-12): 313-316
Chen, Z.S.; Chen, M. 2020: Niemann-Pick disease type B with hypersplenism and cleft palate. Zhonghua Xue Ye Xue Za Zhi 41(11): 956
Taniguchi, M.; Ninomiya, H.; Ohno, K. 2001: Niemann-Pick disease type C. Nihon Rinsho. Japanese Journal of Clinical Medicine 59(Suppl 3): 309-312
Hsu, Y.S.; Hwu, W.L.; Huang, S.F.; Lu, M.Y.; Chen, R.L.; Lin, D.T.; Peng, S.S.; Lin, K.H. 1999: Niemann-Pick disease type C (a cellular cholesterol lipidosis) treated by bone marrow transplantation. Bone Marrow Transplantation 24(1): 103-107
Lloyd-Evans, E.; Morgan, A.J.; He, X.; Smith, D.A.; Elliot-Smith, E.; Sillence, D.J.; Churchill, G.C.; Schuchman, E.H.; Galione, A.; Platt, F.M. 2008: Niemann-Pick disease type C1 is a sphingosine storage disease that causes deregulation of lysosomal calcium. Nature Medicine 14(11): 1247-1255
Sheth, J.J.; Sheth, F.J.; Oza, N. 2008: Niemann-Pick type C disease. Indian Pediatrics 45(6): 505-507
Griffin, L.D.; Gong, W.; Verot, L.; Mellon, S.H. 2004: Niemann-Pick type C disease involves disrupted neurosteroidogenesis and responds to allopregnanolone. Nature Medicine 10(7): 704-711
Videbaek, A. 1949: Niemann-Pick's disease. Acta Paediatrica 37(2): 95-116
Jeans, P.C.; Van Epps, E.F. 1947: Niemann-Pick's disease. JOURNAL. Iowa State Medical Society 37(11): 498-503
Erdős, M. 2021: Niemann–Pick disease: own observations and new therapeutic options. Orvosi Hetilap 162(2): 74-80
Stern, A. 1949: Nietzsche and methodological doubt in ethics. Revue Philosophique de la France et de l'Etranger 139(1-3): 49-59
Hayman, R.; Nietzsche, F.W. 1980: Nietzsche's madness. Partisan Review 47(1): 29-44
Radomski, L.; Brody, M.J. 1983: Nifedipine. Journal of the Iowa Medical Society 73(7): 278-280
Rudd, P. 1988: Nifedipine. Western Journal of Medicine 149(1): 57
Kito, T.; Shibata, R.; Kondo, M.; Yamamoto, T.; Suzuki, H.; Ishii, M.; Murohara, T. 2012: Nifedipine ameliorates ischemia-induced revascularization in diet-induced obese mice. American Journal of Hypertension 25(4): 401-406
Solaimanzadeh, I. 2020: Nifedipine and Amlodipine Are Associated with Improved Mortality and Decreased Risk for Intubation and Mechanical Ventilation in Elderly Patients Hospitalized for COVID-19. Cureus 12(5): E8069
Murphy, M.B.; Brown, M.J.; Scriven, A.J.; Heavey, D.J.; Dollery, C.T. 1984: Nifedipine and alpha adrenoceptor antagonism. Clinical Pharmacology and Therapeutics 36(6): 745-749
Mendelson, W.B. 1994: Nifedipine blocks effects of triazolam injected into the dorsal raphe nucleus on sleep. Neuropsychopharmacology: Official Publication of the American College of Neuropsychopharmacology 10(3): 151-155
Shimamoto, K.; Hasebe, N.; Ito, S.; Kario, K.; Kimura, K.; Dohi, Y.; Kawano, Y.; Rakugi, H.; Horiuchi, M.; Imaizumi, T.; Ohya, Y. 2014: Nifedipine controlled-release 40 mg b.i.d. in Japanese patients with essential hypertension who responded insufficiently to nifedipine controlled-release 40 mg q.d.: a phase III, randomized, double-blind and parallel-group study. Hypertension Research: Official Journal of the Japanese Society of Hypertension 37(1): 69-75
Hawkins, J.S.; Wells, C.E.; Casey, B.M.; McIntire, D.D.; Leveno, K.J. 2021: Nifedipine for Acute Tocolysis of Preterm Labor: a Placebo-Controlled Randomized Trial. Obstetrics and Gynecology 138(1): 73-78
Sand, J.; Nordback, I.; Koskinen, M.; Matikainen, M.; Lindholm, T.S. 1993: Nifedipine for suspected type Ii sphincter of Oddi dyskinesia. American Journal of Gastroenterology 88(4): 530-535
Mookherjee, S.; Ashutosh, K.; Dunsky, M.; Hill, N.; Vardan, S.; Smulyan, H.; Warner, R. 1988: Nifedipine in chronic cor pulmonale: acute and relatively long-term effects. Clinical Pharmacology and Therapeutics 44(3): 289-296
Tian, Z.; Miyata, K.; Tabata, M.; Yano, M.; Tazume, H.; Aoi, J.; Takahashi, O.; Araki, K.; Kawasuji, M.; Oike, Y. 2011: Nifedipine increases energy expenditure by increasing PGC-1α expression in skeletal muscle. Hypertension Research: Official Journal of the Japanese Society of Hypertension 34(11): 1221-1227
Raman, P.G.; Mishra, V.N.; Singh, D. 1988: Nifedipine induced gingival hyperplasia. Journal of the Association of Physicians of India 36(3): 231-233
Kleinbloesem, C.H.; van Harten, J.; de Leede, L.G.; van Brummelen, P.; Breimer, D.D. 1984: Nifedipine kinetics and dynamics during rectal infusion to steady state with an osmotic system. Clinical Pharmacology and Therapeutics 36(3): 396-401
Wells, T.G.; Graham, C.J.; Moss, M.M.; Kearns, G.L. 1990: Nifedipine poisoning in a child. Pediatrics 86(1): 91-94
Alexiewicz, J.M.; Smogorzewski, M.; Akmal, M.; Klin, M.; Massry, S.G. 1996: Nifedipine reverses the abnormalities in [Ca2+]i and proliferation of B cells from dialysis patients. Kidney International 50(4): 1249-1254
Hirata, A.; Igarashi, M.; Yamaguchi, H.; Suwabe, A.; Daimon, M.; Kato, T.; Tominaga, M. 2000: Nifedipine suppresses neointimal thickening by its inhibitory effect on vascular smooth muscle cell growth via a MEK-ERK pathway coupling with Pyk2. British Journal of Pharmacology 131(8): 1521-1530
Myers, M.G.; Leenen, F.H.; Burns, R.; Frankel, D. 1986: Nifedipine tablet vs. hydralazine in patients with persisting hypertension who receive combined diuretic and beta-blocker therapy. Clinical Pharmacology and Therapeutics 39(4): 409-413
