EurekaMag PDF full texts Chapter 56,999

Ye, X.; Wu, F.; Wu, C.; Wang, P.; Jung, K.; Gopal, K.; Ma, Y.; Li, L.; Lai, R. 2014: β-Catenin, a Sox2 binding partner, regulates the DNA binding and transcriptional activity of Sox2 in breast cancer cells. Cellular Signalling 26(3): 492-501

Hashimoto, S.; Chen, H.; Que, J.; Brockway, B.L.; Drake, J.A.; Snyder, J.C.; Randell, S.H.; Stripp, B.R. 2012: β-Catenin-SOX2 signaling regulates the fate of developing airway epithelium. Journal of Cell Science 125(Part 4): 932-942

Han, J.; Sridevi, P.; Ramirez, M.; Ludwig, K.J.; Wang, J.Y.J. 2013: β-Catenin-dependent lysosomal targeting of internalized tumor necrosis factor-α suppresses caspase-8 activation in apoptosis-resistant colon cancer cells. Molecular Biology of the Cell 24(4): 465-473

Ring, L.; Neth, P.; Weber, C.; Steffens, S.; Faussner, A. 2014: β-Catenin-dependent pathway activation by both promiscuous "canonical" WNT3a-, and specific "noncanonical" WNT4- and WNT5a-FZD receptor combinations with strong differences in LRP5 and LRP6 dependency. Cellular Signalling 26(2): 260-267

Rosenbluh, J.; Nijhawan, D.; Cox, A.G.; Li, X.; Neal, J.T.; Schafer, E.J.; Zack, T.I.; Wang, X.; Tsherniak, A.; Schinzel, A.C.; Shao, D.D.; Schumacher, S.E.; Weir, B.A.; Vazquez, F.; Cowley, G.S.; Root, D.E.; Mesirov, J.P.; Beroukhim, R.; Kuo, C.J.; Goessling, W.; Hahn, W.C. 2012: β-Catenin-driven cancers require a YAP1 transcriptional complex for survival and tumorigenesis. Cell 151(7): 1457-1473

Grumolato, L.; Liu, G.; Haremaki, T.; Mungamuri, S.K.; Mong, P.; Akiri, G.; Lopez-Bergami, P.; Arita, A.; Anouar, Y.; Mlodzik, M.; Ronai, Z.'e.A.; Brody, J.; Weinstein, D.C.; Aaronson, S.A. 2013: β-Catenin-independent activation of TCF1/LEF1 in human hematopoietic tumor cells through interaction with ATF2 transcription factors. Plos Genetics 9(8): E1003603

Gencer, S.; Şen, G.ür.; Doğusoy, G.ül.; Bellı, A.K.; Paksoy, M.; Yazicioğlu, M.B.I. 2010: β-Catenin-independent noncanonical Wnt pathway might be induced in gastric cancers. Turkish Journal of Gastroenterology: the Official Journal of Turkish Society of Gastroenterology 21(3): 224-230

Amini-Nik, S.; Cambridge, E.; Yu, W.; Guo, A.; Whetstone, H.; Nadesan, P.; Poon, R.; Hinz, B.; Alman, B.A. 2014: β-Catenin-regulated myeloid cell adhesion and migration determine wound healing. Journal of Clinical Investigation 124(6): 2599-2610

Xu, C.; Xie, D.; Yu, S.-C.; Yang, X.-J.; He, L.-R.; Yang, J.; Ping, Y.-F.; Wang, B.; Yang, L.; Xu, S.-L.; Cui, W.; Wang, Q.-L.; Fu, W.-J.; Liu, Q.; Qian, C.; Cui, Y.-H.; Rich, J.N.; Kung, H.-F.; Zhang, X.; Bian, X.-W. 2013: β-Catenin/POU5F1/SOX2 transcription factor complex mediates IGF-i receptor signaling and predicts poor prognosis in lung adenocarcinoma. Cancer Research 73(10): 3181-3189

Aljawai, Y.; Richards, M.H.; Seaton, M.S.; Narasipura, S.D.; Al-Harthi, L. 2014: β-Catenin/TCF-4 signaling regulates susceptibility of macrophages and resistance of monocytes to HIV-1 productive infection. Current HIV Research 12(3): 164-173

Usongo, M.; Rizk, A.; Farookhi, R. 2012: β-Catenin/Tcf signaling in murine oocytes identifies nonovulatory follicles. Reproduction 144(6): 669-676

Ho, J.; Bates, C.M. 2011: β-Catenin: too much of a good thing is not always good. Journal of the American Society of Nephrology: Jasn 22(4): 592-593

Barker, C.J.; Li, L.; Köhler, M.; Berggren, P.-O. 2015: β-Cell Ca(2+) dynamics and function are compromised in aging. Advances in Biological Regulation 57: 112-119

Carlotti, Fçoise.; Zaldumbide, A.; Ellenbroek, J.H.; Spijker, H.Siebe.; Hoeben, R.C.; de Koning, E.J. 2011: β-Cell Generation: Can Rodent Studies Be Translated to Humans?. Journal of Transplantation 2011: 892453

Egerod, K.L.; Jin, C.; Petersen, P.S.; Wierup, N.; Sundler, F.; Holst, B.; Schwartz, T.W. 2011: β-Cell Specific Overexpression of GPR39 Protects against Streptozotocin-Induced Hyperglycemia. International Journal of Endocrinology 2011: 401258

Fransson, L.; Franzén, S.; Rosengren, V.; Wolbert, P.; Sjöholm, Åk.; Ortsäter, H. 2013: β-Cell adaptation in a mouse model of glucocorticoid-induced metabolic syndrome. Journal of Endocrinology 219(3): 231-241

Ferreira, M.d.R.; Lombardo, Y.B.; Chicco, A. 2010: β-Cell adaptation/dysfunction in an animal model of dyslipidemia and insulin resistance induced by the chronic administration of a sucrose-rich diet. Islets 2(6): 367-373

Ding, L.; Gysemans, C.; Mathieu, C. 2013: β-Cell differentiation and regeneration in type 1 diabetes. Diabetes Obesity and Metabolism 15(Suppl 3): 98-104

Jang, E.-H.; Kwon, H.-S. 2013: β-Cell dysfunction and insulin resistance in gestational glucose intolerance. Korean Journal of Internal Medicine 28(3): 294-296

Malin, S.K.; Finnegan, S.; Fealy, C.E.; Filion, J.; Rocco, M.B.; Kirwan, J.P. 2014: β-Cell dysfunction is associated with metabolic syndrome severity in adults. Metabolic Syndrome and Related Disorders 12(2): 79-85

Despa, F.; Berry, R.S. 2010: β-Cell dysfunction under hyperglycemic stress: a molecular model. Journal of Diabetes Science and Technology 4(6): 1447-1456

Arntfield, M.E.; van der Kooy, D. 2011: β-Cell evolution: How the pancreas borrowed from the brain: The shared toolbox of genes expressed by neural and pancreatic endocrine cells may reflect their evolutionary relationship. Bioessays: News and Reviews in Molecular Cellular and Developmental Biology 33(8): 582-587

Costes, S.; Langen, R.; Gurlo, T.; Matveyenko, A.V.; Butler, P.C. 2013: β-Cell failure in type 2 diabetes: a case of asking too much of too few?. Diabetes 62(2): 327-335

Leibowitz, G.; Kaiser, N.; Cerasi, E. 2011: β-Cell failure in type 2 diabetes. Journal of Diabetes Investigation 2(2): 82-91

Junqueira Vasques, A.C.; Pareja, J.é C.; de Oliveira, M.d.S.; Satake Novaes, F.; Miranda de Oliveira Lima, M.; Chaim, Él.A.; Piccinini, F.; Dalla Man, C.; Cobelli, C.; Geloneze, B. 2013: β-Cell function improvements in grade I/Ii obese subjects with type 2 diabetes 1 month after biliopancreatic diversion: results from modeling analyses of oral glucose tolerance tests and hyperglycemic clamp studies. Diabetes Care 36(12): 4117-4124

Ferrannini, E.; Mari, A. 2014: β-Cell function in type 2 diabetes. Metabolism, Clinical and Experimental 63(10): 1217-1227

Marselli, L.; Bugliani, M.; Suleiman, M.; Olimpico, F.; Masini, M.; Petrini, M.; Boggi, U.; Filipponi, F.; Syed, F.; Marchetti, P. 2013: β-Cell inflammation in human type 2 diabetes and the role of autophagy. Diabetes Obesity and Metabolism 15(Suppl 3): 130-136

Hughan, K.S.; Bonadonna, R.C.; Lee, S.; Michaliszyn, S.F.; Arslanian, S.A. 2013: β-Cell lipotoxicity after an overnight intravenous lipid challenge and free fatty acid elevation in African American versus American white overweight/obese adolescents. Journal of clinical endocrinology and metabolism 98(5): 2062-2069

Zhu, X.; Li, S.; Zhang, Q.; Zhu, D.; Xu, Y.; Zhang, P.; Han, J.; Duan, Z.; Gao, J.; Ou, Y. 2018: Correlation of increased Th17/Treg cell ratio with endoplasmic reticulum stress in chronic kidney disease. Medicine 97(20): E10748

Blomberg, B.ör.A.; Eriksson, O.; Saboury, B.; Alavi, A. 2013: β-Cell mass imaging with DTBZ positron emission tomography: is it possible?. Molecular Imaging and Biology 15(1): 1-2

Iskovich, S.; Goldenberg-Cohen, N.; Stein, J.; Yaniv, I.; Farkas, D.L.; Askenasy, N. 2011: β-Cell neogenesis: experimental considerations in adult stem cell differentiation. Stem Cells and Development 20(4): 569-582

Herchuelz, A.; Nguidjoe, E.; Jiang, L.; Pachera, N. 2012: β-Cell preservation and regeneration in diabetes by modulation of β-cell Ca²⁺ homeostasis. Diabetes Obesity and Metabolism 14(Suppl 3): 136-142

Togashi, Y.; Shirakawa, J.; Orime, K.; Kaji, M.; Sakamoto, E.; Tajima, K.; Inoue, H.; Nakamura, A.; Tochino, Y.; Goshima, Y.; Shimomura, I.; Terauchi, Y. 2014: β-Cell proliferation after a partial pancreatectomy is independent of IRS-2 in mice. Endocrinology 155(5): 1643-1652

Milanesi, A.; Lee, J.-W.; Li, Z.; Da Sacco, S.; Villani, V.; Cervantes, V.; Perin, L.; Yu, J.S. 2012: β-Cell regeneration mediated by human bone marrow mesenchymal stem cells. Plos one 7(8): E42177

Lee, S.-H.; Hao, E.; Levine, F. 2011: β-Cell replication and islet neogenesis following partial pancreatectomy. Islets 3(4): 188-195

Ahrén, B.; Accili, D.; Boitard, C.; Efendic, S.; Henquin, J-Claude.; Seino, S.; Steiner, D.F.; Cerasi, E. 2009: β-Cell research - A decade of rapid growth. Diabetes Obesity and Metabolism 11 Suppl. 4: Iv-Ix

Broniowska, K.A.; Oleson, B.J.; Corbett, J.A. 2014: β-Cell responses to nitric oxide. Vitamins and Hormones 95: 299-322

Liu, X.; Turban, S.; Carter, R.N.; Ahmad, S.; Ramage, L.; Webster, S.P.; Walker, B.R.; Seckl, J.R.; Morton, N.M. 2014: β-Cell-Specific Glucocorticoid Reactivation Attenuates Inflammatory β-Cell Destruction. Frontiers in Endocrinology 5: 165

Han, S.J.; Choi, S.-E.; Yi, S.-A.; Lee, S.-J.; Kim, H.J.; Kim, D.J.; Lee, H.C.; Lee, K.W.; Kang, Y. 2012: β-Cell-protective effect of 2-aminobicyclo-(2,2,1)-heptane-2-carboxylic acid as a glutamate dehydrogenase activator in db/db mice. Journal of Endocrinology 212(3): 307-315

Kaihara, K.A.; Dickson, L.M.; Jacobson, D.A.; Tamarina, N.; Roe, M.W.; Philipson, L.H.; Wicksteed, B. 2013: β-Cell-specific protein kinase a activation enhances the efficiency of glucose control by increasing acute-phase insulin secretion. Diabetes 62(5): 1527-1536

Rankin, M.M.; Wilbur, C.J.; Rak, K.; Shields, E.J.; Granger, A.; Kushner, J.A. 2013: β-Cells are not generated in pancreatic duct ligation-induced injury in adult mice. Diabetes 62(5): 1634-1645

Zhang, X.; Degenstein, L.; Cao, Y.; Stein, J.; Osei, K.; Wang, J. 2012: β-Cells with relative low HIMP1 overexpression levels in a transgenic mouse line enhance basal insulin production and hypoxia/hypoglycemia tolerance. Plos one 7(3): E34126

Roep, B.O. 2013: β-Cells, autoimmunity, and the innate immune system: "un ménage á trois"?. Diabetes 62(6): 1821-1822

Nata, I.F.; Wang, S.S.-S.; Wu, T.-M.; Lee, C.-K. 2012: β-Chitin nanofibrils for self-sustaining hydrogels preparation via hydrothermal treatment. Carbohydrate Polymers 90(4): 1509-1514

Hamada-Kanazawa, M.; Narahara, M.; Takano, M.; Min, K.S.; Tanaka, K.; Miyake, M. 2011: β-Citryl-L-glutamate acts as an iron carrier to activate aconitase activity. Biological and Pharmaceutical Bulletin 34(9): 1455-1464

Qu, B.; Chen, Y.; Zhang, M.; Hu, L.; Lei, D.; Lu, B.; Li, Q.; Wang, Y.; Chen, L.; Wang, T. 2012: β-Cobalt sulfide nanoparticles decorated graphene composite electrodes for high capacity and power supercapacitors. Nanoscale 4(24): 7810-7816

Zhao, Y.; Qin, G.; Han, R.; Wang, J.; Zhang, X.; Liu, D. 2014: β-Conglycinin reduces the tight junction occludin and ZO-1 expression in IPEC-J2. International Journal of Molecular Sciences 15(2): 1915-1926

Marchetti, S.; Sbrana, F.; Toscano, A.; Fratini, E.; Carlà, M.; Vassalli, M.; Tiribilli, B.; Pacini, A.; Gambi, C.M.C. 2011: β-Connectin studies by small-angle x-ray scattering and single-molecule force spectroscopy by atomic force microscopy. Physical Review. e Statistical Nonlinear and Soft Matter Physics 83(5 Part 1): 051919

Kobori, M.; Ni, Y.; Takahashi, Y.; Watanabe, N.; Sugiura, M.; Ogawa, K.; Nagashimada, M.; Kaneko, S.; Naito, S.; Ota, T. 2014: β-Cryptoxanthin alleviates diet-induced nonalcoholic steatohepatitis by suppressing inflammatory gene expression in mice. Plos one 9(5): E98294

Liu, Y-Q.; Davis, C.R.; Schmaelzle, S.T.; Rocheford, T.; Cook, M.E.; Tanumihardjo, S.A. 2012: β-Cryptoxanthin biofortified maize (Zea mays) increases β-cryptoxanthin concentration and enhances the color of chicken egg yolk. Poultry Science 91(2): 432-438

Granado-Lorencio, F.; de Las Heras, L.; Millán, C.S.; Garcia-López, F.J.; Blanco-Navarro, I.; Pérez-Sacristán, B.; Domínguez, G. 2014: β-Cryptoxanthin modulates the response to phytosterols in post-menopausal women carrying NPC1L1 L272L and ABCG8 A632 V polymorphisms: an exploratory study. Genes and Nutrition 9(5): 428