Yamato, M.; Shiba, T.; Ide, T.; Honda, Y.; Yamada, K-Ichi.; Tsutsui, H. 2011: Nifedipine treatment reduces brain damage after transient focal ischemia, possibly through its antioxidative effects. Hypertension Research: Official Journal of the Japanese Society of Hypertension 34(7): 840-845
Anderson, S.; Rennke, H.G.; Brenner, B.M. 1992: Nifedipine versus fosinopril in uninephrectomized diabetic rats. Kidney International 41(4): 891-897
Iwai, M.; Kanno, H.; Inaba, S.; Senba, I.; Sone, H.; Nakaoka, H.; Horiuchi, M. 2011: Nifedipine, a calcium-channel blocker, attenuated glucose intolerance and white adipose tissue dysfunction in type 2 diabetic KK-A(y) mice. American Journal of Hypertension 24(2): 169-174
Kim, S.G.; Sung, J.Y.; Kim, J.-R.; Choi, H.C. 2020: Nifedipine-induced AMPK activation alleviates senescence by increasing autophagy and suppressing of Ca2+ levels in vascular smooth muscle cells. Mechanisms of Ageing and Development 190: 111314
Burkes, E.J.; Jacoway, J.R.; Stevens, D.T.; Braddock, M.E. 1992: Nifedipine-induced gingival hyperplasia. Journal of the Tennessee Dental Association 72(2): 35-37
Katz, J.; Rotstein, I.; Ben Yehuda, A.; Barak, S. 1992: Nifedipine-induced gingival hyperplasia. Annals of Dentistry 51(1): 5-7
Gupta, A.K.; Gupta, P. 1991: Nifedipine-induced gingival hyperplasia. Journal of the Association of Physicians of India 39(6): 506-507
Yusof, W.Z. 1989: Nifedipine-induced gingival hyperplasia. Journal 55(5): 389-391
Puolijoki, H.; Siitonen, L.; Saha, H.; Suojanen, I. 1988: Nifedipine-induced gingival hyperplasia. Duodecim; Laaketieteellinen Aikakauskirja 104(14): 1063-1066
Gómez-Fernández, P.; Pérez, R.; Gallego, P.; Almaraz, M. 1987: Nifedipine-induced gingival hyperplasia. Medicina Clinica 89(13): 572
Silverstein, L.H.; Koch, J.P.; Shatz, P.C. 1996: Nifedipine-induced gingival hyperplasia. American Family Physician 53(4): 1069-1070
Sachs, R. 1985: Nifedipine-induced hypotension and myocardial ischemia in refractory angina pectoris. JAMA 254(9): 1175
Kleinbloesem, C.H.; van Brummelen, P.; van Harten, J.; Danhof, M.; Breimer, D.D. 1985: Nifedipine: influence of renal function on pharmacokinetic/hemodynamic relationship. Clinical Pharmacology and Therapeutics 37(5): 563-574
Kleinbloesem, C.H.; van Brummelen, P.; van de Linde, J.A.; Voogd, P.J.; Breimer, D.D. 1984: Nifedipine: kinetics and dynamics in healthy subjects. Clinical Pharmacology and Therapeutics 35(6): 742-749
Kleinbloesem, C.H.; van Harten, J.; Wilson, J.P.; Danhof, M.; van Brummelen, P.; Breimer, D.D. 1986: Nifedipine: kinetics and hemodynamic effects in patients with liver cirrhosis after intravenous and oral administration. Clinical Pharmacology and Therapeutics 40(1): 21-28
Yang, L.; Yu, L.; Chen, Z.; Zhang, M. 2020: Nifekalant: a new Option for Pre-Excited Atrial Fibrillation with a High-Risk Accessory Pathway. JACC. Case Reports 2(2): 235-239
Liantonio, A.; Giannuzzi, V.; Picollo, A.; Babini, E.; Pusch, M.; Conte Camerino, D. 2007: Niflumic acid inhibits chloride conductance of rat skeletal muscle by directly inhibiting the CLC-1 channel and by increasing intracellular calcium. British Journal of Pharmacology 150(2): 235-247
Dove, A. 2007: Nifty transport device doubles durability of donor organs. Nature Medicine 13(4): 390
Da Costa, M.O.L.; Pavani, T.F.A.; Lima, A.él.N.; Scott, A.L.íg.; Ramos, D.éb.F.V.; Lazarini, M.; Rando, D.G.ça.G. 2021: Nifuroxazide as JAK2 inhibitor: a binding mode proposal and Hel cell proliferation assay. European Journal of Pharmaceutical Sciences: Official Journal of the European Federation for Pharmaceutical Sciences 162: 105822
Zhu, Y.; Ye, T.; Yu, X.; Lei, Q.; Yang, F.; Xia, Y.; Song, X.; Liu, L.; Deng, H.; Gao, T.; Peng, C.; Zuo, W.; Xiong, Y.; Zhang, L.; Wang, N.; Zhao, L.; Xie, Y.; Yu, L.; Wei, Y. 2016: Nifuroxazide exerts potent anti-tumor and anti-metastasis activity in melanoma. Scientific Reports 6: 20253
Liu, J.-Y.; Zhang, Y.-C.; Xie, R.-R.; Song, L.-N.; Yang, W.-L.; Xin, Z.; Cao, X.; Yang, J.-K. 2021: Nifuroxazide improves insulin secretion and attenuates high glucose-induced inflammation and apoptosis in INS-1 cells. European Journal of Pharmacology 899: 174042
Yang, F.; Hu, M.; Lei, Q.; Xia, Y.; Zhu, Y.; Song, X.; Li, Y.; Jie, H.; Liu, C.; Xiong, Y.; Zuo, Z.; Zeng, A.; Li, Y.; Yu, L.; Shen, G.; Wang, D.; Xie, Y.; Ye, T.; Wei, Y. 2015: Nifuroxazide induces apoptosis and impairs pulmonary metastasis in breast cancer model. Cell Death and Disease 6: E1701
Nazmy, E.A.; Helal, M.G.; Said, E. 2021: Nifuroxazide mitigates cholestatic liver injury by synergistic inhibition of Il-6/Β-catenin signaling and enhancement of BSEP and MDRP2 expression. International Immunopharmacology 99: 107931
Hassan, N.M.E.; Said, E.; Shehatou, G.S.G. 2021: Nifuroxazide suppresses UUO-induced renal fibrosis in rats via inhibiting STAT-3/NF-κB signaling, oxidative stress and inflammation. Life Sciences 272: 119241
Du, M.; Zhang, L.; Scorsone, K.A.; Woodfield, S.E.; Zage, P.E. 2016: Nifurtimox Is Effective Against Neural Tumor Cells and Is Synergistic with Buthionine Sulfoximine. Scientific Reports 6: 27458
Munoz-Calderon, A.; Díaz-Bello, Z.; Ramírez, J.é L.; Noya, O.; de Noya, B.é A.ón. 2019: Nifurtimox response of Trypanosoma cruzi isolates from an outbreak of Chagas disease in Caracas, Venezuela. Journal of Vector Borne Diseases 56(3): 237-243
Hunt, N. 2015: Nigel Hunt: 'I wanted to be an orthodontist before I wanted to be a dentist'. British Dental Journal 218(2): 50-52