Liu, C.; Bronson, R.T.; Russell, R.M.; Wang, X-Dong. 2011: β-Cryptoxanthin supplementation prevents cigarette smoke-induced lung inflammation, oxidative damage, and squamous metaplasia in ferrets. Cancer Prevention Research 4(8): 1255-1266

Fu, H.; Wu, C.; Riaz, H.; Zhang, H.; Han, L.; Bai, L.; Yang, F.; Yang, L. 2014: β-Cryptoxanthin uptake in THP-1 macrophages upregulates the CYP27A1 signaling pathway. Molecular Nutrition and Food Research 58(3): 425-436

Burri, B.J.; Chang, J.S.T.; Neidlinger, T.R. 2011: β-Cryptoxanthin- and α-carotene-rich foods have greater apparent bioavailability than β-carotene-rich foods in Western diets. British Journal of Nutrition 105(2): 212-219

Seidel, R.üd.W.; Koleva, B.B. 2009: β-Cyclo-dextrin 10.41-hydrate. Acta Crystallographica. Section e Structure Reports Online 65(Part 12): O3162-O3163

Orce, G.; Castillo, G.; Chanampa, Y. 2011: β-Cyclodextrin and permeability to water in the bladder of Bufo arenarum. Canadian Journal of Physiology and Pharmacology 89(5): 311-315

Arun, K.T.; Jayaram, D.T.; Avirah, R.R.; Ramaiah, D. 2011: β-Cyclodextrin as a photosensitizer carrier: effect on photophysical properties and chemical reactivity of squaraine dyes. Journal of Physical Chemistry. B 115(21): 7122-7128

Ceborska, M.; Szwed, K.; Suwinska, K. 2013: β-Cyclodextrin as the suitable molecular container for isopulegol enantiomers. Carbohydrate Polymers 97(2): 546-550

Jabeen, E.; Janjua, N.K.; Hameed, S. 2014: β-Cyclodextrin assisted solubilization of Cu and Cr complexes of flavonoids in aqueous medium: a DNA-interaction study. Spectrochimica Acta. Part a Molecular and Biomolecular Spectroscopy 128: 191-196

Durán, G.M.; Contento, A.M.; Ríos, Án. 2015: β-Cyclodextrin coated CdSe/ZnS quantum dots for vanillin sensoring in food samples. Talanta 131: 286-291

Cai, K.; Li, J.; Luo, Z.; Hu, Y.; Hou, Y.; Ding, X. 2011: β-Cyclodextrin conjugated magnetic nanoparticles for diazepam removal from blood. Chemical Communications 47(27): 7719-7721

Badruddoza, A.Zayed.Md.; Rahman, M.Taifur.; Ghosh, S.; Hossain, M.Zakir.; Shi, J.; Hidajat, K.; Uddin, M.Shahab. 2013: β-Cyclodextrin conjugated magnetic, fluorescent silica core-shell nanoparticles for biomedical applications. Carbohydrate Polymers 95(1): 449-457

Casas-Solvas, J.M.; Quesada-Soriano, I.; Carreño-Gázquez, D.; Giménez-Martínez, J.J.; García-Fuentes, L.ís.; Vargas-Berenguel, A. 2011: β-Cyclodextrin dimers linked through their secondary faces with rigid spacer arms as hosts for bile salts. Langmuir: the Acs Journal of Surfaces and Colloids 27(16): 9729-9737

Granero-García, R.én.; Fabbiani, F.P.A. 2014: β-Cyclodextrin dimethylformamide 12.5 hydrate: a deeper insight into β-cyclodextrin crystal packing. Acta Crystallographica Section B Structural Science Crystal Engineering and Materials 70(Part 3): 586-594

Grishina, A.; Stanchev, S.; Kumprecht, L.áš; Buděšínský, M.š; Pojarová, M.; Dušek, M.; Rumlová, M.; Křížová, I.; Rulíšek, L.ír.; Kraus, T.áš 2012: β-Cyclodextrin duplexes that are connected through two disulfide bonds: potent hosts for the complexation of organic molecules. Chemistry 18(39): 12292-12304

Li, J.; Bi, Y.; Wang, L.; Sun, F.; Chen, Z.; Xu, G.; Fan, G. 2012: β-Cyclodextrin enhanced on-line organic solvent field-amplified sample stacking in capillary zone electrophoresis for analysis of ambroxol in human plasma, following liquid-liquid extraction in the 96-well format. Journal of Pharmaceutical and Biomedical Analysis 66: 218-224

Jean-Marie, A.; Griboval-Constant, A.; Khodakov, A.Y.; Monflier, E.; Diehl, F. 2011: β-Cyclodextrin for design of alumina supported cobalt catalysts efficient in Fischer-Tropsch synthesis. Chemical Communications 47(38): 10767-10769

Yang, X.; Kim, J.-C. 2011: β-Cyclodextrin grafted polyethyleneimine hydrogel immobilizing hydrophobically modified glucose oxidase. International Journal of Biological Macromolecules 48(4): 661-666

Glisoni, R.J.; García-Fernández, M.ía.J.; Pino, M.ú; Gutkind, G.; Moglioni, A.G.; Alvarez-Lorenzo, C.; Concheiro, A.; Sosnik, A. 2013: β-Cyclodextrin hydrogels for the ocular release of antibacterial thiosemicarbazones. Carbohydrate Polymers 93(2): 449-457

Iacovino, R.; Rapuano, F.; Caso, J.V.; Russo, A.; Lavorgna, M.; Russo, C.; Isidori, M.; Russo, L.; Malgieri, G.; Isernia, C. 2013: β-Cyclodextrin inclusion complex to improve physicochemical properties of pipemidic acid: characterization and bioactivity evaluation. International Journal of Molecular Sciences 14(7): 13022-13041

Zhu, G.; Zhang, X.; Gai, P.; Zhang, X.; Chen, J. 2012: β-Cyclodextrin non-covalently functionalized single-walled carbon nanotubes bridged by 3,4,9,10-perylene tetracarboxylic acid for ultrasensitive electrochemical sensing of 9-anthracenecarboxylic acid. Nanoscale 4(18): 5703-5709

Anand, R.; Manoli, F.; Manet, I.; Daoud-Mahammed, S.; Agostoni, V.; Gref, R.; Monti, S. 2012: β-Cyclodextrin polymer nanoparticles as carriers for doxorubicin and artemisinin: a spectroscopic and photophysical study. Photochemical and Photobiological Sciences: Official Journal of the European Photochemistry Association and the European Society for Photobiology 11(8): 1285-1292

Zhang, X.; Yang, Z.; Li, X.; Deng, N.; Qian, S. 2013: β-Cyclodextrin's orientation onto TiO2 and its paradoxical role in guest's photodegradation. Chemical Communications 49(8): 825-827

Tang, J.; Wang, X.; Wang, X.; Sui, M.; Mao, W.; Shen, Y. 2011: β-Cyclodextrin-based biodegradable dendrimers for drug delivery. Journal of Controlled Release: Official Journal of the Controlled Release Society 152(Suppl 1): E89-E90

Song, C.; Ding, L.; Yao, F.; Deng, J.; Yang, W. 2013: β-Cyclodextrin-based oil-absorbent microspheres: preparation and high oil absorbency. Carbohydrate Polymers 91(1): 217-223

Méndez-Ardoy, A.; Guilloteau, N.; Di Giorgio, C.; Vierling, P.; Santoyo-González, F.; Ortiz Mellet, C.; García Fernández, J.é M. 2011: β-Cyclodextrin-based polycationic amphiphilic "click" clusters: effect of structural modifications in their DNA complexing and delivery properties. Journal of Organic Chemistry 76(15): 5882-5894

Aykaç, A.; Martos-Maldonado, M.C.; Casas-Solvas, J.M.; Quesada-Soriano, I.; García-Maroto, F.; García-Fuentes, Lís.; Vargas-Berenguel, A. 2014: β-Cyclodextrin-bearing gold glyconanoparticles for the development of site specific drug delivery systems. Langmuir: the Acs Journal of Surfaces and Colloids 30(1): 234-242

Di Cagno, M.; Terndrup Nielsen, T.ør.; Lambertsen Larsen, K.; Kuntsche, J.; Bauer-Brandl, A. 2014: β-Cyclodextrin-dextran polymers for the solubilization of poorly soluble drugs. International Journal of Pharmaceutics 468(1-2): 258-263

Iannazzo, D.; Mazzaglia, A.; Scala, A.; Pistone, A.; Galvagno, S.; Lanza, M.; Riccucci, C.; Ingo, G.M.; Colao, I.; Sciortino, M.T.; Valle, F.; Piperno, A.; Grassi, G. 2014: β-Cyclodextrin-grafted on multiwalled carbon nanotubes as versatile nanoplatform for entrapment of guanine-based drugs. Colloids and Surfaces. B Biointerfaces 123: 264-270

Zhu, G.; Gai, P.; Wu, L.; Zhang, J.; Zhang, X.; Chen, J. 2012: β-Cyclodextrin-platinum nanoparticles/graphene nanohybrids: enhanced sensitivity for electrochemical detection of naphthol isomers. Chemistry An Asian Journal 7(4): 732-737

Zhao, M.-X.; Ji, L.-N.; Mao, Z.-W. 2012: β-Cyclodextrin/glycyrrhizic acid functionalised quantum dots selectively enter hepatic cells and induce apoptosis. Chemistry 18(6): 1650-1658

Ahmad Panahi, H.; Alaei, H.Sadat. 2014: β-Cyclodextrin/thermosensitive containing polymer brushes grafted onto magnetite nano-particles for extraction and determination of venlafaxine in biological and pharmaceutical samples. International Journal of Pharmaceutics 476(1-2): 178-184

Durante, M.; Caretto, S.; Quarta, A.; De Paolis, A.; Nisi, R.; Mita, G. 2011: β-Cyclodextrins enhance artemisinin production in Artemisia annua suspension cell cultures. Applied Microbiology and Biotechnology 90(6): 1905-1913

Viana, A.G.; Noseda, M.D.; Gonçalves, A.G.; Duarte, M.E.ên.R.; Yokoya, N.; Matulewicz, M.C.; Cerezo, A.S. 2011: β-D-(1→4), β-D-(1→3) 'mixed linkage' xylans from red seaweeds of the order Nemaliales and Palmariales. Carbohydrate Research 346(8): 1023-1028

Du, J.; Bao, D.; Chun, B.-K.; Jiang, Y.; Reddy, P.G.; Zhang, H.-R.; Ross, B.S.; Bansal, S.; Bao, H.; Espiritu, C.; Lam, A.M.; Murakami, E.; Niu, C.; Micolochick Steuer, H.M.; Furman, P.A.; Otto, M.J.; Sofia, M.J. 2012: β-D-2'-α-F-2'-β-C-Methyl-6-O-substituted 3',5'-cyclic phosphate nucleotide prodrugs as inhibitors of hepatitis C virus replication: a structure-activity relationship study. Bioorganic and Medicinal Chemistry Letters 22(18): 5924-5929

Khodadadi, H.; Mirhendi, H.; Makimura, K.; Satoh, K.; Karimi, L.; Izadi, S. 2014: β-D-Glucan Assay in Diagnosis and Monitoring the Systemic Candidiasis in a Rat Model. Jundishapur Journal of Microbiology 7(6): E10247

Feng, B.; Guo, Y.-W.; Huang, C.-G.; Li, L.; Jiao, B.-H. 2012: β-D-Glucosyl-(1-4)-α-L-thevetosides of 17β-digitoxigenin from seeds of Cerbera manghas L. induces apoptosis in human hepatocellular carcinoma HepG2 cells. Experimental and Toxicologic Pathology: Official Journal of the Gesellschaft für Toxikologische Pathologie 64(5): 403-410

De Boer, M.G.J.; Gelinck, L.B.S.; van Zelst, B.D.; van de Sande, W.W.J.; Willems, L.N.A.; van Dissel, J.T.; de Jonge, R.; Kroon, F.P. 2011: β-D-glucan and S-adenosylmethionine serum levels for the diagnosis of Pneumocystis pneumonia in HIV-negative patients: a prospective study. Journal of Infection 62(1): 93-100

Karageorgopoulos, D.E.; Vouloumanou, E.K.; Ntziora, F.; Michalopoulos, A.; Rafailidis, P.I.; Falagas, M.E. 2011: β-D-glucan assay for the diagnosis of invasive fungal infections: a meta-analysis. Clinical Infectious Diseases: An Official Publication of the Infectious Diseases Society of America 52(6): 750-770

Jafaar, Z.M.T.; Litchfield, L.M.; Ivanova, M.M.; Radde, B.N.; Al-Rayyan, N.; Klinge, C.M. 2014: β-D-glucan inhibits endocrine-resistant breast cancer cell proliferation and alters gene expression. International Journal of Oncology 44(4): 1365-1375

Hanson, K.E.; Pfeiffer, C.D.; Lease, E.D.; Balch, A.H.; Zaas, A.K.; Perfect, J.R.; Alexander, B.D. 2012: β-D-glucan surveillance with preemptive anidulafungin for invasive candidiasis in intensive care unit patients: a randomized pilot study. Plos one 7(8): E42282

Theel, E.S.; Doern, C.D. 2013: β-D-glucan testing is important for diagnosis of invasive fungal infections. Journal of Clinical Microbiology 51(11): 3478-3483

Lienart, Y.; Barnoud, F. 1985: β-D-glucan-hydrolase activities in pure cell-wall-enriched fractions from Valerianella olitoria cells. Planta 165(1): 68-75

Koehler, F.M.; Raso, R.A.; Grass, R.N.; Stark, W.J. 2013: β-D-glucosidase assisted gold dissolution as non-optical and quantifiable detection technique for immunoassays. Small 9(23): 4000-4005

Lopopolo, G.; de Candia, M.; Panza, L.; Romano, M.R.; Lograno, M.D.; Campagna, F.; Altomare, C. 2012: β-D-glucosyl conjugates of highly potent inhibitors of blood coagulation factor Xa bearing 2-chorothiophene as a P1 motif. Chemmedchem 7(9): 1669-1677

Weinstein, T.; Evron, Z.; Trebicz-Geffen, M.; Aviv, M.; Robinson, D.; Kollander, Y.; Nevo, Z. 2012: β-D-xylosides stimulate GAG synthesis in chondrocyte cultures due to elevation of the extracellular GAG domains, accompanied by the depletion of the intra-pericellular GAG pools, with alterations in the GAG profiles. Connective Tissue Research 53(2): 169-179

Xu, Z.Y.; Nishimura, S.; Lorusso, G.; Browne, F.; Doornenbal, P.; Gey, G.; Jung, H.-S.; Li, Z.; Niikura, M.; Söderström, P.-A.; Sumikama, T.; Taprogge, J.; Vajta, Z.; Watanabe, H.; Wu, J.; Yagi, A.; Yoshinaga, K.; Baba, H.; Franchoo, S.; Isobe, T.; John, P.R.; Kojouharov, I.; Kubono, S.; Kurz, N.; Matea, I.; Matsui, K.; Mengoni, D.; Morfouace, P.; Napoli, D.R.; Naqvi, F.; Nishibata, H.; Odahara, A.; Sahin, E.; Sakurai, H.; Schaffner, H.; Stefan, I.G.; Suzuki, D.; Taniuchi, R.; Werner, V. 2014: β-Decay half-lives of 76,77Co, 79,80Ni, and 81Cu: experimental indication of a doubly magic 78Ni. Physical Review Letters 113(3): 032505

Carter, J.G.; West, S.K.; Painter, S.; Haynes, R.J.; Churchill, A.J. 2010: β-Defensin 1 haplotype associated with postoperative endophthalmitis. Acta Ophthalmologica 88(7): 786-790

Tewary, P.; de la Rosa, G.; Sharma, N.; Rodriguez, L.G.; Tarasov, S.G.; Howard, O.M.Z.; Shirota, H.; Steinhagen, F.; Klinman, D.M.; Yang, D.; Oppenheim, J.J. 2013: β-Defensin 2 and 3 promote the uptake of self or CpG DNA, enhance IFN-α production by human plasmacytoid dendritic cells, and promote inflammation. Journal of Immunology 191(2): 865-874

Vittori, A.; Orth, M.; Roos, R.A.C.; Outeiro, T.F.; Giorgini, F.; Hollox, E.J.; Bachoud-Levi, A.-C.; Bentivoglio, A.R.; Biunno, I.; Bonelli, R.M.; Burgunder, J.-M.; Dunnett, S.B.; Ferreira, J.J.; Handley, O.J.; Heiberg, A.; Illmann, T.; Landwehrmeyer, G.B.; Levey, J.; Martinez-Jaurrieta, M.D.; Nielsen, J.E.; Pro Koivisto, S.; Piiiviirinta, M.; Roos, R.A.C.; Sebastian, A.R.; Tabrizi, S.J.; Vandenberghe, W.; Verellen-Dumoulin, C.; Zaremba, J.; Uhrova, T.; Wahlstrom, J.; Barth, K.; Correia-Guedes, L.; Finisterra, A.-M.; Bascuiiana Garde, M.; Betz, S.; Bos, R.; Ecker, D.; Handley, O.J.; Held, C.; Koppers, K.; Laura, M.; Descals, A.M.; Mestre, T.; Monza, D.; Townhill, J.; Padieu, H.; Paterski, L.; Peppa, N.; Rialland, A.; Røren, N.; Sasinkova,; 2013: β-Defensin genomic copy number does not influence the age of onset in Huntington's Disease. Journal of Huntington's Disease 2(1): 107-124

Subramanian, H.; Gupta, K.; Lee, D.; Bayir, A.K.; Ahn, H.; Ali, H. 2013: β-Defensins activate human mast cells via Mas-related gene X2. Journal of Immunology 191(1): 345-352

Semple, F.; Dorin, J.R. 2012: β-Defensins: multifunctional modulators of infection, inflammation and more?. Journal of Innate Immunity 4(4): 337-348

Correa, D.; Almirall, A.; García-Carrodeguas, R.úl.; dos Santos, L.A.; De Aza, A.H.; Parra, J.; Delgado, J.é Án. 2014: β-Dicalcium silicate-based cement: synthesis, characterization and in vitro bioactivity and biocompatibility studies. Journal of Biomedical Materials Research. Part a 102(10): 3693-3703

Zhao, N.; Zhang, J.; Yang, Y.; Zhu, H.; Li, Y.; Fu, G. 2012: β-Diketiminate germylene-supported pentafluorophenylcopper(I) and -silver(I) complexes [LGe(Me)(CuC6F5)n]2 (n = 1, 2), LGe[C(SiMe3)N2]AgC6F5, and {LGe[C(SiMe3)N2](AgC6F5)2}2 (L = HC[C(Me)N-2,6-iPr2C6H3]2): synthesis and structural characterization. Inorganic Chemistry 51(16): 8710-8718

López-Martínez, J.O.; Sanaphre-Villanueva, L.ía.; Dupuy, J.M.; Hernández-Stefanoni, J.é L.; Meave, J.A.; Gallardo-Cruz, J.é A. 2013: β-Diversity of functional groups of woody plants in a tropical dry forest in Yucatan. Plos one 8(9): E73660

Zhang, X.; Xu, X.; Xu, T.; Qin, S. 2014: β-Ecdysterone suppresses interleukin-1β-induced apoptosis and inflammation in rat chondrocytes via inhibition of NF-κB signaling pathway. Drug Development Research 75(3): 195-201

Li, J.; JunYu; Liu, A.; Wang, Y. 2014: β-Elemene against human lung cancer via up-regulation of P53 protein expression to promote the release of exosome. Lung Cancer 86(2): 144-150

Zou, B.; Li, Q.Quentin.; Zhao, J.; Li, J.M.; Cuff, C.F.; Reed, E. 2013: β-Elemene and taxanes synergistically induce cytotoxicity and inhibit proliferation in ovarian cancer and other tumor cells. Anticancer Research 33(3): 929-940

Li, Q.Q.; Lee, R.X.; Liang, H.; Wang, G.; Li, J.M.; Zhong, Y.; Reed, E. 2013: β-Elemene enhances susceptibility to cisplatin in resistant ovarian carcinoma cells via downregulation of ERCC-1 and XIAP and inactivation of JNK. International Journal of Oncology 43(3): 721-728

Zhan, Y.-H.; Liu, J.; Qu, X.-J.; Hou, K.-Z.; Wang, K.-F.; Liu, Y.-P.; Wu, B. 2012: β-Elemene induces apoptosis in human renal-cell carcinoma 786-0 cells through inhibition of MAPK/ERK and PI3K/Akt/ mTOR signalling pathways. Asian Pacific Journal of Cancer Prevention: Apjcp 13(6): 2739-2744

Zhu, T.-Z.; Li, X.-M.; Luo, L.-H.; Xu, Y.-H.; Cao, P.; Liu, Y.; Liang, G.-B. 2014: β-Elemene inhibits proliferation through crosstalk between glia maturation factor β and extracellular signal‑regulated kinase 1/2 and impairs drug resistance to temozolomide in glioblastoma cells. Molecular Medicine Reports 10(2): 1122-1128

Shi, H.; Liu, L.; Liu, L.; Geng, J.; Zhou, Y.; Chen, L. 2014: β-Elemene inhibits the metastasis of B16F10 melanoma cells by downregulation of the expression of uPA, uPAR, MMP-2, and MMP-9. Melanoma Research 24(2): 99-107

Yu, Z.; Wang, R.; Xu, L.; Xie, S.; Dong, J.; Jing, Y. 2011: β-Elemene piperazine derivatives induce apoptosis in human leukemia cells through downregulation of c-FLIP and generation of ROS. Plos one 6(1): E15843

Li, Q.Q.; Wang, G.; Liang, H.; Li, J.M.; Huang, F.; Agarwal, P.K.; Zhong, Y.; Reed, E. 2013: β-Elemene promotes cisplatin-induced cell death in human bladder cancer and other carcinomas. Anticancer Research 33(4): 1421-1428

Li, L.-J.; Zhong, L.-F.; Jiang, L.-P.; Geng, C.-Y.; Zou, L.-J. 2011: β-Elemene radiosensitizes lung cancer A549 cells by enhancing DNA damage and inhibiting DNA repair. PhytoTherapy Research: Ptr 25(7): 1095-1097

Guo, H.-Q.; Zhang, G.-N.; Wang, Y.-J.; Zhang, Y.-K.; Sodani, K.; Talele, T.T.; Ashby, C.R.; Chen, Z.-S. 2014: β-Elemene, a compound derived from Rhizoma zedoariae, reverses multidrug resistance mediated by the ABCB1 transporter. Oncology Reports 31(2): 858-866

Liu, J.; Zhang, Y.; Qu, J.; Xu, L.; Hou, K.; Zhang, J.; Qu, X.; Liu, Y. 2011: β-Elemene-induced autophagy protects human gastric cancer cells from undergoing apoptosis. Bmc Cancer 11: 183

Morgan, K.M.; Brown, G.; Pichon, M.A.; Green, G.Y. 2011: β-Elimination of an Aziridine to an Allylic Amine: a Mechanistic Study. Journal of Physical Organic Chemistry 24(12): 1144-1150

Schneider, E.L.; Robinson, L.; Reid, R.; Ashley, G.W.; Santi, D.V. 2013: β-Eliminative releasable linkers adapted for bioconjugation of macromolecules to phenols. Bioconjugate Chemistry 24(12): 1990-1997

Dutia, R.; Meece, K.; Dighe, S.; Kim, A.J.; Wardlaw, S.L. 2012: β-Endorphin antagonizes the effects of α-MSH on food intake and body weight. Endocrinology 153(9): 4246-4255

Kumar, S.; Ghorai, S.M.; Rai, U. 2011: β-Endorphin inhibits phagocytic activity of lizard splenic phagocytes through μ receptor-coupled adenylate cyclase-protein kinase a signaling pathway. General and Comparative Endocrinology 171(3): 301-308

Caeiro, X.E.; Godino, A.; Vivas, L. 2011: β-Endorphinergic system involvement in the inhibitory action of clonidine on induced sodium appetite. Regulatory Peptides 167(2-3): 222-226

Patlolla, J.M.R.; Qian, L.; Biddick, L.; Zhang, Y.; Desai, D.; Amin, S.; Lightfoot, S.; Rao, C.V. 2013: β-Escin inhibits NNK-induced lung adenocarcinoma and ALDH1A1 and RhoA/Rock expression in A/J mice and growth of H460 human lung cancer cells. Cancer Prevention Research 6(10): 1140-1149

Ji, D.B.; Xu, B.; Liu, J.T.; Ran, F.X.; Cui, J.R. 2011: β-Escin sodium inhibits inducible nitric oxide synthase expression via downregulation of the JAK/STAT pathway in A549 cells. Molecular Carcinogenesis 50(12): 945-960

Nebieridze, N.; Zhang, X.-L.; Chachua, T.; Velíšek, L.; Stanton, P.K.; Velíšková, J. 2012: β-Estradiol unmasks metabotropic receptor-mediated metaplasticity of NMDA receptor transmission in the female rat dentate gyrus. Psychoneuroendocrinology 37(11): 1845-1854

Coughlan, N.; Thillainadesan, G.; Andrews, J.; Isovic, M.; Torchia, J. 2013: β-Estradiol-dependent activation of the JAK/STAT pathway requires p/CIP and CARM1. Biochimica et Biophysica Acta 1833(6): 1463-1475

Li, Y.; Li, T.; Miao, C.; Li, J.; Xiao, W.; Ma, E. 2013: β-Eudesmol induces JNK-dependent apoptosis through the mitochondrial pathway in HL60 cells. PhytoTherapy Research: Ptr 27(3): 338-343

Barreca, D.; Carraro, G.; Devi, A.; Fois, E.; Gasparotto, A.; Seraglia, R.; Maccato, C.; Sada, C.; Tabacchi, G.; Tondello, E.; Venzo, A.; Winter, M. 2012: β-Fe2O3 nanomaterials from an iron(II) diketonate-diamine complex: a study from molecular precursor to growth process. Dalton Transactions 41(1): 149-155

Jung, J.; Song, K.; Bae, D.R.; Lee, S.W.; Lee, G.; Kang, Y.-M. 2013: β-FeOOH nanorod bundles with highly enhanced round-trip efficiency and extremely low overpotential for lithium-air batteries. Nanoscale 5(23): 11845-11849

Marque, S.R.A.; Siri, D. 2012: β-Fragmentation of tertiary alkoxyl radicals: G3(MP2)-RAD and natural bond orbital investigations. Chemphyschem: a European Journal of Chemical Physics and Physical Chemistry 13(3): 703-707

Jin, Z.; Chen, S.; Wang, Y.; Zheng, P.; Yang, S.; Chi, Y.R. 2014: β-Functionalization of carboxylic anhydrides with β-alkyl substituents through carbene organocatalysis. Angewandte Chemie 53(49): 13506-13509

Arena, F.; Singh, J.Bhagavath.; Gianolio, E.; Stefanìa, R.; Aime, S. 2011: β-Gal gene expression MRI reporter in melanoma tumor cells. Design, synthesis, and in vitro and in vivo testing of a Gd(III) containing probe forming a high relaxivity, melanin-like structure upon β-Gal enzymatic activation. Bioconjugate Chemistry 22(12): 2625-2635

Calixto, R.; Mattos, B.; Bittencourt, V.; Lopes, L.ív.; Souza, L.; Sassaki, G.; Cipriani, T.; Silva, M.; Barreto-Bergter, E. 2010: β-Galactofuranose-containing structures present in the cell wall of the saprophytic fungus Cladosporium (Hormoconis) resinae. Research in Microbiology 161(8): 720-728

Badia, R.; Brufau, M.T.; Guerrero-Zamora, A.M.; Lizardo, R.; Dobrescu, I.; Martin-Venegas, R.; Ferrer, R.; Salmon, H.; Martínez, P.; Brufau, J. 2012: β-Galactomannan and Saccharomyces cerevisiae var. boulardii modulate the immune response against Salmonella enterica serovar Typhimurium in porcine intestinal epithelial and dendritic cells. Clinical and Vaccine Immunology: Cvi 19(3): 368-376

Sterer, N.; Shaharabany, M.; Rosenberg, M. 2009: β-Galactosidase activity and H(2)S production in an experimental oral biofilm. Journal of Breath Research 3(1): 016006

Pinto, P.C.A.G.; Costa, S.P.F.; Lima, J.é L.F.C.; Saraiva, M.L.úc.M.F.S. 2012: β-Galactosidase activity in mixed micelles of imidazolium ionic liquids and sodium dodecylsulfate: a sequential injection kinetic study. Talanta 96: 26-33

Kamiya, M.; Asanuma, D.; Kuranaga, E.; Takeishi, A.; Sakabe, M.; Miura, M.; Nagano, T.; Urano, Y. 2011: β-Galactosidase fluorescence probe with improved cellular accumulation based on a spirocyclized rhodol scaffold. Journal of the American Chemical Society 133(33): 12960-12963

Song, C.; Chi, Z.; Li, J.; Wang, X. 2010: β-Galactosidase production by the psychrotolerant yeast Guehomyces pullulans 17-1 isolated from sea sediment in Antarctica and lactose hydrolysis. Bioprocess and Biosystems Engineering 33(9): 1025-1031

Cooper, M.A.; Zhou, R. 2013: β-Galactosidase staining of lacZ fusion proteins in whole tissue preparations. Methods in Molecular Biology 1018: 189-197

Uto, Y.; Yamamoto, S.; Mukai, H.; Ishiyama, N.; Takeuchi, R.; Nakagawa, Y.; Hirota, K.; Terada, H.; Onizuka, S.; Hori, H. 2012: β-Galactosidase treatment is a common first-stage modification of the three major subtypes of Gc protein to GcMAF. Anticancer Research 32(6): 2359-2364

Liu, G.X.; Kong, J.; Lu, W.W.; Kong, W.T.; Tian, H.; Tian, X.Y.; Huo, G.C. 2011: β-Galactosidase with transgalactosylation activity from Lactobacillus fermentum K4. Journal of Dairy Science 94(12): 5811-5820

Hossain, S.M.Zakir.; Brennan, J.D. 2011: β-Galactosidase-based colorimetric paper sensor for determination of heavy metals. Analytical Chemistry 83(22): 8772-8778

Zhao, F.; Weitzel, C.S.; Gao, Y.; Browdy, H.M.; Shi, J.; Lin, H.-C.; Lovett, S.T.; Xu, B. 2011: β-Galactosidase-instructed formation of molecular nanofibers and a hydrogel. Nanoscale 3(7): 2859-2861