Hu, X.; Xu, N.; Yang, X.; Hu, X.; Zheng, Y.; Zhang, Q. 2020: Nigella a ameliorates inflammation and intestinal flora imbalance in DSS induced colitis mice. Amb Express 10(1): 179
Salehi, B.; Quispe, C.; Imran, M.; Ul-Haq, I.; Živković, J.; Abu-Reidah, I.M.; Sen, S.; Taheri, Y.; Acharya, K.; Azadi, H.; Del Mar Contreras, M.ía.; Segura-Carretero, A.; Mnayer, D.; Sethi, G.; Martorell, M.; Abdull Razis, A.F.; Sunusi, U.; Kamal, R.M.; Rasul Suleria, H.A.; Sharifi-Rad, J. 2021: Nigella Plants - Traditional Uses, Bioactive Phytoconstituents, Preclinical and Clinical Studies. Frontiers in Pharmacology 12: 625386
Mostafa, T.M.; Hegazy, S.K.; Elnaidany, S.S.; Shehabeldin, W.A.; Sawan, E.S. 2021: Nigella sativa as a promising intervention for metabolic and inflammatory disorders in obese prediabetic subjects: a comparative study of Nigella sativa versus both lifestyle modification and metformin. Journal of Diabetes and its Complications 35(7): 107947
Iqbal, M.Shariq.; Iqbal, Z.; Hashem, A.; Al-Arjani, A-Bandari.Fahad.; Abd-Allah, E.Fathi.; Jafri, A.; Ansari, S.Akhtar.; Ansari, M.Israil. 2021: Nigella sativa callus treated with sodium azide exhibit augmented antioxidant activity and DNA damage inhibition. Scientific Reports 11(1): 13954
Koshak, A.E.; Koshak, E.A.; Mobeireek, A.F.; Badawi, M.A.; Wali, S.O.; Malibary, H.M.; Atwah, A.F.; Alhamdan, M.M.; Almalki, R.A.; Madani, T.A. 2021: Nigella sativa for the treatment of COVID-19: An open-label randomized controlled clinical trial. Complementary Therapies in Medicine 61: 102769
Hadi, V.; Pahlavani, N.; Malekahmadi, M.; Nattagh-Eshtivani, E.; Navashenaq, J.G.; Hadi, S.; Ferns, G.A.; Ghayour-Mobarhan, M.; Askari, G.; Norouzy, A. 2021: Nigella sativa in controlling Type 2 diabetes, cardiovascular, and rheumatoid arthritis diseases: Molecular aspects. Journal of Research in Medical Sciences: the Official Journal of Isfahan University of Medical Sciences 26: 20
Zhang, Y.; Li, X-Ming.; Wang, B-Gui. 2007: Nigerasperones A approximately C, new monomeric and dimeric naphtho-gamma-pyrones from a marine alga-derived endophytic fungus Aspergillus niger EN-13. Journal of Antibiotics 60(3): 204-210
Adepoju, P. 2020: Nigeria aligns efforts for HIV epidemic control by 2030. LANCET. HIV 7(11): E736-E737
Amoo, E.O.; Adekeye, O.; Olawole-Isaac, A.; Fasina, F.; Adekola, P.O.; Samuel, G.W.; Akanbi, M.A.; Oladosun, M.; Azuh, D.E. 2020: Nigeria and Italy Divergences in Coronavirus Experience: Impact of Population Density. Thescientificworldjournal 2020: 8923036
Giles, J. 2006: Nigeria ready for huge science spend. Nature 442(7101): 334
Adepoju, P. 2020: Nigeria responds to COVID-19; first case detected in sub-Saharan Africa. Nature Medicine 26(4): 444-448
Abbott, A. 2001: Nigeria takes the initiative in African science. Nature 412(6848): 668
Preiser, W.; van Zyl, G.U. 2020: Pooled testing: A tool to increase efficiency of infant HIV diagnosis and virological monitoring. African Journal of Laboratory Medicine 9(2): 1035
Naidoo, D.; Ihekweazu, C. 2020: Nigeria's efforts to strengthen laboratory diagnostics - Why access to reliable and affordable diagnostics is key to building resilient laboratory systems. African Journal of Laboratory Medicine 9(2): 1019
Idowu, E.A.; Nwhator, S.O.; Afolabi, A.O. 2020: Nigeria's street children, epitome of oral health disparity and inequality. Pan African Medical Journal 36: 77
Bello, O.O.; Morhason-Bello, I.O.; Ojengbede, O.A. 2020: Nigeria, a high burden state of obstetric fistula: a contextual analysis of key drivers. Pan African Medical Journal 36: 22
Ríos, A.; Carrillo, J.; López-Navas, A.I.; Ayala, M.A.; Garrido, G.; Sebastián, M.J.; Martínez-Alarcón, L.; Ramis, G.; Hernández, A.M.; Ramírez, P.; Parrilla, P. 2018: Nigerian Immigrant Population in Spain Is Little Sensitized to Living-Related Kidney Donation. Transplantation Proceedings 50(2): 354-357
Oginni, F.Olufunmilayo.; Bamgbose, B.O.; Oginni, O.Caleb.; Adebayo, O.Funmilola.; Olorunfemi, O.Victor.; Salami, O.Sunday.; Kaura, M.Abubakar. 2021: Nigerian law enforcement agents' knowledge and enforcement of drink-drive law. Traffic Injury Prevention 2021: 1-6
Adio, A.; Aliyu, S.S.-E.; Balarabe, A.H.; Mosudi, K.; Ademola-Popoola, D.; Lawal, T. 2021: Nigerian neonatologists perception and experience with retinopathy of prematurity. Journal of Public Health in Africa 12(1): 1289
Butler, D. 2004: Nigerian states disrupt campaign to eradicate polio. Nature 428(6979): 109
Marmor, M.F. 2020: Night Blindness in a Healthy Middle-Class Child. Ophthalmic Surgery Lasers and Imaging Retina 51(5): 286-288
Granger, C.; Brown, A.; Aladren, S.; Narda, M. 2020: Night Cream Containing Melatonin, Carnosine and Helichrysum italicum Extract Helps Reduce Skin Reactivity and Signs of Photodamage: Ex Vivo and Clinical Studies. Dermatology and Therapy 10(6): 1315-1329
Kara, Y.; Tuzun, S.; Oner, C.; Simsek, E.E. 2020: Night Eating Syndrome According to Obesity Groups and the Related Factors. Journal of the College of Physicians and Surgeons--Pakistan: Jcpsp 30(8): 833-838
Gupta, N.J.; Nanda, R.K.; Das, S.; Das, M.K.; Arya, R. 2020: Night Migratory Songbirds Exhibit Metabolic Ability to Support High Aerobic Capacity during Migration. Acs Omega 5(43): 28088-28095
Fernandez, R.C.; Moore, V.M.; Marino, J.L.; Whitrow, M.J.; Davies, M.J. 2020: Night Shift Among Women: Is it Associated with Difficulty Conceiving a first Birth?. Frontiers in Public Health 8: 595943