Lu, J.; Isaji, T.; Im, S.; Fukuda, T.; Hashii, N.; Takakura, D.; Kawasaki, N.; Gu, J. 2014: β-Galactoside α2,6-sialyltranferase 1 promotes transforming growth factor-β-mediated epithelial-mesenchymal transition. Journal of Biological Chemistry 289(50): 34627-34641

Moore, T.; Bernstein, J.A.; Casson-Parkin, S.; Cowan, T.M. 2013: β-Galactosidosis in Patient with Intermediate GM1 and MBD Phenotype. Jimd Reports 7: 77-79

Guvenc, B.; Canataroglu, A.; Unsal, C.; Yildiz, S.M.; Turhan, F.T.; Bozdogan, S.T.; Dincer, S.; Erkman, H. 2012: β-Globin chain abnormalities with coexisting α-thalassemia mutations. Archives of Medical Science: Ams 8(4): 644-649

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Racsa, L.D.; Luu, H.S.; Park, J.Y.; Mitui, M.; Timmons, C.F. 2014: β-Globin gene sequencing of hemoglobin Austin revises the historically reported electrophoretic migration pattern. Archives of Pathology and Laboratory Medicine 138(6): 819-822

Sjeklocha, L.M.; Wong, P.Y.-P.; Belcher, J.D.; Vercellotti, G.M.; Steer, C.J. 2013: β-Globin sleeping beauty transposon reduces red blood cell sickling in a patient-derived CD34(+)-based in vitro model. Plos one 8(11): E80403

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Wang, S.; Zhou, H.; Feng, T.; Wu, R.; Sun, X.; Guan, N.; Qu, L.; Gao, Z.; Yan, J.; Xu, N.; Zhao, J.; Qi, C. 2014: β-Glucan attenuates inflammatory responses in oxidized LDL-induced THP-1 cells via the p38 MAPK pathway. Nutrition Metabolism and Cardiovascular Diseases: Nmcd 24(3): 248-255

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Muramatsu, D.; Iwai, A.; Aoki, S.; Uchiyama, H.; Kawata, K.; Nakayama, Y.; Nikawa, Y.; Kusano, K.; Okabe, M.; Miyazaki, T. 2012: β-Glucan derived from Aureobasidium pullulans is effective for the prevention of influenza in mice. Plos one 7(7): E41399

Tian, J.; Ma, J.; Ma, K.; Guo, H.; Baidoo, S.E.; Zhang, Y.; Yan, J.; Lu, L.; Xu, H.; Wang, S. 2013: β-Glucan enhances antitumor immune responses by regulating differentiation and function of monocytic myeloid-derived suppressor cells. European Journal of Immunology 43(5): 1220-1230

Xu, X.; Yasuda, M.; Nakamura-Tsuruta, S.; Mizuno, M.; Ashida, H. 2012: β-Glucan from Lentinus edodes inhibits nitric oxide and tumor necrosis factor-α production and phosphorylation of mitogen-activated protein kinases in lipopolysaccharide-stimulated murine RAW 264.7 macrophages. Journal of Biological Chemistry 287(2): 871-878

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De Smet, R.; Demoor, T.; Verschuere, S.; Dullaers, M.; Ostroff, G.R.; Leclercq, G.; Allais, L.; Pilette, C.; Dierendonck, M.; De Geest, B.G.; Cuvelier, C.A. 2013: β-Glucan microparticles are good candidates for mucosal antigen delivery in oral vaccination. Journal of Controlled Release: Official Journal of the Controlled Release Society 172(3): 671-678

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Gulmen, S.; Kiris, I.; Kocyigit, A.; Dogus, D.K.; Ceylan, B.G.; Meteoglu, I. 2010: β-Glucan protects against lung injury induced by abdominal aortic ischemia-reperfusion in rats. Journal of Surgical Research 164(2): E325-E332

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Falco, A.; Miest, J.J.; Pionnier, N.; Pietretti, D.; Forlenza, M.; Wiegertjes, G.F.; Hoole, D. 2014: β-Glucan-supplemented diets increase poly(I:C)-induced gene expression of Mx, possibly via Tlr3-mediated recognition mechanism in common carp (Cyprinus carpio). Fish and Shellfish Immunology 36(2): 494-502

Guan, L.-z.; Sun, Y.-p.; Xi, Q.-y.; Wang, J.-l.; Zhou, J.-y.; Shu, G.; Jiang, Q.-y.; Zhang, Y.-l. 2013: β-Glucanase specific expression in the parotid gland of transgenic mice. Transgenic Research 22(4): 805-812

Buchala, A.J.; Meier, H. 1973: β-Glucanases and non-cellulosic glucans in the developing oat plant. Planta 111(3): 245-252

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Zamioudis, C.; Hanson, J.; Pieterse, C.é M.J. 2014: β-Glucosidase BGLU42 is a MYB72-dependent key regulator of rhizobacteria-induced systemic resistance and modulates iron deficiency responses in Arabidopsis roots. New Phytologist 204(2): 368-379

Michlmayr, H.; Kneifel, W. 2014: β-Glucosidase activities of lactic acid bacteria: mechanisms, impact on fermented food and human health. Fems Microbiology Letters 352(1): 1-10

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Xia, Q.; Wen, Y.-J.; Wang, H.; Li, Y.-F.; Xu, H.-H. 2014: β-Glucosidase involvement in the bioactivation of glycosyl conjugates in plants: synthesis and metabolism of four glycosidic bond conjugates in vitro and in vivo. Journal of Agricultural and Food Chemistry 62(46): 11037-11046

Gutierrez-Rosales, F.; Romero, M.ía.P.; Casanovas, M.ía.; Motilva, M.ía.J.é; Mínguez-Mosquera, M.ía.I. 2012: β-Glucosidase involvement in the formation and transformation of oleuropein during the growth and development of olive fruits (Olea europaea L. cv. Arbequina) grown under different farming practices. Journal of Agricultural and Food Chemistry 60(17): 4348-4358

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Sakurama, H.; Kishino, S.; Uchibori, Y.; Yonejima, Y.; Ashida, H.; Kita, K.; Takahashi, S.; Ogawa, J. 2014: β-Glucuronidase from Lactobacillus brevis useful for baicalin hydrolysis belongs to glycoside hydrolase family 30. Applied Microbiology and Biotechnology 98(9): 4021-4032

Kameyama, M.; Yabata, J.; Nomura, Y.; Tominaga, K. 2013: β-Glucuronidase-negative enterohemorrhagic Escherichia coli O26 infections associated with a calf. Japanese Journal of Infectious Diseases 66(5): 458-459

Tranoy-Opalinski, I.; Legigan, T.; Barat, R.; Clarhaut, J.; Thomas, Mël.; Renoux, B.; Papot, Sébastien. 2014: β-Glucuronidase-responsive prodrugs for selective cancer chemotherapy: an update. European Journal of Medicinal Chemistry 74: 302-313

Quadrelli, C.; Barozzi, P.; Riva, G.; Vallerini, D.; Zanetti, E.; Potenza, L.; Forghieri, F.; Luppi, M. 2011: β-HHVs and HHV-8 in Lymphoproliferative Disorders. Mediterranean Journal of Hematology and Infectious Diseases 3(1): E2011043

Martin-Marcos, P.; Nanda, J.; Luna, R.E.; Wagner, G.; Lorsch, J.R.; Hinnebusch, A.G. 2013: β-Hairpin loop of eukaryotic initiation factor 1 (eIF1) mediates 40 S ribosome binding to regulate initiator tRNA(Met) recruitment and accuracy of AUG selection in vivo. Journal of Biological Chemistry 288(38): 27546-27562

Mahajan, M.; Bhattacharjya, S. 2013: β-Hairpin peptides: heme binding, catalysis, and structure in detergent micelles. Angewandte Chemie 52(25): 6430-6434

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Kulkarni, R.; Randis, T.M.; Antala, S.; Wang, A.; Amaral, F.áb.E.; Ratner, A.J. 2013: β-Hemolysin/cytolysin of Group B Streptococcus enhances host inflammation but is dispensable for establishment of urinary tract infection. Plos one 8(3): E59091

Khobta, N.; Tomasini, P.; Garcia, M.-E.; Garcia, S.ép.; Barlesi, F. 2012: β-Human chorionic gonadotropin (HCG) dosage and lung cancer: a pitfall when screening patients for clinical trials. Bulletin du Cancer 99(11): 1065-1068

Kudavalli, J.S.; More O'Ferrall, R.A. 2010: β-Hydroxy carbocation intermediates in solvolyses of di- and tetra-hydronaphthalene substrates. Beilstein Journal of Organic Chemistry 6: 1035-1042

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Dedkova, L.M.; Fahmi, N.Eddine.; Paul, R.; del Rosario, M.; Zhang, L.; Chen, S.; Feder, G.; Hecht, S.M. 2012: β-Puromycin selection of modified ribosomes for in vitro incorporation of β-amino acids. Biochemistry 51(1): 401-415

Mandoj, F.; Nardis, S.; Pudi, R.; Lvova, L.; Fronczek, F.R.; Smith, K.M.; Prodi, L.; Genovese, D.; Paolesse, R. 2013: β-Pyrazino-fused tetrarylporphyrins. Dyes and Pigments: An International Journal 99(1)

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Zhao, X-jing.; Pen, Z.; Li, P.; Chen, E-xiu.; Liu, J.; Gao, Y-xia.; Ren, Y-xia.; Li, L-jun. 2013: β-Receptor blocker influences return of spontaneous circulation and chemical examination in rats during cardiopulmonary resuscitation. Journal of Zhejiang University. Science. B 14(6): 505-510

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Cai, Y.; Xiong, K.; Zhang, X.-M.; Cai, H.; Luo, X.-G.; Feng, J.-C.; Clough, R.W.; Struble, R.G.; Patrylo, P.R.; Chu, Y.; Kordower, J.H.; Yan, X.-X. 2010: β-Secretase-1 elevation in aged monkey and Alzheimer's disease human cerebral cortex occurs around the vasculature in partnership with multisystem axon terminal pathogenesis and β-amyloid accumulation. European Journal of Neuroscience 32(7): 1223-1238

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Kreslavsky, T.; Gleimer, M.; Miyazaki, M.; Choi, Y.; Gagnon, E.; Murre, C.; Sicinski, P.; von Boehmer, H. 2012: β-Selection-induced proliferation is required for αβ T cell differentiation. Immunity 37(5): 840-853

Ueda, K.; Amaike, K.; Maceiczyk, R.M.; Itami, K.; Yamaguchi, J. 2014: β-Selective C-H arylation of pyrroles leading to concise syntheses of lamellarins C and i. Journal of the American Chemical Society 136(38): 13226-13232

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Heuckendorff, M.; Bendix, J.; Pedersen, C.M.; Bols, M. 2014: β-Selective mannosylation with a 4,6-silylene-tethered thiomannosyl donor. Organic Letters 16(4): 1116-1119

Motoyama, K.; Kojima, K.; Hayashi, M.; Kato, K.; Inokuchi, M.; Sugihara, K. 2014: β-Shaped intracorporeal Roux-en-Y reconstruction after totally laparoscopic distal gastrectomy. Gastric Cancer: Official Journal of the International Gastric Cancer Association and the Japanese Gastric Cancer Association 17(3): 588-593

Shu, I.; Stewart, J.M.; Scian, M.; Kier, B.L.; Andersen, N.H. 2011: β-Sheet 13C structuring shifts appear only at the H-bonded sites of hairpins. Journal of the American Chemical Society 133(5): 1196-1199

Daebel, V.; Chinnathambi, S.; Biernat, J.; Schwalbe, M.; Habenstein, B.; Loquet, A.; Akoury, E.; Tepper, K.; Müller, H.; Baldus, M.; Griesinger, C.; Zweckstetter, M.; Mandelkow, E.; Vijayan, V.; Lange, A. 2012: β-Sheet core of tau paired helical filaments revealed by solid-state NMR. Journal of the American Chemical Society 134(34): 13982-13989

Addison, J.B.; Ashton, N.N.; Weber, W.S.; Stewart, R.J.; Holland, G.P.; Yarger, J.L. 2013: β-Sheet nanocrystalline domains formed from phosphorylated serine-rich motifs in caddisfly larval silk: a solid state NMR and XRD study. Biomacromolecules 14(4): 1140-1148

Wagner, N.; Rubinov, B.; Ashkenasy, G. 2011: β-Sheet-induced chirogenesis in polymerization of oligopeptides. Chemphyschem: a European Journal of Chemical Physics and Physical Chemistry 12(15): 2771-2780

Huang, J.; Huang, Z.; Liu, Y.; Fang, M.; Chen, K.; Huang, Y.; Huang, S.; Ji, H.; Yang, J.; Wu, X.; Zhang, S. 2014: β-Sialon nanowires, nanobelts and hierarchical nanostructures: morphology control, growth mechanism and cathodoluminescence properties. Nanoscale 6(1): 424-432

Saadi, J.; Yamamoto, H. 2013: β-Siloxy-α-haloketones through highly diastereoselective single and double mukaiyama aldol reactions. Chemistry 19(12): 3842-3845

Jung, Y.-G.; Kang, H.-U.; Cho, H.-K.; Cho, C.-G. 2011: β-Silyl styrene as a dienophile in the cycloaddition with 3,5-dibromo-2-pyrone for the total synthesis of (±)-pancratistatin. Organic Letters 13(21): 5890-5892

Huth, T.; Rittger, A.; Saftig, P.; Alzheimer, C. 2011: β-Site APP-cleaving enzyme 1 (BACE1) cleaves cerebellar Na+ channel β4-subunit and promotes Purkinje cell firing by slowing the decay of resurgent Na+ current. Pflugers Archiv: European Journal of Physiology 461(3): 355-371

Hitt, B.; Riordan, S.M.; Kukreja, L.; Eimer, W.A.; Rajapaksha, T.W.; Vassar, R. 2012: β-Site amyloid precursor protein (APP)-cleaving enzyme 1 (BACE1)-deficient mice exhibit a close homolog of L1 (CHL1) loss-of-function phenotype involving axon guidance defects. Journal of Biological Chemistry 287(46): 38408-38425

Park, H.Y.; Toume, K.; Arai, M.A.; Koyano, T.; Kowithayakorn, T.; Ishibashi, M. 2014: β-Sitosterol and flavonoids isolated from Bauhinia malabarica found during screening for Wnt signaling inhibitory activity. Journal of Natural Medicines 68(1): 242-245

Kim, K.-A.; Lee, I.-A.; Gu, W.; Hyam, S.R.; Kim, D.-H. 2014: β-Sitosterol attenuates high-fat diet-induced intestinal inflammation in mice by inhibiting the binding of lipopolysaccharide to toll-like receptor 4 in the NF-κB pathway. Molecular Nutrition and Food Research 58(5): 963-972

Valerio, M.; Awad, A.B. 2011: β-Sitosterol down-regulates some pro-inflammatory signal transduction pathways by increasing the activity of tyrosine phosphatase SHP-1 in J774A.1 murine macrophages. International Immunopharmacology 11(8): 1012-1017

Wong, H.S.; Chen, N.; Leong, P.K.; Ko, K.M. 2014: β-Sitosterol enhances cellular glutathione redox cycling by reactive oxygen species generated from mitochondrial respiration: protection against oxidant injury in H9c2 cells and rat hearts. PhytoTherapy Research: Ptr 28(7): 999-1006

Vundru, S.S.; Kale, R.K.; Singh, R.P. 2013: β-Sitosterol induces G1 arrest and causes depolarization of mitochondrial membrane potential in breast carcinoma MDA-MB-231 cells. Bmc Complementary and Alternative Medicine 13: 280

Chien, M.-H.; Lee, T.-S.; Liang, Y.-C.; Lee, W.-S. 2010: β-Sitosterol inhibits cell cycle progression of rat aortic smooth muscle cells through increases of p21cip1 protein. Journal of Agricultural and Food Chemistry 58(18): 10064-10069

Valerio, M.S.; Minderman, H.; Mace, T.; Awad, A.B. 2013: β-Sitosterol modulates TLR4 receptor expression and intracellular MyD88-dependent pathway activation in J774A.1 murine macrophages. Cellular Immunology 285(1-2): 76-83

Yang, C.; Chen, Z.Y.; Wong, S.L.; Liu, J.; Liang, Y.T.; Lau, C.W.; Lee, H.K.; Huang, Y.; Tsang, S.Y. 2013: β-Sitosterol oxidation products attenuate vasorelaxation by increasing reactive oxygen species and cyclooxygenase-2. Cardiovascular Research 97(3): 520-532

Sajfrtová, M.; Licková, I.; Wimmerová, M.; Sovová, H.; Wimmer, Z. 2010: β-Sitosterol: supercritical carbon dioxide extraction from sea buckthorn (Hippophae rhamnoides L.) seeds. International Journal of Molecular Sciences 11(4): 1842-1850

Horie, S.; Okuda, C.; Yamashita, T.; Watanabe, K.; Sato, Y.; Yamaguchi, Y.; Takeuchi, T.; Sugawara, F.; Yoshida, H.; Mizushina, Y. 2010: β-Sitosteryl (6'-O-linoleoyl)-glucoside of soybean (Glycine max L.) crude extract inhibits Y-family DNA polymerases. Journal of Oleo Science 59(11): 621-630

Li, T.; Tikad, A.; Pan, W.; Vincent, S.ép.P. 2014: β-Stereoselective phosphorylations applied to the synthesis of ADP- and polyprenyl-β-mannopyranosides. Organic Letters 16(21): 5628-5631

Sharma, R.; Gautam, P.; Mobin, S.M.; Misra, R. 2013: β-Substituted ferrocenyl porphyrins: synthesis, structure, and properties. Dalton Transactions 42(15): 5539-5545

Oakhill, J.S.; Chen, Z.-P.; Scott, J.W.; Steel, R.; Castelli, L.A.; Ling, N.; Macaulay, S.L.; Kemp, B.E. 2010: β-Subunit myristoylation is the gatekeeper for initiating metabolic stress sensing by AMP-activated protein kinase (AMPK). Proceedings of the National Academy of Sciences of the United States of America 107(45): 19237-19241

Christian, W.V.; Li, N.; Hinkle, P.M.; Ballatori, N. 2012: β-Subunit of the Ostα-Ostβ organic solute transporter is required not only for heterodimerization and trafficking but also for function. Journal of Biological Chemistry 287(25): 21233-21243

Kolb, R.; Bach, N.C.; Sieber, S.A. 2014: β-Sultams exhibit discrete binding preferences for diverse bacterial enzymes with nucleophilic residues. Chemical Communications 50(4): 427-429

Gupta, M.D.; Girish, M.P.; Sikdar, S.; Ahuja, R.; Shah, D.; Kumar, R.; Rain, M.; Nejatizadeh, A.; Tyagi, S.; Pasha, Q. 2014: β-T594M epithelial sodium channel gene polymorphism and essential hypertension in individuals of Indo-Aryan ancestry in Northern India. Indian Heart Journal 66(4): 397-400

Aguado, E.; Pascaretti-Grizon, F.; Gaudin-Audrain, C.; Goyenvalle, E.; Chappard, D. 2014: β-TCP granules mixed with reticulated hyaluronic acid induce an increase in bone apposition. Biomedical Materials 9(1): 015001

De Ruiter, A.; Meijer, G.; Dormaar, T.; Janssen, N.; van der Bilt, A.; Slootweg, P.; de Bruijn, J.; van Rijn, L.; Koole, R. 2011: β-TCP versus autologous bone for repair of alveolar clefts in a goat model. Cleft Palate-Craniofacial Journal: Official Publication of the American Cleft Palate-Craniofacial Association 48(6): 654-662

Rakovsky, A.; Gotman, I.; Rabkin, E.; Gutmanas, E.Y. 2014: β-TCP-polylactide composite scaffolds with high strength and enhanced permeability prepared by a modified salt leaching method. Journal of the Mechanical Behavior of Biomedical Materials 32: 89-98

Malliakas, C.D.; Poineau, F.; Johnstone, E.V.; Weck, P.F.; Kim, E.; Scott, B.L.; Forster, P.M.; Kanatzidis, M.G.; Czerwinski, K.R.; Sattelberger, A.P. 2013: β-Technetium dichloride: solid-state modulated structure, electronic structure, and physical properties. Journal of the American Chemical Society 135(42): 15955-15962

Poineau, F.; Johnstone, E.V.; Weck, P.F.; Forster, P.M.; Kim, E.; Czerwinski, K.R.; Sattelberger, A.P. 2012: β-Technetium trichloride: formation, structure, and first-principles calculations. Inorganic Chemistry 51(9): 4915-4917

Haddad, A.; Tyan, P.; Radwan, A.; Mallat, N.; Taher, A. 2014: β-Thalassemia Intermedia: a Bird's-Eye View. Turkish Journal of Haematology: Official Journal of Turkish Society of Haematology 31(1): 5-16

Güleç, D.; Bilgili, S.; Uzuncan, N.; Bozkaya, G.; Soyer, N.; Karaca, B. 2013: β-Thalassemia Mutation at Codon 37 (Tgg>>Tga) Detected in a Turkish Family. Turkish Journal of Haematology: Official Journal of Turkish Society of Haematology 30(3): 331-332

Al-Allawi, N.A.S.; Hassan, K.M.A.; Sheikha, A.K.; Nerweiy, F.F.; Dawood, R.S.; Jubrael, J. 2010: β-Thalassemia Mutations among Transfusion-Dependent Thalassemia Major Patients in Northern Iraq. Molecular Biology International 2010: 479282

Crielaard, B.J.; Rivella, S. 2014: β-Thalassemia and Polycythemia vera: targeting chronic stress erythropoiesis. International Journal of Biochemistry and Cell Biology 51: 89-92

Lanikova, L.; Kucerova, J.; Indrak, K.; Divoka, M.; Issa, J.-P.; Papayannopoulou, T.; Prchal, J.T.; Divoky, V. 2013: β-Thalassemia due to intronic LINE-1 insertion in the β-globin gene (HBB): molecular mechanisms underlying reduced transcript levels of the β-globin(L1) allele. Human Mutation 34(10): 1361-1365

Byatnal, A.; Byatnal, A.A.; Parvathi Devi, M.K.; Badriramkrishna, B. 2014: β-Thalassemia hijacking ineffective erythropoietin and iron overload: Two case reports and a review of literature. Journal of Natural Science Biology and Medicine 5(2): 456-459

Denic, S.; Aden, B.; Nagelkerke, N.; Essa, A.A. 2013: β-Thalassemia in Abu Dhabi: consanguinity and tribal stratification are major factors explaining the high prevalence of the disease. Hemoglobin 37(4): 351-358

Mahmood Baig, S.; Sabih, D.; Rahim, M.Kashif.; Azhar, A.; Tariq, M.; Sajid Hussain, M.; Saqlan Naqvi, S.Muhammad.; Raja, G.Kaukab.; Khan, T.Naeem.; Jameel, M.; Iram, Z.; Noor, S.; Baig, U.Raza.; Qureshi, J.Anver.; Baig, S.Anjum.; Bakhtiar, S.Marriam. 2012: β-Thalassemia in Pakistan: a pilot program on prenatal diagnosis in Multan. Journal of Pediatric Hematology/Oncology 34(2): 90-92

Kluge, M.L.; Hoyer, J.D.; Swanson, K.C.; Oliveira, J.L. 2014: β-Thalassemia major resulting from compound heterozygosity for HBB: c.92+2T>C [formerly known as IVS-I-2 (T>C)] and a novel β(0)-thalassemia frameshift mutation: HBB: c.209delG; p.Gly70Valfs*20. Hemoglobin 38(4): 292-294

Guvenc, B.; Canataroglu, A.; Unsal, C.; Yildiz, S.M.; Turhan, F.T.; Bozdogan, S.T.; Dincer, S.; Erkman, H. 2012: β-Thalassemia mutations and hemoglobinopathies in Adana, Turkey: results from a single center study. Archives of Medical Science: Ams 8(3): 411-414

Rahiminejad, M.S.; Zeinali, S.; Afrasiabi, A.; Valeshabad, A.K. 2011: β-Thalassemia mutations found during 1 year of prenatal diagnoses in Fars Province, Iran. Hemoglobin 35(4): 331-337

Patel, A.P.; Patel, R.B.; Patel, S.A.; Vaniawala, S.N.; Patel, D.S.; Shrivastava, N.S.; Sharma, N.P.; Zala, J.V.; Parmar, P.H.; Naik, M.R. 2014: β-Thalassemia mutations in Western India: outcome of prenatal diagnosis in a hemoglobinopathies project. Hemoglobin 38(5): 329-334

Rangan, A.; Sharma, P.; Dadu, T.; Saxena, R.; Verma, I.C.; Bhargava, M. 2011: β-Thalassemia mutations in subjects with borderline HbA₂ values: a pilot study in North India. Clinical Chemistry and Laboratory Medicine 49(12): 2069-2072

Jalal, S.D.; Al-Allawi, N.A.S.; Bayat, N.; Imanian, H.; Najmabadi, H.; Faraj, A. 2010: β-Thalassemia mutations in the Kurdish population of northeastern Iraq. Hemoglobin 34(5): 469-476

Altinoz, M.A.; Gedikoglu, G.; Deniz, G. 2012: β-Thalassemia trait association with autoimmune diseases: β-globin locus proximity to the immunity genes or role of hemorphins?. Immunopharmacology and Immunotoxicology 34(2): 181-190

Karimi, M.; Haghpanah, S.; Taher, A.T.; Cappellini, M.D. 2012: β-Thalassemia: new Therapeutic Modalities, Genetics, Complications, and Quality of Life. Anemia 2012: 902067

Park, N.; Lazow, S.; Berger, J. 2012: β-Thalassemia: medical and surgical considerations in managing facial deformities: case report and review of the literature. Journal of Oral and Maxillofacial Surgery: Official Journal of the American Association of Oral and Maxillofacial Surgeons 70(4): E284-E289

Wu, Y.; Cheng, C.; Jiao, L.; Yu, C.; Wang, S.; Wei, Y.; Mu, X.; Hao, E. 2014: β-Thiophene-fused BF2-azadipyrromethenes as near-infrared dyes. Organic Letters 16(3): 748-751

De Santis, M.; Inzitari, R.; Bosello, S.L.; Peluso, G.; Fanali, C.; Iavarone, F.; Zizzo, G.; Bocci, M.; Cabras, T.; Messana, I.; Fuso, L.; Varone, F.; Pagliari, G.; Castagnola, M.; Ferraccioli, G. 2011: β-Thymosins and interstitial lung disease: study of a scleroderma cohort with a one-year follow-up. Respiratory Research 12: 22

Blanchet, F.P.; Mitchell, J.P.; Piguet, V. 2012: β-TrCP dependency of HIV-1 Vpu-induced downregulation of CD4 and BST-2/tetherin. Current HIV Research 10(4): 307-314

Tervo, H.-M.; Homann, S.; Ambiel, I.; Fritz, J.ël.V.; Fackler, O.T.; Keppler, O.T. 2011: β-TrCP is dispensable for Vpu's ability to overcome the CD317/Tetherin-imposed restriction to HIV-1 release. Retrovirology 8: 9

Cui, W.; Xiao, N.; Xiao, H.; Zhou, H.; Yu, M.; Gu, J.; Li, X. 2012: β-TrCP-mediated IRAK1 degradation releases TAK1-TRAF6 from the membrane to the cytosol for TAK1-dependent NF-κB activation. Molecular and Cellular Biology 32(19): 3990-4000

Vílchez, J.A.; Roldán, V.; Manzano-Fernández, S.; Fernández, H.óg.; Avilés-Plaza, F.; Martínez-Hernández, P.; Vicente, V.; Valdés, M.; Marín, F.; Lip, G.Y.H. 2013: β-Trace protein and prognosis in patients with atrial fibrillation receiving anticoagulation treatment. Chest 144(5): 1564-1570

Orenes-Piñero, E.; Manzano-Fernández, S.; López-Cuenca, Án.; Marín, F.; Valdés, M.; Januzzi, J.L. 2013: β-Trace protein: from GFR marker to cardiovascular risk predictor. Clinical Journal of the American Society of Nephrology: Cjasn 8(5): 873-881

Hsu, K.-S.; Kao, H.-Y. 2013: β-Transducin repeat-containing protein 1 (β-TrCP1)-mediated silencing mediator of retinoic acid and thyroid hormone receptor (SMRT) protein degradation promotes tumor necrosis factor α (TNFα)-induced inflammatory gene expression. Journal of Biological Chemistry 288(35): 25375-25386

Bastier, P.-L.; Bennani-Baiti, A.A.; Stoll, D.; de Gabory, L. 2013: β-Tricalcium phosphate implant to repair empty nose syndrome: preliminary results. Otolaryngology--Head and Neck Surgery: Official Journal of American Academy of Otolaryngology-Head and Neck Surgery 148(3): 519-522

Sugawara, T.; Itoh, Y.; Hirano, Y.; Higashiyama, N.; Mizoi, K. 2011: β-Tricalcium phosphate promotes bony fusion after anterior cervical discectomy and fusion using titanium cages. Spine 36(23): E1509-E1514

Qiu, J.; Huang, T.; Xu, J.; Bi, C.; Chen, C.; Zhou, M. 2012: β-Tubulins in Gibberella zeae: their characterization and contribution to carbendazim resistance. Pest Management Science 68(8): 1191-1198

Basuroy, K.; Rajagopal, A.; Raghothama, S.; Shamala, N.; Balaram, P. 2012: β-Turn analogues in model αβ-hybrid peptides: structural characterization of peptides containing β(2,2)Ac6c and β(3,3)Ac6c residues. Chemistry An Asian Journal 7(7): 1671-1678

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Yan, X.-S.; Wu, K.; Yuan, Y.; Zhan, Y.; Wang, J.-H.; Li, Z.; Jiang, Y.-B. 2013: β-Turn structure in glycinylphenylalanine dipeptide based N-amidothioureas. Chemical Communications 49(79): 8943-8945

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Hauzer, W.; Bujok, J.; Czerski, A.; Rusiecka, A.; Pecka, E.; Gnus, J.; Zawadzki, W.; Witkiewicz, W. 2014: β-adrenergic antagonists influence abdominal aorta contractility by mechanisms not involving β-adrenergic receptors. Folia Biologica 62(3): 243-250

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Vranjkovic, O.; Hang, S.; Baker, D.A.; Mantsch, J.R. 2012: β-adrenergic receptor mediation of stress-induced reinstatement of extinguished cocaine-induced conditioned place preference in mice: roles for β1 and β2 adrenergic receptors. Journal of Pharmacology and Experimental Therapeutics 342(2): 541-551

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Talarico, J.A.; Carter, R.L.; Grisanti, L.A.; Yu, J.E.; Repas, A.A.; Tilley, D.G. 2014: β-adrenergic receptor-dependent alterations in murine cardiac transcript expression are differentially regulated by gefitinib in vivo. Plos one 9(6): E99195