Books, C.; Coody, L.C.; Kauffman, R.; Abraham, S. 2020: Night Shift Work and its Health Effects on Nurses. Health Care Manager 39(3): 122-127
Liu, X.; Song, Q.; Hu, W.; Han, X.; Gan, J.; Zheng, X.; Wang, X.; Wu, S. 2018: Night Sleep Duration and Risk of Incident Anemia in a Chinese Population: A Prospective Cohort Study. Scientific Reports 8(1): 3975
Lam, A.D.; Noebels, J. 2020: Night Watch on the Titanic: Detecting Early Signs of Epileptogenesis in Alzheimer Disease. Epilepsy Currents 20(6): 369-374
Dym, R.J.; Forman, H.P.; Scheinfeld, M.H. 2021: Night and Day: Confounding Factors Complicate Comparison and Generalizability of Radiology Error Rates. Radiology 298(2): E115-E116
Wislowska, M.; Del Giudice, R.; Lechinger, J.; Wielek, T.; Heib, D.P.J.; Pitiot, A.; Pichler, G.; Michitsch, G.; Donis, J.; Schabus, M. 2017: Night and day variations of sleep in patients with disorders of consciousness. Scientific Reports 7(1): 266
Jacobson, S.G.; Cideciyan, A.V.; Regunath, G.; Rodriguez, F.J.; Vandenburgh, K.; Sheffield, V.C.; Stone, E.M. 1995: Night blindness in Sorsby's fundus dystrophy reversed by vitamin A. Nature Genetics 11(1): 27-32
Model, A. 1959: Night calls in a general practice. Practitioner 182(1092): 741-748
Lockstone, D.R. 1976: Night calls in a group practice. Journal of the Royal College of General Practitioners 26(162): 68-71
Exton-Smith, A.N. 1962: Night cramps in the elderly. Geneeskundige Gids 40: 64-65
Cerú-Björk, C.; Andersson, I.; Rössner, S. 2001: Night eating and nocturnal eating-two different or similar syndromes among obese patients?. International Journal of Obesity and Related Metabolic Disorders: Journal of the International Association for the Study of Obesity 25(3): 365-372
Andersen, G.S.; Stunkard, A.J.; Sørensen, T.I.A.; Petersen, L.; Heitmann, B.L. 2004: Night eating and weight change in middle-aged men and women. International Journal of Obesity and Related Metabolic Disorders: Journal of the International Association for the Study of Obesity 28(10): 1338-1343
Haraguchi, A.; Fukuzawa, M.; Iwami, S.; Nishimura, Y.; Motohashi, H.; Tahara, Y.; Shibata, S. 2018: Night eating model shows time-specific depression-like behavior in the forced swimming test. Scientific Reports 8(1): 1081
Allison, K.C.; Wadden, T.A.; Sarwer, D.B.; Fabricatore, A.N.; Crerand, C.E.; Gibbons, L.M.; Stack, R.M.; Stunkard, A.J.; Williams, N.N. 2006: Night eating syndrome and binge eating disorder among persons seeking bariatric surgery: prevalence and related features. Obesity 14 Suppl. 2: 77s-82s
Calugi, S.; Dalle Grave, R.; Marchesini, G. 2009: Night eating syndrome in class II-III obesity: metabolic and psychopathological features. International Journal of Obesity 33(8): 899-904
Gluck, M.E.; Geliebter, A.; Satov, T. 2001: Night eating syndrome is associated with depression, low self-esteem, reduced daytime hunger, and less weight loss in obese outpatients. Obesity Research 9(4): 264-267
Pawlow, L.A.; O'Neil, P.M.; Malcolm, R.J. 2003: Night eating syndrome: effects of brief relaxation training on stress, mood, hunger, and eating patterns. International Journal of Obesity and Related Metabolic Disorders: Journal of the International Association for the Study of Obesity 27(8): 970-978
Cleator, J.; Abbott, J.; Judd, P.; Sutton, C.; Wilding, J.P.H. 2012: Night eating syndrome: implications for severe obesity. Nutrition and Diabetes 2: E44
Striegel-Moore, R.H.; Franko, D.L.; Thompson, D.; Affenito, S.; Kraemer, H.C. 2006: Night eating: prevalence and demographic correlates. Obesity 14(1): 139-147
Ohno, M.; Yamawo, A. 2021: Night interruption provides evidence for photoperiodic regulation of bud burst in Japanese beech, Fagus crenata. Plant Signaling and Behavior 2021: 1982562
Sendon, C.; Carosella, C.; Melendres, C. 2021: Night of Kentucky blues: the case of the hypoxic child in the sleep laboratory. Journal of Clinical Sleep Medicine: Jcsm: Official Publication of the American Academy of Sleep Medicine 17(10): 2125-2128
Potter, T.I.; Greenville, A.C.; Dickman, C.R. 2021: Night of the hunter: using cameras to quantify nocturnal activity in desert spiders. Peerj 9: E10684
Liu, P.Y.; Irwin, M.R.; Krueger, J.M.; Gaddameedhi, S.; Van Dongen, H.P.A. 2021: Night shift schedule alters endogenous regulation of circulating cytokines. Neurobiology of Sleep and Circadian Rhythms 10: 100063
Koritala, B.S.C.; Porter, K.I.; Arshad, O.A.; Gajula, R.P.; Mitchell, H.D.; Arman, T.; Manjanatha, M.G.; Teeguarden, J.; Van Dongen, H.P.A.; McDermott, J.E.; Gaddameedhi, S. 2021: Night shift schedule causes circadian dysregulation of DNA repair genes and elevated DNA damage in humans. Journal of Pineal Research 70(3): E12726
Ruiz, F.S.; Rosa, D.S.; Zimberg, I.á Z.; Dos Santos Quaresma, M.V.; Nunes, J.O.; Apostolico, J.S.; Weckx, L.Y.; Souza, A.R.; Narciso, F.V.; Fernandes-Junior, S.A.; Gonçalves, B.; Folkard, S.; Bittencourt, L.; Tufik, S.; Tulio de Mello, M. 2020: Night shift work and immune response to the meningococcal conjugate vaccine in healthy workers: a proof of concept study. Sleep Medicine 75: 263-275
Bukowska-Damska, A.; Skowronska-Jozwiak, E.; Kaluzny, P.; Lewinski, A.; Peplonska, B. 2020: Night shift work and osteoporosis among female blue-collar workers in Poland - a pilot study. Chronobiology International 37(6): 910-920
Jones, M.E.; Schoemaker, M.J.; McFadden, E.C.; Wright, L.B.; Johns, L.E.; Swerdlow, A.J. 2019: Night shift work and risk of breast cancer in women: the Generations Study cohort. British Journal of Cancer 121(2): 172-179
Costa, C.; Mondello, S.; Micali, E.; Indelicato, G.; Licciardello, A.Andrea.; Vitale, E.; Briguglio, G.; Teodoro, M.; Fenga, C. 2020: Night shift work in resident physicians: does it affect mood states and cognitive levels?. Journal of Affective Disorders 272: 289-294
Adams, C.; Blacker, E.; Burke, W. 2017: Night shifts: Circadian biology for public health. Nature 551(7678): 33
Cui, H.; Shen, J.; Huang, Y.; Shen, X.; So, C.W.; Pun, C.S.J. 2021: Night sky brightness monitoring network in Wuxi, China. Journal of Quantitative Spectroscopy and Radiative Transfer 258: 107219
Song, Q.; Liu, X.; Zhou, W.; Wu, S.; Wang, X. 2020: Night sleep duration and risk of each lipid profile abnormality in a Chinese population: a prospective cohort study. Lipids in Health and Disease 19(1): 185
Greenbaum, E.; Allen, K.E.; Vaughan, E.R.; Pauwels, O.S.G.; Wallach, V.; Kusamba, C.; Muninga, W.M.; Aristote, M.M.; Mali, F.M.M.; Badjedjea, G.; Penner, J.; Rödel, M-Oliver.; Rivera, J.; Sterkhova, V.; Johnson, G.; Tapondjou N, W.P.; Brown, R.M. 2021: Night stalkers from above: A monograph of Toxicodryas/ tree snakes (Squamata: Colubridae) with descriptions of two new cryptic species from Central Africa. Zootaxa 4965(1)
Berdnikov, A.; McPhee, S.; LaBine, L.; Fatoye, T. 2020: Night sweats as a manifestation of gastroesophageal reflux disease. Canadian Family Physician Medecin de Famille Canadien 66(12): 901-903
Chamorro, R.; Algarín, C.; Garrido, M.; Causa, L.; Held, C.; Lozoff, B.; Peirano, P. 2014: Night time sleep macrostructure is altered in otherwise healthy 10-year-old overweight children. International Journal of Obesity 38(8): 1120-1125
Holzinger, B.; Mayer, L.; Klösch, G. 2021: Night today, day tomorrow: how irregular work shifts interfere with our psychological health. Chronobiology International 2021: 1-7
Gustavsson, K.; Wichniak, A. 2022: Night work as a stressor: the role of sleep reactivity to stress in the relationship between night work and insomnia. Journal of Sleep Research 31(2): E13468
Teixeira, K.R.C.; Dos Santos, C.P.; de Medeiros, L.A.; Mendes, J.A.; Cunha, Túlio.M.; De Angelis, Kátia.; Penha-Silva, N.; de Oliveira, E.P.; Crispim, C.A. 2019: Night workers have lower levels of antioxidant defenses and higher levels of oxidative stress damage when compared to day workers. Scientific Reports 9(1): 4455
Husain, B. 1905: Night-Blindness. Indian Medical Gazette 40(4): 158
Hailes, C. 1899: Night-Blindness. Hospital 27(687): 125-126
Kimura, S.; Sato, T.; Orikasa, K.; Nakagawa, H.; Ito, A. 2020: Night-Time Urinary Frequency Is Increased after the Great East Japan Earthquake along with Seasonal Variation: a Five-Year Longitudinal Study in Kesennuma City. Tohoku Journal of Experimental Medicine 252(4): 329-337
Fan, Y.; Lv, Z.; Ge, T.; Li, Y.; Yang, W.; Zhang, W.; Ma, S.; Dai, T.; Huang, Z. 2021: Night-Warming Priming at the Vegetative Stage Alleviates Damage to the Flag Leaf Caused by Post-anthesis Warming in Winter Wheat (Triticum aestivum L.). Frontiers in Plant Science 12: 706567
Castano, F.A. 1973: Night-bottle syndrome. Tic 32(2): 3-5
Gallant, A.; Lundgren, J.; O'Loughlin, J.; Allison, K.; Tremblay, A.; Henderson, M.; Drapeau, V. 2015: Night-eating symptoms and 2-year weight change in parents enrolled in the QUALITY cohort. International Journal of Obesity 39(7): 1161-1165
Smith, A.; McDonald, A.D.; Sasangohar, F. 2020: Night-shift nurses and drowsy driving: a qualitative study. International Journal of Nursing Studies 112: 103600
Pham, T-Thi.; Lee, E-Sook.; Kong, S-Young.; Kim, J.; Kim, S-Young.; Joo, J.; Yoon, K-Ah.; Park, B. 2019: Night-shift work, circadian and melatonin pathway related genes and their interaction on breast cancer risk: evidence from a case-control study in Korean women. Scientific Reports 9(1): 10982
Reynaud, E.; Forhan, A.; Heude, B.; Charles, M-Aline.; Plancoulaine, S. 2020: Night-sleep Duration Trajectories and Behavior in Preschoolers: Results from a Prospective Birth Cohort Study. Behavioral Sleep Medicine 2020: 1-13
Hadad, R.; Larsen, B.ør.S.øj.; Weber, P.; Stavnem, D.; Kristiansen, O.P.; Nielsen, O.W.; Haugaard, S.B.; Sajadieh, A. 2021: Night-time heart rate variability identifies high-risk people among people with uncomplicated type 2 diabetes mellitus. Diabetic Medicine: a Journal of the British Diabetic Association 38(7): E14559
Somani, A.; Wiseman, A.; Hickman, M.-G.; Militello, S.J.; Wiersma, R.E.; Vu, M.T.; Goertzen, L.; Shyne, M.; Kroupina, M. 2021: Night-time Screen Media use in the Pediatric Intensive Care Unit. Global Pediatric Health 8: 2333794x211049758
Ohashi, N.; Isobe, S.; Matsuyama, T.; Ishigaki, S.; Tsuji, N.; Fujikura, T.; Tsuji, T.; Kato, A.; Yasuda, H. 2018: Night-time activation of the intrarenal renin-angiotensin system due to nocturnal hypertension is associated with renal arteriosclerosis in normotensive IgA nephropathy patients. Hypertension Research: Official Journal of the Japanese Society of Hypertension 41(5): 334-341
Kaufmann, P.; De Barros, M.H.; Vianna, E.N. 1970: Night-time anomalies in very low frequency propagation produced by a galactic X-ray source at centaurus. Nature 228(5276): 1080-1081