Tilley, D.G.; Zhu, W.; Myers, V.D.; Barr, L.A.; Gao, E.; Li, X.; Song, J.; Carter, R.L.; Makarewich, C.A.; Yu, D.; Troupes, C.D.; Grisanti, L.A.; Coleman, R.C.; Koch, W.J.; Houser, S.R.; Cheung, J.Y.; Feldman, A.M. 2014: β-adrenergic receptor-mediated cardiac contractility is inhibited via vasopressin type 1A-receptor-dependent signaling. Circulation 130(20): 1800-1811

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Li, H.; Sun, X.; LeSage, G.; Zhang, Y.; Liang, Z.; Chen, J.; Hanley, G.; He, L.; Sun, S.; Yin, D. 2010: β-arrestin 2 regulates Toll-like receptor 4-mediated apoptotic signalling through glycogen synthase kinase-3β. Immunology 130(4): 556-563

Li, H.; Smalligan, D.A.; Xie, N.; Javer, A.; Zhang, Y.; Hanley, G.; Yin, D. 2011: β-arrestin 2-mediated immune suppression induced by chronic stress. Neuroimmunomodulation 18(3): 142-149

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Lovgren, A.Kern.; Kovacs, J.J.; Xie, T.; Potts, E.N.; Li, Y.; Foster, W.Michael.; Liang, J.; Meltzer, E.B.; Jiang, D.; Lefkowitz, R.J.; Noble, P.W. 2011: β-arrestin deficiency protects against pulmonary fibrosis in mice and prevents fibroblast invasion of extracellular matrix. Science Translational Medicine 3(74): 74ra23

Kawano-Yamashita, E.; Koyanagi, M.; Shichida, Y.; Oishi, T.; Tamotsu, S.; Terakita, A. 2011: β-arrestin functionally regulates the non-bleaching pigment parapinopsin in lamprey pineal. Plos one 6(1): E16402

Kríz, V.ít.; Pospíchalová, V.; Masek, J.; Kilander, M.B.C.; Slavík, J.; Tanneberger, K.; Schulte, G.; Machala, M.; Kozubík, A.; Behrens, J.; Bryja, V.ít. 2014: β-arrestin promotes Wnt-induced low density lipoprotein receptor-related protein 6 (Lrp6) phosphorylation via increased membrane recruitment of Amer1 protein. Journal of Biological Chemistry 289(2): 1128-1141

Wu, J.-X.; Shan, F.-X.; Zheng, J.-N.; Pei, D.-S. 2014: β-arrestin promotes c-Jun N-terminal kinase mediated apoptosis via a GABA(B)R·β-arrestin·JNK signaling module. Asian Pacific Journal of Cancer Prevention: Apjcp 15(2): 1041-1046

Buelli, S.; Rosanò, L.; Gagliardini, E.; Corna, D.; Longaretti, L.; Pezzotta, A.; Perico, L.; Conti, S.; Rizzo, P.; Novelli, R.; Morigi, M.; Zoja, C.; Remuzzi, G.; Bagnato, A.; Benigni, A. 2014: β-arrestin-1 drives endothelin-1-mediated podocyte activation and sustains renal injury. Journal of the American Society of Nephrology: Jasn 25(3): 523-533

Schaff, M.; Receveur, N.; Bourdon, C.; Ohlmann, P.; Lanza, F.; Gachet, C.; Mangin, P.H. 2012: β-arrestin-1 participates in thrombosis and regulates integrin aIIbβ3 signalling without affecting P2Y receptors desensitisation and function. Thrombosis and Haemostasis 107(4): 735-748

Hennenberg, M.; Schlenker, B.; Roosen, A.; Strittmatter, F.; Walther, S.; Stief, C.; Gratzke, C. 2011: β-arrestin-2 is expressed in human prostate smooth muscle and a binding partner of α1A-adrenoceptors. World Journal of Urology 29(2): 157-163

Manson, M.E.; Corey, D.A.; Rymut, S.M.; Kelley, T.J. 2011: β-arrestin-2 regulation of the cAMP response element binding protein. Biochemistry 50(27): 6022-6029

Rowan, M.P.; Szteyn, K.; Doyle, A.P.; Gomez, R.; Henry, M.A.; Jeske, N.A. 2014: β-arrestin-2-biased agonism of delta opioid receptors sensitizes transient receptor potential vanilloid type 1 (TRPV1) in primary sensory neurons. Molecular Pain 10: 50

Bohinc, B.N.; Gesty-Palmer, D. 2011: β-arrestin-biased agonism at the parathyroid hormone receptor uncouples bone formation from bone resorption. Endocrine Metabolic and Immune Disorders Drug Targets 11(2): 112-119

Shenoy, S.K. 2011: β-arrestin-biased signaling by the β-adrenergic receptors. Current Topics in Membranes 67: 51-78

Min, J.; Defea, K. 2011: β-arrestin-dependent actin reorganization: bringing the right players together at the leading edge. Molecular Pharmacology 80(5): 760-768

Borroni, E.M.; Cancellieri, C.; Vacchini, A.; Benureau, Y.; Lagane, B.; Bachelerie, F.ço.; Arenzana-Seisdedos, F.; Mizuno, K.; Mantovani, A.; Bonecchi, R.; Locati, M. 2013: β-arrestin-dependent activation of the cofilin pathway is required for the scavenging activity of the atypical chemokine receptor D6. Science Signaling 6(273): Ra30.1

Ibrahim, I.A.A.E.-H.; Kurose, H. 2012: β-arrestin-mediated signaling improves the efficacy of therapeutics. Journal of Pharmacological Sciences 118(4): 408-412

Gesty-Palmer, D.; Yuan, L.; Martin, B.; Wood, W.H.; Lee, M.-H.; Janech, M.G.; Tsoi, L.C.; Zheng, W.J.; Luttrell, L.M.; Maudsley, S. 2013: β-arrestin-selective G protein-coupled receptor agonists engender unique biological efficacy in vivo. Molecular Endocrinology 27(2): 296-314

Kim, I.-M.; Wang, Y.; Park, K.-M.; Tang, Y.; Teoh, J.-P.; Vinson, J.; Traynham, C.J.; Pironti, G.; Mao, L.; Su, H.; Johnson, J.A.; Koch, W.J.; Rockman, H.A. 2014: β-arrestin1-biased β1-adrenergic receptor signaling regulates microRNA processing. Circulation Research 114(5): 833-844

Watari, K.; Nakaya, M.; Nishida, M.; Kim, K.-M.; Kurose, H. 2013: β-arrestin2 in infiltrated macrophages inhibits excessive inflammation after myocardial infarction. Plos one 8(7): E68351

Zhang, P.; He, X.; Tan, J.; Zhou, X.; Zou, L. 2011: β-arrestin2 mediates β-2 adrenergic receptor signaling inducing prostate cancer cell progression. Oncology Reports 26(6): 1471-1477

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Zheng, M.; Cheong, S.-Y.; Min, C.; Jin, M.; Cho, D.-I.; Kim, K.-M. 2011: β-arrestin2 plays permissive roles in the inhibitory activities of RGS9-2 on G protein-coupled receptors by maintaining RGS9-2 in the open conformation. Molecular and Cellular Biology 31(24): 4887-4901

Nguyen, P.T.; Schmid, C.L.; Raehal, K.M.; Selley, D.E.; Bohn, L.M.; Sim-Selley, L.J. 2012: β-arrestin2 regulates cannabinoid CB1 receptor signaling and adaptation in a central nervous system region-dependent manner. Biological Psychiatry 71(8): 714-724

Liu, Y.; Wang, G.-Y.; Liu, S.-K.; Yang, M.-Y.; Ma, L.-B.; Li, K.; Gong, S.-B.; Zhang, L.; Chen, P.; Xiang, X.-D. 2011: β-arrestin2 stimulates interleukin-17 production and expression of CD4+ T lymphocytes in a murine asthma model. Iranian Journal of Allergy Asthma and Immunology 10(3): 171-182

Zhao, J.; Feng, Y.; Yan, H.; Chen, Y.; Wang, J.; Chua, B.; Stuart, C.; Yin, D. 2014: β-arrestin2/miR-155/GSK3β regulates transition of 5'-azacytizine-induced Sca-1-positive cells to cardiomyocytes. Journal of Cellular and Molecular Medicine 18(8): 1562-1570

Tian, X.; Kang, D.S.; Benovic, J.L. 2014: β-arrestins and G protein-coupled receptor trafficking. Handbook of Experimental Pharmacology 219: 173-186

Skånland, S.S.; Wälchli, S.éb.; Sandvig, K. 2009: β-arrestins attenuate p38-mediated endosome to Golgi transport. Cellular Microbiology 11(5): 796-807

Raehal, K.M.; Bohn, L.M. 2014: β-arrestins: regulatory role and therapeutic potential in opioid and cannabinoid receptor-mediated analgesia. Handbook of Experimental Pharmacology 219: 427-443

Huang, L.-P.; Deng, M.-Z.; He, Y.-P.; Fang, Y.-Q. 2015: β-asarone and levodopa co-administration protects against 6-hydroxydopamine-induced damage in parkinsonian rat mesencephalon by regulating autophagy: down-expression Beclin-1 and light chain 3B and up-expression P62. Clinical and Experimental Pharmacology and Physiology 42(3): 269-277

Dong, H.; Gao, Z.; Rong, H.; Jin, M.; Zhang, X. 2014: β-asarone reverses chronic unpredictable mild stress-induced depression-like behavior and promotes hippocampal neurogenesis in rats. Molecules 19(5): 5634-5649

Aspelin, T.; Eriksen, M.; Ilebekk, A.; Cataliotti, A.; Carlson, C.R.; Lyberg, T. 2014: β-blockade abolishes the augmented cardiac tPA release induced by transactivation of heterodimerised bradykinin receptor-2 and β2-adrenergic receptor in vivo. Thrombosis and Haemostasis 112(5): 951-959

Kubo, T.; Azevedo, E.R.; Newton, G.E.; Picton, P.; Parker, J.D.; Floras, J.S. 2011: β-blockade restores muscle sympathetic rhythmicity in human heart failure. Circulation Journal: Official Journal of the Japanese Circulation Society 75(6): 1400-1408

Vaishnava, P.; Eagle, K.A. 2014: β-blockade to prevent perioperative death in non-cardiac surgery: questions, controversy, and not enough answers. Heart 100(6): 443-444

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Rosendorff, C. 2012: β-blockade: benefits beyond blood pressure reduction?. Journal of Clinical Hypertension 14(2): 69-70

Ipser, A.; Karlinski, M.; Freeman, E.D. 2018: Correlation of individual differences in audiovisual asynchrony across stimuli and tasks: new constraints on temporal renormalization theory. Journal of Experimental Psychology. Human Perception and Performance 44(8): 1283-1293

Matsue, Y.; Suzuki, M.; Nagahori, W.; Ohno, M.; Matsumura, A.; Hashimoto, Y. 2013: β-blocker prevents sudden cardiac death in patients with hemodialysis. International Journal of Cardiology 165(3): 519-522

Tabrizchi, R. 2013: β-blocker therapy after acute myocardial infarction. Expert Review of Cardiovascular Therapy 11(3): 293-296

Andersson, C.; Shilane, D.; Go, A.S.; Chang, T.I.; Kazi, D.; Solomon, M.D.; Boothroyd, D.B.; Hlatky, M.A. 2014: β-blocker therapy and cardiac events among patients with newly diagnosed coronary heart disease. Journal of the American College of Cardiology 64(3): 247-252

Dörr, M.; Schmidt, C.O.; Spielhagen, T.; Bornhorst, A.; Hentschel, K.; Franz, C.; Empen, K.; Kocher, T.; Diehl, S.R.; Kroemer, H.K.; Völzke, H.; Ewert, R.; Felix, S.B.; Rosskopf, D. 2010: β-blocker therapy and heart rate control during exercise testing in the general population: role of a common G-protein β-3 subunit variant. Pharmacogenomics 11(9): 1209-1221

Thenappan, T.; Roy, S.S.; Duval, S.; Glassner-Kolmin, C.; Gomberg-Maitland, M. 2014: β-blocker therapy is not associated with adverse outcomes in patients with pulmonary arterial hypertension: a propensity score analysis. CIRCULATION. Heart Failure 7(6): 903-910

Schonberger, R.B.; Lukens, C.L.; Turkoglu, O.D.; Feinleib, J.L.; Haspel, K.L.; Burg, M.M. 2012: β-blocker withdrawal among patients presenting for surgery from home. Journal of Cardiothoracic and Vascular Anesthesia 26(6): 1029-1033

Bangalore, S.; Bhatt, D.L.; Steg, P.Gabriel.; Weber, M.A.; Boden, W.E.; Hamm, C.W.; Montalescot, G.; Hsu, A.; Fox, K.A.A.; Lincoff, A.Michael. 2014: β-blockers and cardiovascular events in patients with and without myocardial infarction: post hoc analysis from the CHARISMA trial. Circulation. Cardiovascular Quality and Outcomes 7(6): 872-881

Angeli, P. 2011: β-blockers and refractory ascites in cirrhosis: the message of a team of true scientists. Journal of Hepatology 55(4): 743-744

Luijendijk, H.J.; van den Berg, J.F.; Hofman, A.; Tiemeier, H.; Stricker, B.H.C. 2011: β-blockers and the risk of incident depression in the elderly. Journal of Clinical Psychopharmacology 31(1): 45-50

Rutten, F.H. 2011: β-blockers and their mortality benefits: underprescribed in heart failure and chronic obstructive pulmonary disease. Future Cardiology 7(1): 43-53

Massarsky, A.; Trudeau, V.L.; Moon, T.W. 2011: β-blockers as endocrine disruptors: the potential effects of human β-blockers on aquatic organisms. Journal of Experimental Zoology. Part a Ecological Genetics and Physiology 315(5): 251-265

Tashkin, D.P. 2012: β-blockers associated with reduced all-cause mortality in COPD. Evidence-Based Medicine 17(1): 31-32

Suissa, S.; Ernst, P. 2012: β-blockers for COPD inpatients. Thorax 67(11): 936-937

Blatt, J.; Morrell, D.S.; Buck, S.; Zdanski, C.; Gold, S.; Stavas, J.; Powell, C.; Burkhart, C.N. 2011: β-blockers for infantile hemangiomas: a single-institution experience. Clinical Pediatrics 50(8): 757-763

Floyd, J.S. 2014: β-blockers for secondary prevention in stable coronary artery disease: can observational studies provide valid answers?. Heart 100(22): 1741-1742

Bryant, L. 2012: β-blockers in COPD - yes, it's OK (with care). Journal of Primary Health Care 4(2): 165

Abriel, H.; Rougier, J.-S.éb. 2013: β-blockers in congenital short-QT syndrome as ion channel blockers. Journal of Cardiovascular Electrophysiology 24(10): 1172-1174

Baliga, R.R.; Young, J.B. 2012: β-blockers in heart failure: breaking tradition to avoid diabetes?. Heart Failure Clinics 8(4): Xiii-Xxvi

Jivanji, S.G.M.; Slavik, Z.; Furck, A. 2014: β-blockers in postoperative myocardial diastolic dysfunction: not a panacea. BMJ Case Reports

Sarraf, M.; Francis, G.S. 2012: β-blockers in stage B: a precursor of heart failure. Heart Failure Clinics 8(2): 237-245

Van Berendoncks, A.M.; Beckers, P.; Hoymans, V.Y.; Possemiers, N.; Coenen, S.; Elseviers, M.M.; Vrints, C.J.; Conraads, V.M. 2011: β-blockers modify the prognostic value of adiponectin in chronic heart failure. International Journal of Cardiology 150(3): 296-300