Ma, B.; Shang, Z.; Hu, Y.; Hu, K.; Wang, Y.; Yang, X.; Ashley, M.C.B.; Hickson, P.; Jiang, P. 2020: Night-time measurements of astronomical seeing at Dome A in Antarctica. Nature 583(7818): 771-774
McCutchan, C.L.; Monson, R.K. 2001: Night-time respiration rate and leaf carbohydrate concentrations are not coupled in two alpine perennial species. New Phytologist 149(3): 419-430
Witze, A. 2015: Night-time storm chasers stalk their prey on US Plains. Nature 523(7559): 135-136
Tschopp, S.; Wimmer, W.; Caversaccio, M.; Borner, U.; Tschopp, K. 2021: Night-to-night variability in obstructive sleep apnea using peripheral arterial tonometry: a case for multiple night testing. Journal of Clinical Sleep Medicine: Jcsm: Official Publication of the American Academy of Sleep Medicine 17(9): 1751-1758
Ørntoft, M.; Andersen, I.G.; Homøe, P. 2020: Night-to-night variability in respiratory parameters in children and adolescents examined for obstructive sleep apnea. International Journal of Pediatric Otorhinolaryngology 137: 110206
Hayano, J.; Yuda, E. 2022: Night-to-night variability of sleep apnea detected by cyclic variation of heart rate during long-term continuous ECG monitoring. Annals of Noninvasive Electrocardiology: the Official Journal of the International Society for Holter and Noninvasive Electrocardiology Inc 27(2): E12901
Hogan, J.; Sun, H.; Paixao, L.; Westmeijer, M.; Sikka, P.; Jin, J.; Tesh, R.; Cardoso, M.; Cash, S.S.; Akeju, O.; Thomas, R.; Westover, M.B. 2021: Night-to-night variability of sleep electroencephalography-based brain age measurements. Clinical Neurophysiology: Official Journal of the International Federation of Clinical Neurophysiology 132(1): 1-12
Curry, D.M. 2020: Nightingale 2020: a Contemporary Reflection. Journal of Pediatric Nursing 53: 91-92
Brixey, J.; Salyer, P.; Simmons, D.; Nightingale, F. 2020: Nightingale power: the advent of nursing informatics. Nursing Management 51(7): 51-53
Oerther, D.B.; Oerther, S.; Nightengale, F. 2020: Nightingale's legacy as a nurse theorist promotes healthful food systems. Perspectives in Public Health 140(3): 141-143
Henry, B.; Woods, S.; Nagelkerk, J.; Nightingale, F. 1990: Nightingale's perspective of nursing administration. Nursing and Health Care: Official Publication of the National League for Nursing 11(4): 201-206
Thompson, D.R.; Darbyshire, P. 2020: Nightingale's year of nursing: rising to the challenges of the covid-19 era. Bmj 370: M2721
Kelly, B.C.; Vuolo, M. 2020: Nightlife scene involvement and patterns of prescription drug misuse. Drug and Alcohol Review 39(7): 888-897
Ueda, M.; Inoue, Y.; Hu, H.; Eguchi, M.; Islam, Z.; Miki, T.; Fukunaga, A.; Kochi, T.; Akter, S.; Kabe, I.; Akamatsu, R.; Mizoue, T. 2021: Nightly fasting duration is not associated with the prevalence of metabolic syndrome among non-shift workers: the Furukawa Nutrition and Health Studymx. American Journal of Human Biology: the Official Journal of the Human Biology Council 33(1): E23437
Stefani, A.; Högl, B. 2021: Nightmare Disorder and Isolated Sleep Paralysis. Neurotherapeutics: the Journal of the American Society for Experimental Neurotherapeutics 18(1): 100-106
Jenab, Y.; Barbati, M.E.; Ajam, A.; Tofighi, S.; Hosseini, K.; Jalaie, H. 2021: Nightmare after iliac vein stenting: Spinal epidural hematoma. Clinical Case Reports 9(7): E04522
Kennedy, K.E.R.; Bastien, C.él.H.; Ruby, P.M.; Killgore, W.D.S.; Wills, C.C.A.; Grandner, M.A. 2022: Nightmare content during the COVID-19 pandemic: Influence of COVID-related stress and sleep disruption in the United States. Journal of Sleep Research 31(1): E13439
Yang, X.-F.; Liu, Z.-Z.; Liu, S.-J.; Jia, C.-X.; Liu, X. 2022: Nightmare distress as a mediator between frequent nightmares and depressive symptoms in Chinese adolescents. Journal of Affective Disorders 296: 363-369
Shao, X.; Wang, C.; Shen, C.; Jia, Y.; Wang, W. 2020: Nightmare experience and personality disorder functioning styles in healthy volunteers and nightmare disorder patients. Bulletin of the Menninger Clinic 84(3): 278-294
Gupta, M.A. 2020: Nightmare recurrence in patients with post-traumatic stress disorder is likely a primary feature of central sympathetic nervous activation. Journal of Clinical Sleep Medicine: Jcsm: Official Publication of the American Academy of Sleep Medicine 16(11): 1995
Guilleminault, C. 1972: Nightmares. Revue de Neuropsychiatrie Infantile et d'Hygiene Mentale de l'Enfance 20(11): 863-870
Leung, A.K.; Robson, W.L. 1993: Nightmares. Journal of the National Medical Association 85(3): 233-235
Sudha Ty, S.; VenkataNaga, S.; Thangaraju, P. 2021: Nightmares and Mirtazapine-Time to be vigilant. Indian Journal of Psychological Medicine 43(5): 453-454
Lee, S.; Lee, J.; Jeon, S.; Kim, S.; Seo, Y.; Park, J.; Lee, Y.J.; Kim, S.J. 2021: Nightmares and alexithymia in traumatized North Korean refugees. Sleep Medicine 86: 75-80
Abdul-Razzak, K.K.; Alkhatatbeh, M.J. 2021: Nightmares and bad dreams among individuals with musculoskeletal pain: a link to vitamin D and calcium. Research in PsychoTherapy 24(2): 533
Lanctôt, N.; Reid, J.A.; Laurier, C. 2020: Nightmares and flashbacks: The impact of commercial sexual exploitation of children among female adolescents placed in residential care. Child Abuse and Neglect 100: 104195
Vanek, J.; Prasko, J.; Ociskova, M.; Holubova, M.; Minarikova, K.; Kamaradova-Koncelikova, D.; Kantor, K.; Nesnidal, V. 2020: Nightmares and their treatment. Neuro Endocrinology Letters 41(2): 86-101