Gemma, L.W.; Ward, G.M.; Dettmer, M.M.; Ball, J.L.; Leo, P.J.; Doria, D.N.; Kaufman, E.S. 2011: β-blockers protect against dispersion of repolarization during exercise in congenital long-QT syndrome type 1. Journal of Cardiovascular Electrophysiology 22(10): 1141-1146

De Giorgi, V.; Gandini, S.; Grazzini, M.; Benemei, S.; Marchionni, N.ò; Geppetti, P. 2012: β-blockers: a new and emerging treatment for melanoma. Recenti Progressi in Medicina 103(1): 11-16

Nagaraja, A.S.; Sadaoui, N.C.; Lutgendorf, S.K.; Ramondetta, L.M.; Sood, A.K. 2013: β-blockers: a new role in cancer chemotherapy?. Expert Opinion on Investigational Drugs 22(11): 1359-1363

Ji, Y.; Chen, S.; Xiao, X.; Zheng, S.; Li, K. 2012: β-blockers: a novel class of antitumor agents. Oncotargets and Therapy 5: 391-401

Ripley, T.L.; Saseen, J.J. 2014: β-blockers: a review of their pharmacological and physiological diversity in hypertension. Annals of PharmacoTherapy 48(6): 723-733

Ginsberg, F. 2012: β-blockers: more good news?. Critical Care Medicine 40(10): 2901-2902

Guay, J.; Ochroch, E.A. 2013: β-blocking agents for surgery: influence on mortality and major outcomes. a meta-analysis. Journal of Cardiothoracic and Vascular Anesthesia 27(5): 834-844

Chen, Y.-F.; Kuo, P.-C.; Chan, H.-H.; Kuo, I.-J.; Lin, F.-W.; Su, C.-R.; Yang, M.-L.; Li, D.-T.; Wu, T.-S. 2010: β-carboline alkaloids from Stellaria dichotoma var. lanceolata and their anti-inflammatory activity. Journal of Natural Products 73(12): 1993-1998

Frost, D.; Meechoovet, B.; Wang, T.; Gately, S.; Giorgetti, M.; Shcherbakova, I.; Dunckley, T. 2011: β-carboline compounds, including harmine, inhibit DYRK1A and tau phosphorylation at multiple Alzheimer's disease-related sites. Plos one 6(5): E19264

Li, Y.; Zhao, M.; Parkin, K.L. 2011: β-carboline derivatives and diphenols from soy sauce are in vitro quinone reductase (QR) inducers. Journal of Agricultural and Food Chemistry 59(6): 2332-2340

Lim, J.Y.; Kim, Y.-S.; Kim, Y. 2013: β-carotene Regulates the Murine Liver Microenvironment of a Metastatic Neuroblastoma. Journal of Cancer Prevention 18(4): 337-345

Boily, M.H.; Champoux, L.; Bourbonnais, D.H.; Des Granges, J.L.; Rodrigue, J.; Spear, P.A. 1994: β-carotene and retinoids in eggs of Great Blue Herons (Ardea herodias) in relation to St Lawrence River contamination. Ecotoxicology 3(4): 271-286

Seyyed Ali, M.; Neisi, N.; Darbor, M.; Hassanpour, M.; Makvandi, M.; Solgi, G. 2012: β-carotene protects the gastric mucosa against ischemia-reperfusion injury in rats. European Cytokine Network 23(4): 173-178

Song, L.-L.; Liang, R.; Li, D.-D.; Xing, Y.-D.; Han, R.-M.; Zhang, J.-P.; Skibsted, L.H. 2011: β-carotene radical cation addition to green tea polyphenols. Mechanism of antioxidant antagonism in peroxidizing liposomes. Journal of Agricultural and Food Chemistry 59(23): 12643-12651

Gong, X.; Marisiddaiah, R.; Rubin, L.P. 2013: β-carotene regulates expression of β-carotene 15,15'-monoxygenase in human alveolar epithelial cells. Archives of Biochemistry and Biophysics 539(2): 230-238

Wassef, L.; Wirawan, R.; Chikindas, M.; Breslin, P.A.S.; Hoffman, D.J.; Quadro, L. 2014: β-carotene-producing bacteria residing in the intestine provide vitamin a to mouse tissues in vivo. Journal of Nutrition 144(5): 608-613

Monzani, P.S.; Bressan, F.F.; Mesquita, L.G.; Sangalli, J.R.; Meirelles, F.V. 2011: β-casein gene expression by in vitro cultured bovine mammary epithelial cells derived from developing mammary glands. Genetics and Molecular Research: Gmr 10(2): 604-614

Konnova, T.A.; Faizullin, D.A.; Haertle, T.; Zuev, Y.F. 2013: β-casein micelle formation in water-ethanol solutions. Doklady. Biochemistry and Biophysics 448: 36-39

Fiedorowicz, E.; Kaczmarski, M.; Cieślińska, A.; Sienkiewicz-Szłapka, E.; Jarmołowska, B.; Chwała, B.; Kostyra, E.żb. 2014: β-casomorphin-7 alters μ-opioid receptor and dipeptidyl peptidase IV genes expression in children with atopic dermatitis. Peptides 62: 144-149

Maeda, D.; Shibahara, J.; Sakuma, T.; Isobe, M.; Teshima, S.; Mori, M.; Oda, K.; Nakagawa, S.; Taketani, Y.; Ishikawa, S.; Fukayama, M. 2011: β-catenin (CTNNB1) S33C mutation in ovarian microcystic stromal tumors. American Journal of Surgical Pathology 35(10): 1429-1440

Huss, S.; Nehles, J.; Binot, E.; Wardelmann, E.; Mittler, J.; Kleine, M.A.; Künstlinger, H.; Hartmann, W.; Hohenberger, P.; Merkelbach-Bruse, S.; Buettner, R.; Schildhaus, H.-U. 2013: β-catenin (CTNNB1) mutations and clinicopathological features of mesenteric desmoid-type fibromatosis. Histopathology 62(2): 294-304

Lu, L.-C.; Shao, Y.-Y.; Lee, Y.-H.; Hsieh, M.-S.; Hsiao, C.-H.; Lin, H.-H.; Kao, H.-F.; Ma, Y.-Y.; Yen, F.-C.; Cheng, A.-L.; Hsu, C.-H. 2014: β-catenin (CTNNB1) mutations are not associated with prognosis in advanced hepatocellular carcinoma. Oncology 87(3): 159-166

Li, Y.-S.; Liu, M.; Nakata, Y.; Tang, H.-B. 2011: β-catenin accumulation in nuclei of hepatocellular carcinoma cells up-regulates glutathione-s-transferase M3 mRNA. World Journal of Gastroenterology 17(13): 1772-1778

Chu, H.H.; Moon, W.S. 2013: β-catenin activated hepatocellular adenoma. Clinical and Molecular Hepatology 19(2): 185-189

Mokkapati, S.; Niopek, K.; Huang, L.; Cunniff, K.J.; Ruteshouser, E.C.; deCaestecker, M.; Finegold, M.J.; Huff, V. 2014: β-catenin activation in a novel liver progenitor cell type is sufficient to cause hepatocellular carcinoma and hepatoblastoma. Cancer Research 74(16): 4515-4525

Gaujoux, S.éb.; Grabar, S.; Fassnacht, M.; Ragazzon, B.; Launay, P.; Libé, R.; Chokri, I.; Audebourg, A.; Royer, B.; Sbiera, S.; Vacher-Lavenu, M.-C.éc.; Dousset, B.; Bertagna, X.; Allolio, B.; Bertherat, J.ér.ôm.; Tissier, F.éd.ér. 2011: β-catenin activation is associated with specific clinical and pathologic characteristics and a poor outcome in adrenocortical carcinoma. Clinical Cancer Research: An Official Journal of the American Association for Cancer Research 17(2): 328-336

Rossi, M.; Magnoni, L.; Miracco, C.; Mori, E.; Tosi, P.; Pirtoli, L.; Tini, P.; Oliveri, G.; Cosci, E.; Bakker, A. 2011: β-catenin and Gli1 are prognostic markers in glioblastoma. Cancer Biology and Therapy 11(8): 753-761

Drebber, U.; Madeja, M.; Odenthal, M.; Wedemeyer, I.; Mönig, S.P.; Brabender, J.; Bollschweiler, E.; Hölscher, A.H.; Schneider, P.M.; Dienes, H.P.; Vallböhmer, D. 2011: β-catenin and Her2/neu expression in rectal cancer: association with histomorphological response to neoadjuvant therapy and prognosis. International Journal of Colorectal Disease 26(9): 1127-1134

Chen, S.-P.; Wu, C.-C.; Huang, S.-Y.; Kang, J.-C.; Chiu, S.-C.; Yang, K.-L.; Pang, C.-Y. 2012: β-catenin and K-ras mutations and RASSF1A promoter methylation in Taiwanese colorectal cancer patients. Genetic Testing and Molecular Biomarkers 16(11): 1277-1281

Charbonney, E.; Speight, P.; Masszi, A.ás.; Nakano, H.; Kapus, A.ás. 2011: β-catenin and Smad3 regulate the activity and stability of myocardin-related transcription factor during epithelial-myofibroblast transition. Molecular Biology of the Cell 22(23): 4472-4485

Henry, J.Q.; Perry, K.J.; Martindale, M.Q. 2010: β-catenin and early development in the gastropod, Crepidula fornicata. Integrative and Comparative Biology 50(5): 707-719

Park, S.J.; Ahn, E.-M.; Ha, T.-S.; Shin, J.I. 2014: β-catenin and its alteration in an experimental model of diabetic nephropathy. Iranian Journal of Kidney Diseases 8(4): 299-309

Fu, Y.; Zheng, S.; An, N.; Athanasopoulos, T.; Popplewell, L.; Liang, A.; Li, K.; Hu, C.; Zhu, Y. 2011: β-catenin as a potential key target for tumor suppression. International Journal of Cancer 129(7): 1541-1551

Nowicki, A.; Sporny, S.ła.; Duda-Szymańska, J. 2012: β-catenin as a prognostic factor for prostate cancer (PCa). Central European Journal of Urology 65(3): 119-123

Kumawat, K.; Koopmans, T.; Gosens, R. 2014: β-catenin as a regulator and therapeutic target for asthmatic airway remodeling. Expert Opinion on Therapeutic Targets 18(9): 1023-1034

Mbom, B.C.; Nelson, W.James.; Barth, A. 2013: β-catenin at the centrosome: discrete pools of β-catenin communicate during mitosis and may co-ordinate centrosome functions and cell cycle progression. Bioessays: News and Reviews in Molecular Cellular and Developmental Biology 35(9): 804-809

Bridgewater, D.; Di Giovanni, V.; Cain, J.E.; Cox, B.; Jakobson, M.; Sainio, K.; Rosenblum, N.D. 2011: β-catenin causes renal dysplasia via upregulation of Tgfβ2 and Dkk1. Journal of the American Society of Nephrology: Jasn 22(4): 718-731

Nakayama, S.; Sng, N.; Carretero, J.; Welner, R.; Hayashi, Y.; Yamamoto, M.; Tan, A.J.; Yamaguchi, N.; Yasuda, H.; Li, D.; Soejima, K.; Soo, R.A.; Costa, D.B.; Wong, K-Kin.; Kobayashi, S.S. 2014: β-catenin contributes to lung tumor development induced by EGFR mutations. Cancer Research 74(20): 5891-5902

Wang, S.-H.; Li, N.; Wei, Y.; Li, Q.-R.; Yu, Z.-P. 2014: β-catenin deacetylation is essential for WNT-induced proliferation of breast cancer cells. Molecular Medicine Reports 9(3): 973-978

Rahman, S.; Czernik, P.J.; Lu, Y.; Lecka-Czernik, B. 2012: β-catenin directly sequesters adipocytic and insulin sensitizing activities but not osteoblastic activity of PPARγ2 in marrow mesenchymal stem cells. PloS one 7(12): e51746

Brechbuhl, H.M.; Ghosh, M.; Smith, M.K.; Smith, R.W.; Li, B.; Hicks, D.A.; Cole, B.B.; Reynolds, P.R.; Reynolds, S.D. 2011: β-catenin dosage is a critical determinant of tracheal basal cell fate determination. American Journal of Pathology 179(1): 367-379

Kelly, K.F.; Ng, D.Y.; Jayakumaran, G.; Wood, G.A.; Koide, H.; Doble, B.W. 2011: β-catenin enhances Oct-4 activity and reinforces pluripotency through a TCF-independent mechanism. Cell Stem Cell 8(2): 214-227

Han, N.; Zheng, Y.; Li, R.; Li, X.; Zhou, M.; Niu, Y.; Zhang, Q. 2014: β-catenin enhances odontoblastic differentiation of dental pulp cells through activation of Runx2. Plos one 9(2): E88890

Lee, S.-S.; Tsai, C.-H.; Tsai, L.-L.; Chou, M.-C.; Chou, M.-Y.; Chang, Y.-C. 2012: β-catenin expression in areca quid chewing-associated oral squamous cell carcinomas and upregulated by arecoline in human oral epithelial cells. Journal of the Formosan Medical Association 111(4): 194-200

Anani, W.; Bruggeman, R.; Zander, D.S. 2011: β-catenin expression in benign and malignant pleural disorders. International Journal of Clinical and Experimental Pathology 4(8): 742-747

Wang, L.; Zhang, M.-C.; Zhang, Y.; He, Z.; Zhang, L.; Xiao, S.-Y. 2010: β-catenin expression in rat neovascularized cornea after alkali burn. International Journal of Ophthalmology 3(4): 304-307

Marucci, L.; Pedone, E.; Di Vicino, U.; Sanuy-Escribano, B.; Isalan, M.; Cosma, M.Pia. 2014: β-catenin fluctuates in mouse ESCs and is essential for Nanog-mediated reprogramming of somatic cells to pluripotency. Cell reports 8(6): 1686-1696

Okumura, N.; Akutsu, H.; Sugawara, T.; Miura, T.; Takezawa, Y.; Hosoda, A.; Yoshida, K.; Ichida, J.K.; Yamada, M.; Hamatani, T.; Kuji, N.; Miyado, K.; Yoshimura, Y.; Umezawa, A. 2013: β-catenin functions pleiotropically in differentiation and tumorigenesis in mouse embryo-derived stem cells. Plos one 8(5): E63265

Bongiovanni, L.; Malatesta, D.; Brachelente, C.; D'Egidio, S.; Della Salda, L. 2011: β-catenin in canine skin: immunohistochemical pattern of expression in normal skin and cutaneous epithelial tumours. Journal of Comparative Pathology 145(2-3): 138-147

Van Dyke, T.; Merlino, G. 2012: β-catenin in metastatic melanoma--the smoking gun reloaded. Pigment Cell and Melanoma Research 25(2): 125-126

González-Moles, M.A.; Ruiz-Ávila, I.; Gil-Montoya, J.A.; Plaza-Campillo, J.; Scully, C. 2014: β-catenin in oral cancer: an update on current knowledge. Oral Oncology 50(9): 818-824

Sharma, M.; Pandey, A.; Pandey, G.K. 2014: β-catenin in plants and animals: common players but different pathways. Frontiers in Plant Science 5: 143

Tanjore, H.; Degryse, A.L.; Crossno, P.F.; Xu, X.C.; McConaha, M.E.; Jones, B.R.; Polosukhin, V.V.; Bryant, A.J.; Cheng, D.-S.; Newcomb, D.C.; McMahon, F.B.; Gleaves, L.A.; Blackwell, T.S.; Lawson, W.E. 2013: β-catenin in the alveolar epithelium protects from lung fibrosis after intratracheal bleomycin. American Journal of Respiratory and Critical Care Medicine 187(6): 630-639