Sandman, N.; Valli, K.; Kronholm, E.; Vartiainen, E.; Laatikainen, T.; Paunio, T. 2017: Nightmares as predictors of suicide: an extension study including war veterans. Scientific Reports 7: 44756
Mughal, R.; Wong, S.S.; Dimitriou, D.; Halstead, E. 2021: Nightmares in Children with Foetal Alcohol Spectrum Disorders, Autism Spectrum Disorders, and their Typically Developing Peers. Clocks and Sleep 3(3): 465-481
Secrist, M.E.; John, S.G.; Harper, S.L.; Conners Edge, N.A.; Sigel, B.A.; Sievers, C.; Kramer, T. 2020: Nightmares in Treatment-Seeking Youth: the Role of Cumulative Trauma Exposure. Journal of Child and Adolescent Trauma 13(2): 249-256
Ghosal, A.; Bhattacharya, K.; Shobhana, A.; Saraff, R. 2020: Nightmares with a starry sky - Treating neurocysticercal encephalitis, how far to go. Tropical Parasitology 10(2): 158-162
Negi, A.; Thoung, D.; Dabbous, F. 2000: Nightmares with topical beta-blocker. Eye 14 Pt 5: 813-814
Schredl, M.; Göritz, A.S. 2020: Nightmares, Chronotype, Urbanicity, and Personality: An Online Study. Clocks and Sleep 2(3): 390-398
Schredl, M.; Göritz, A.S. 2020: Nightmares, Chronotype, Urbanicity, and Personality: An Online Study. Clocks and Sleep 2(3): 390-398
van Vliet, A.C.M.; Boot, H.; van Uffelen, R. 2004: Nightmares, sleep and cardiac symptoms in the elderly. Netherlands Journal of Medicine 62(3): 102; Author Reply 103
Mattingly, D.T. 2020: Nights with sickle cell. Families Systems and Health: the Journal of Collaborative Family Healthcare 38(2): 215-216
Ehrenreich, D.; Lovis, C.; Allart, R.; Zapatero Osorio, Mía.Rosa.; Pepe, F.; Cristiani, S.; Rebolo, R.; Santos, N.C.; Borsa, F.; Demangeon, O.; Dumusque, X.; González Hernández, J.I.; Casasayas-Barris, Núria.; Ségransan, D.; Sousa, Sérgio.; Abreu, M.; Adibekyan, V.; Affolter, M.; Allende Prieto, C.; Alibert, Y.; Aliverti, M.; Alves, D.; Amate, M.; Avila, G.; Baldini, V.; Bandy, T.; Benz, W.; Bianco, A.; Bolmont, Émeline.; Bouchy, Fçois.; Bourrier, V.; Broeg, C.; Cabral, A.; Calderone, G.; Pallé, E.; Cegla, H.M.; Cirami, R.; Coelho, Jão.M.P.; Conconi, P 2020: Nightside condensation of iron in an ultrahot giant exoplanet. Nature 580(7805): 597-601
Breidenbaugh, M.S.; Foley, E.H.; Brooks, C.; Reeves, W.K. 2020: Nighttime Aerial Sprays for Control of Crepuscular Biting Midges in South Carolina. Journal of the American Mosquito Control Association 36(4): 272-275
Richards, K.; Morrison, J.; Wang, Y.-Y.; Rangel, A.; Loera, A.; Hanlon, A.; Lozano, A.; Kovach, C.; Gooneratne, N.; Fry, L.; Allen, R. 2020: Nighttime Agitation and Restless Legs Syndrome in Persons with Alzheimer's Disease: Study Protocol for a Double-Blind, Placebo-Controlled, Randomized Trial (NightRest). Research in Gerontological Nursing 13(6): 280-288
Mönttinen, T.; Kangaspunta, H.; Laukkarinen, J.; Ukkonen, M. 2021: Nighttime Appendectomy is Safe and has Similar Outcomes as Daytime Appendectomy: a Study of 1198 Appendectomies. Scandinavian Journal of Surgery: Sjs: Official Organ for the Finnish Surgical Society and the Scandinavian Surgical Society 110(2): 227-232
Parrado, R.H.; Notrica, D.M.; Molitor, M.S. 2021: Nighttime Calls, Pages, and Interruptions to the On-Call Surgery Resident. American Surgeon 2021: 3134821991987
Kamiński, M.ła.; Gawrecki, A.; Araszkiewicz, A.; Szadkowska, A.; Skowrońska, B.; Stankiewicz, W.; Michalak, A.; Cieluch, A.; Dżygało, K.; Seget, S.; Biegański, G.; Adamska, A.; Ksiądz, K.; Szymańska-Garbacz, E.; Flotyńska, J.; Zozulinska-Ziolkiewicz, D. 2020: Nighttime Hypoglycemia in Children with Type 1 Diabetes after one day of Football Tournament. International Journal of Sports Medicine 41(13): 972-980
Mendoza, J. 2021: Nighttime Light Hurts Mammalian Physiology: what Diurnal Rodent Models Are Telling Us. Clocks and Sleep 3(2): 236-250
Xue, X.; Duan, Y.; Wang, J.; Ma, F.; Li, P. 2021: Nighttime Temperatures and Sunlight Intensities Interact to Influence Anthocyanin Biosynthesis and Photooxidative Sunburn in "Fuji" Apple. Frontiers in Plant Science 12: 694954
Branstetter, S.A.; Krebs, N.M.; Muscat, J.E. 2021: Nighttime Waking to Smoke, Stress, and Nicotine Addiction. Behavioral Sleep Medicine 2021: 1-10
Morioka, E.; Oida, M.; Tsuchida, T.; Ikeda, M. 2018: Nighttime activities and peripheral clock oscillations depend on Wolbachia endosymbionts in flies. Scientific Reports 8(1): 15432
Zhang, H.; Gong, W.; Jia, B.; Zeng, W.; Li, G.; Liang, H. 2020: Nighttime aeration mode enhanced the microalgae-bacteria symbiosis (ABS) system stability and pollutants removal efficiencies. Science of the Total Environment 743: 140607
Kwiatkowski, L.; Gaylord, B.; Hill, T.; Hosfelt, J.; Kroeker, K.J.; Nebuchina, Y.; Ninokawa, A.; Russell, A.D.; Rivest, E.B.; Sesboüé, M.; Caldeira, K. 2016: Nighttime dissolution in a temperate coastal ocean ecosystem increases under acidification. Scientific Reports 6: 22984
Choe, S.-A.; Kim, S.; Im, C.; Kim, S.-Y.; Kim, Y.S.; Yoon, T.K.; Kim, D.K. 2020: Nighttime environmental noise and semen quality: a single fertility center cohort study. Plos one 15(11): E0240689
Spina, G.; Casale, P.; Albert, P.S.; Alison, J.; Garcia-Aymerich, J.; Clarenbach, C.F.; Costello, R.W.; Hernandes, N.A.; Leuppi, J.ör.D.; Mesquita, R.; Singh, S.J.; Smeenk, F.W.J.M.; Tal-Singer, R.; Wouters, E.F.M.; Spruit, M.A.; den Brinker, A.C. 2021: Nighttime features derived from topic models for classification of patients with COPD. Computers in Biology and Medicine 132: 104322
Bucko, A.G.; Dowda, M.; Frongillo, E.A.; Torres, M.E.; Pate, R.R. 2021: Nighttime sleep and physical activity in 6-7 month-old infants. Infant Behavior and Development 65: 101628
McDonald, L.; Wardle, J.; Llewellyn, C.H.; Fisher, A. 2015: Nighttime sleep duration and hedonic eating in childhood. International Journal of Obesity 39(10): 1463-1466
Zheng, M.; Hesketh, K.D.; Wu, J.H.Y.; Heitmann, B.L.; Downing, K.; Campbell, K.J. 2021: Nighttime sleep duration trajectories were associated with body mass index trajectories in early childhood. Pediatric Obesity 16(7): E12766
Shen, X.; Wu, Y.; Zhang, D. 2016: Nighttime sleep duration, 24-hour sleep duration and risk of all-cause mortality among adults: a meta-analysis of prospective cohort studies. Scientific Reports 6: 21480
Zhang, Q.; Yang, Y.; Peng, S.; Li, Y. 2021: Nighttime transpirational cooling enabled by circadian regulation of stomatal conductance is related to stomatal anatomy and leaf morphology in rice. Planta 254(1): 12
Mu, Y.-M.; Fang, O.; Lyu, L. 2021: Nighttime warming alleviates the incidence of juniper forest growth decline on the Tibetan Plateau. Science of the Total Environment 782: 146924
Song, T.; Li, J.; Mei, S.; Jia, X.; Yang, H.; Ye, Y.; Yuan, J.; Zhang, Y.; Lu, J. 2021: Nigral Iron Deposition Is Associated with Levodopa-Induced Dyskinesia in Parkinson's Disease. Frontiers in Neuroscience 15: 647168
Lee, E.-Y.; Flynn, M.R.; Du, G.; Lewis, M.M.; Goldenberg, M.; Kong, L.; Mailman, R.B.; Hong, Y.-S.; Huang, X. 2021: Nigral MRi features of asymptomatic welders. Parkinsonism and Related Disorders 85: 37-43
Nieoullon, A.; Cheramy, A.; Glowinski, J. 1977: Nigral and striatal dopamine release under sensory stimuli. Nature 269(5626): 340-342
Awogbindin, I.O.; Adedara, I.A.; Adeniyi, P.A.; Agedah, A.E.; Oyetunde, B.F.; Olorunkalu, P.D.; Ogbuewu, E.; Akindoyeni, I.A.; Mustapha, Y.E.; Ezekiel, O.G.; Farombi, E.O. 2020: Nigral and ventral tegmental area lesioning induces testicular and sperm morphological abnormalities in a rotenone model of Parkinson's disease. Environmental Toxicology and Pharmacology 78: 103412
Starr, M.S.; Kilpatrick, I.C. 1981: Nigral-derived muscimol circling--ipsiversive, contraversive or controversial?. Nature 290(5807): 610
Galle 1946: Nigricant ichthyosis in recess. Annales de Dermatologie et de Syphiligraphie 6(9): 472
Labreuche, Y.; Chenivesse, S.; Jeudy, A.; Le Panse, S.; Boulo, V.; Ansquer, D.; Pagès, S.; Givaudan, A.; Czjzek, M.; Le Roux, Fédérique. 2017: Nigritoxin is a bacterial toxin for crustaceans and insects. Nature Communications 8(1): 1248
Elshennawy, M.; Ouachikh, O.; Shereen Adel Saad; Ramadan, Y.; Durif, F.; Hafidi, A. 2021: Nigrostriatal dopamine depletion promoted an increase in inhibitory markers (parvalbumin, GAD67, VGAT) and cold allodynia. Neuroscience Letters 762: 136135
Hollon, N.G.; Williams, E.W.; Howard, C.D.; Li, H.; Traut, T.I.; Jin, X. 2021: Nigrostriatal dopamine signals sequence-specific action-outcome prediction errors. Current Biology: Cb 31(23): 5350-5363.E5
Manfredsson, F.P.; Tumer, N.; Erdos, B.; Landa, T.; Broxson, C.S.; Sullivan, L.F.; Rising, A.C.; Foust, K.D.; Zhang, Y.; Muzyczka, N.; Gorbatyuk, O.S.; Scarpace, P.J.; Mandel, R.J. 2009: Nigrostriatal rAAV-mediated GDNF overexpression induces robust weight loss in a rat model of age-related obesity. Molecular Therapy: the Journal of the American Society of Gene Therapy 17(6): 980-991
Bao, S.; Wang, L.; Sudunabuqi; Hao, J.; Wang, X.; Ao, W. 2021: Nigrumol A, a new triterpenoid from Empetrum nigrum subsp. asiaticum (Nakai ex H.Ito) Kuvaev. Natural Product Research 2021: 1-5
Shalev, M. 2000: Nih implements measures to reduce regulatory burden. Lab Animal 29(2): 16-17
Matsuura, S.; Kobayashi, J.; Tauchi, H.; Komatsu, K. 2004: Nijmegen breakage syndrome and DNA double strand break repair by NBS1 complex. Advances in Biophysics 38: 65-80
Tauchi, H.; Matsuura, S.; Kobayashi, J.; Sakamoto, S.; Komatsu, K. 2002: Nijmegen breakage syndrome gene, NBS1, and molecular links to factors for genome stability. Oncogene 21(58): 8967-8980
Sharapova, S.O.; Golovataya, E.I.; Shepelevich, E.V.; Mareika, Y.E.; Guryanova, I.E.; Stegantseva, M.V.; Aleinikova, O.V. 2020: Nijmegen breakage syndrome in two half sibs with peripheral T-cell lymphoma and cortical T-cell acute lymphoid leukemia. Central-European Journal of Immunology 45(4): 507-510
Castillo Romero, C.és.; Ricciardi, G. 2021: Nikaidoh Procedure: the Wet Lab Trainee's Perspective. World Journal for Pediatric and Congenital Heart Surgery 12(1): 124-127
Collado-Vázquez, S.; Carrillo, J.ús.M.ía. 2013: Nikola Tesla: flashes of inspiration. Revista de Neurologia 56(10): 544
Gal'perin, S.I.; Vvedenskii, N.E. 1952: Nikolai Evgen'evich Vvedenskii. Sovetskoe Zdravookhranenie 11(3): 3-8
Aguirre, C.; Miranda, M.; Stefani, A. 2021: Nikolai Gogol's account of sleep paralysis in the tale "The Portrait". Sleep Medicine 85: 317-320
Gorizontov, P.D. 1966: Infection and corticosteroid hormones. Klinicheskaia Meditsina 44(6): 5-13
Zemlyanoy, A.G.; Blinov, N.I. 1971: Nikolaĭ Il'ich Blinov. Vestnik Khirurgii Imeni I. I. Grekova 107(10): 153
Subramanian, T.; La Regina, M.; Chinnadurai, G. 1989: Enhanced ras oncogene mediated cell transformation and tumorigenesis by adenovirus 2 mutants lacking the C-terminal region of E1a protein. Oncogene 4(4): 415-420