Anonymous 2012: β-catenin inhibition synergizes with imatinib to delay CML recurrence. Cancer Discovery 2(6): OF9

Domingues, M.él.J.; Rambow, F.; Job, B.; Papon, L.; Liu, W.; Larue, L.; Bonaventure, J. 2014: β-catenin inhibitor ICAT modulates the invasive motility of melanoma cells. Cancer Research 74(7): 1983-1995

Ha, J.R.; Hao, L.; Venkateswaran, G.; Huang, Y.H.; Garcia, E.; Persad, S. 2014: β-catenin is O-GlcNAc glycosylated at Serine 23: implications for β-catenin's subcellular localization and transactivator function. Experimental Cell Research 321(2): 153-166

Beyer, C.; Schramm, A.; Akhmetshina, A.; Dees, C.; Kireva, T.; Gelse, K.; Sonnylal, S.; de Crombrugghe, B.; Taketo, M.M.; Distler, O.; Schett, G.; Distler, J.ör.H.W. 2012: β-catenin is a central mediator of pro-fibrotic Wnt signaling in systemic sclerosis. Annals of the Rheumatic Diseases 71(5): 761-767

Wan, Y.; Zhao, W.; Jiang, Y.; Liu, D.; Meng, G.; Cai, Y. 2014: β-catenin is a valuable marker for differential diagnosis of osteoblastoma and osteosarcoma. Human Pathology 45(7): 1459-1465

Anand, M.; Lai, R.; Gelebart, P. 2011: β-catenin is constitutively active and increases STAT3 expression/activation in anaplastic lymphoma kinase-positive anaplastic large cell lymphoma. Haematologica 96(2): 253-261

Wong, J.; Mehta, V.; Voronova, A.; Coutu, J.ée.; Ryan, T.; Shelton, M.; Skerjanc, I.S. 2013: β-catenin is essential for efficient in vitro premyogenic mesoderm formation but can be partially compensated by retinoic acid signalling. Plos one 8(2): E57501

Ge, W.-S.; Wang, Y.-J.; Wu, J.-X.; Fan, J.-G.; Chen, Y.-W.; Zhu, L. 2014: β-catenin is overexpressed in hepatic fibrosis and blockage of Wnt/β-catenin signaling inhibits hepatic stellate cell activation. Molecular Medicine Reports 9(6): 2145-2151

Francis, J.C.; Thomsen, M.K.; Taketo, M.M.; Swain, A. 2013: β-catenin is required for prostate development and cooperates with Pten loss to drive invasive carcinoma. Plos Genetics 9(1): E1003180

Kim, T.H.; Bae, C.H.; Lee, J.C.; Ko, S.O.; Yang, X.; Jiang, R.; Cho, E.S. 2013: β-catenin is required in odontoblasts for tooth root formation. Journal of Dental Research 92(3): 215-221

Keefe, M.D.; Wang, H.; De La O, J.-P.; Khan, A.; Firpo, M.A.; Murtaugh, L.C. 2012: β-catenin is selectively required for the expansion and regeneration of mature pancreatic acinar cells in mice. Disease Models and Mechanisms 5(4): 503-514

Behari, J.; Li, H.; Liu, S.; Stefanovic-Racic, M.; Alonso, L.; O'Donnell, C.P.; Shiva, S.; Singamsetty, S.; Watanabe, Y.; Singh, V.P.; Liu, Q. 2014: β-catenin links hepatic metabolic zonation with lipid metabolism and diet-induced obesity in mice. American Journal of Pathology 184(12): 3284-3298

Dere, R.; Perkins, A.L.; Bawa-Khalfe, T.; Jonasch, D.; Walker, C.L. 2015: β-catenin links von Hippel-Lindau to aurora kinase a and loss of primary cilia in renal cell carcinoma. Journal of the American Society of Nephrology: Jasn 26(3): 553-564

Chen, J.-H.; Chen, W.L.K.; Sider, K.L.; Yip, C.Y.Y.; Simmons, C.A. 2011: β-catenin mediates mechanically regulated, transforming growth factor-β1-induced myofibroblast differentiation of aortic valve interstitial cells. Arteriosclerosis Thrombosis and Vascular Biology 31(3): 590-597

Jang, J.; Ha, J.-H.; Kim, S.-M.; Kim, W.; Kim, K.; Chung, S.-I.; Yoon, Y. 2014: β-catenin mediates the inflammatory cytokine expression induced by the der p 1 house dust mite allergen. Molecular Medicine Reports 9(2): 633-638

Liang, X.; Fu, C.; Cui, W.; Ober-Blöbaum, J.L.; Zahner, S.P.; Shrikant, P.A.; Clausen, B.ör.E.; Flavell, R.A.; Mellman, I.; Jiang, A. 2014: β-catenin mediates tumor-induced immunosuppression by inhibiting cross-priming of CD8⁺ T cells. Journal of Leukocyte Biology 95(1): 179-190

Kominami, A.; Fujino, M.; Murakami, H.; Ito, M. 2014: β-catenin mutation in ovarian solid pseudopapillary neoplasm. Pathology International 64(9): 460-464

Chen, Z.; He, X.; Jia, M.; Liu, Y.; Qu, D.; Wu, D.; Wu, P.; Ni, C.; Zhang, Z.; Ye, J.; Xu, J.; Huang, J. 2013: β-catenin overexpression in the nucleus predicts progress disease and unfavourable survival in colorectal cancer: a meta-analysis. Plos one 8(5): E63854

Lai, T.-Y.; Su, C.-C.; Kuo, W.-W.; Yeh, Y.-L.; Kuo, W.-H.; Tsai, F.-J.; Tsai, C.-H.; Weng, Y.-J.; Huang, C.-Y.; Chen, L.-M. 2011: β-catenin plays a key role in metastasis of human hepatocellular carcinoma. Oncology Reports 26(2): 415-422

Pedrosa, E.; Shah, A.; Tenore, C.; Capogna, M.; Villa, C.; Guo, X.; Zheng, D.; Lachman, H.M. 2010: β-catenin promoter ChIP-chip reveals potential schizophrenia and bipolar disorder gene network. Journal of Neurogenetics 24(4): 182-193

Hillesheim, A.; Nordhoff, C.; Boergeling, Y.; Ludwig, S.; Wixler, V. 2014: β-catenin promotes the type i IFN synthesis and the IFN-dependent signaling response but is suppressed by influenza a virus-induced RIG-I/NF-κB signaling. Cell Communication and Signaling: Ccs 12: 29

Wang, Q.; Chikina, M.; Zaslavsky, E.; Pincas, H.; Sealfon, S.C. 2013: β-catenin regulates GnRH-induced FSHβ gene expression. Molecular Endocrinology 27(2): 224-237

Schön, S.; Flierman, I.; Ofner, A.; Stahringer, A.; Holdt, L.M.; Kolligs, F.T.; Herbst, A. 2014: β-catenin regulates NF-κB activity via TNFRSF19 in colorectal cancer cells. International Journal of Cancer 135(8): 1800-1811

Zhao, T.; Gan, Q.; Stokes, A.; Lassiter, R.N.T.; Wang, Y.; Chan, J.; Han, J.X.; Pleasure, D.E.; Epstein, J.A.; Zhou, C.J. 2014: β-catenin regulates Pax3 and Cdx2 for caudal neural tube closure and elongation. Development 141(1): 148-157

Berg, T.; DeLanghe, S.; Al Alam, D.; Utley, S.; Estrada, J.; Wang, K.S. 2010: β-catenin regulates mesenchymal progenitor cell differentiation during hepatogenesis. Journal of Surgical Research 164(2): 276-285

Yano, F.; Saito, T.; Ogata, N.; Yamazawa, T.; Iino, M.; Chung, U-il.; Kawaguchi, H. 2013: β-catenin regulates parathyroid hormone/parathyroid hormone-related protein receptor signals and chondrocyte hypertrophy through binding to the intracellular C-terminal region of the receptor. Arthritis and Rheumatism 65(2): 429-435

Smartt, H.J.M.; Greenhough, A.; Ordóñez-Morán, P.; Talero, E.; Cherry, C.A.; Wallam, C.A.; Parry, L.; Al Kharusi, M.; Roberts, H.R.; Mariadason, J.M.; Clarke, A.R.; Huelsken, J.; Williams, A.C.; Paraskeva, C. 2012: β-catenin represses expression of the tumour suppressor 15-prostaglandin dehydrogenase in the normal intestinal epithelium and colorectal tumour cells. Gut 61(9): 1306-1314

Damsky, W.E.; Curley, D.P.; Santhanakrishnan, M.; Rosenbaum, L.E.; Platt, J.T.; Gould Rothberg, B.E.; Taketo, M.M.; Dankort, D.; Rimm, D.L.; McMahon, M.; Bosenberg, M. 2011: β-catenin signaling controls metastasis in Braf-activated Pten-deficient melanomas. Cancer Cell 20(6): 741-754

Yang, J.; Mowry, L.E.; Nejak-Bowen, K.N.; Okabe, H.; Diegel, C.R.; Lang, R.A.; Williams, B.O.; Monga, S.P. 2014: β-catenin signaling in murine liver zonation and regeneration: a Wnt-Wnt situation!. Hepatology 60(3): 964-976

Lam, A.P.; Gottardi, C.J. 2011: β-catenin signaling: a novel mediator of fibrosis and potential therapeutic target. Current Opinion in Rheumatology 23(6): 562-567

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Hirata, N.; Ishibashi, K.-I.; Sato, W.; Nagi-Miura, N.; Adachi, Y.; Ohta, S.; Ohno, N. 2013: β-mannosyl linkages inhibit CAWS arteritis by negatively regulating dectin-2-dependent signaling in spleen and dendritic cells. Immunopharmacology and Immunotoxicology 35(5): 594-604

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Hwang, S.J.; Durnin, L.; Dwyer, L.; Rhee, P.-L.; Ward, S.M.; Koh, S.D.; Sanders, K.M.; Mutafova-Yambolieva, V.N. 2011: β-nicotinamide adenine dinucleotide is an enteric inhibitory neurotransmitter in human and nonhuman primate colons. Gastroenterology 140(2): 608-617.E6

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Wu, Y.P.; Stella, P.R.; Chen, S.F.; Wang, Y.T.; Wang, J.Y.; Moerland, M.A.; Pan, S.D.; Zhang, B.; Li, G.Y.; Doevendans, P.A.; de Groot, P.G. 2012: β-radiation reduces the reactivity of extracellular matrix proteins in intravascular brachytherapy (IVBT), resulting in decreased platelet adhesion. International Journal of Cardiology 156(3): 283-288

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Wong, H.-S.; Chen, J.-H.; Leong, P.-K.; Leung, H.-Y.; Chan, W.-M.; Ko, K.-M. 2014: β-sitosterol protects against carbon tetrachloride hepatotoxicity but not gentamicin nephrotoxicity in rats via the induction of mitochondrial glutathione redox cycling. Molecules 19(11): 17649-17662

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Bachmann-Harildstad, G.; Stenklev, N.Christian.; Myrvoll, E.; Jablonski, G.; Klingenberg, O. 2011: β-trace protein as a diagnostic marker for perilymphatic fluid fistula: a prospective controlled pilot study to test a sample collection technique. Otology and Neurotology: Official Publication of the American Otological Society American Neurotology Society and European Academy of Otology and Neurotology 32(1): 7-10

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Chen, H.H. 2011: β-trace protein versus cystatin C: which is a better surrogate marker of renal function versus prognostic indicator in cardiovascular diseases?. Journal of the American College of Cardiology 57(7): 859-860

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Viale-Bouroncle, S.; Bey, B.; Reichert, T.E.; Schmalz, G.; Morsczeck, C. 2011: β-tricalcium-phosphate stimulates the differentiation of dental follicle cells. Journal of Materials Science. Materials in Medicine 22(7): 1719-1724

Hubka, V.; Kolarik, M. 2012: β-tubulin paralogue tubC is frequently misidentified as the benA gene in Aspergillus section Nigri taxonomy: primer specificity testing and taxonomic consequences. Persoonia 29: 1-10

Zhan, Y.; Li, C.; Jiang, W. 2012: β-type Ti-10Mo-1.25Si-xZr biomaterials for applications in hard tissue replacements. Materials Science and Engineering. C Materials for Biological Applications 32(6): 1664-1668

Lagaert, S.; Pollet, A.; Courtin, C.M.; Volckaert, G. 2014: β-xylosidases and α-L-arabinofuranosidases: accessory enzymes for arabinoxylan degradation. Biotechnology Advances 32(2): 316-332

Du, Y.; Yan, L.; Du, H.; Wang, L.; Ding, F.; Quan, L.; Cheng, X.; Song, K.; Liu, H. 2012: β1 -adrenergic receptor autoantibodies from heart failure patients enhanced TNF-α secretion in RAW264.7 macrophages in a largely PKA-dependent fashion. Journal of Cellular Biochemistry 113(10): 3218-3228

Liu, W.-N.; Fu, K.-L.; Gao, H.-Y.; Shang, Y.-Y.; Wang, Z.-H.; Jiang, G.-H.; Zhang, Y.; Zhang, W.; Zhong, M. 2012: β1 adrenergic receptor polymorphisms and heart failure: a meta-analysis on susceptibility, response to β-blocker therapy and prognosis. Plos one 7(7): E37659

Mathew, S.; Lu, Z.; Palamuttam, R.J.; Mernaugh, G.; Hadziselimovic, A.; Chen, J.; Bulus, N.; Gewin, L.S.; Voehler, M.; Meves, A.; Ballestrem, C.; Fässler, R.; Pozzi, A.; Sanders, C.R.; Zent, R. 2012: β1 integrin NPXY motifs regulate kidney collecting-duct development and maintenance by induced-fit interactions with cytosolic proteins. Molecular and Cellular Biology 32(20): 4080-4091

Simirskii, V.N.; Duncan, M.K.; Paltsev, M.A.; Suchkov, S.V. 2013: β1 integrin as the integrating component in cell-cell cooperation for maintenance of lens transparency. DOKLADY. Biochemistry and Biophysics 453: 297-299

Li, R.; Wu, Y.; Manso, A.M.; Gu, Y.; Liao, P.; Israeli, S.; Yajima, T.; Nguyen, U.; Huang, M.S.; Dalton, N.D.; Peterson, K.L.; Ross, R.S. 2012: β1 integrin gene excision in the adult murine cardiac myocyte causes defective mechanical and signaling responses. American Journal of Pathology 180(3): 952-962

Truong, H.H.; Xiong, J.; Ghotra, V.P.S.; Nirmala, E.; Haazen, L.; Le Dévédec, S.E.; Balcioğlu, H.E.; He, S.; Snaar-Jagalska, B.E.; Vreugdenhil, E.; Meerman, J.H.N.; van de Water, B.; Danen, E.H.J. 2014: β1 integrin inhibition elicits a prometastatic switch through the TGFβ-miR-200-ZEB network in E-cadherin-positive triple-negative breast cancer. Science Signaling 7(312): Ra15

Diaferia, G.R.; Jimenez-Caliani, A.J.; Ranjitkar, P.; Yang, W.; Hardiman, G.; Rhodes, C.J.; Crisa, L.; Cirulli, V. 2013: β1 integrin is a crucial regulator of pancreatic β-cell expansion. Development 140(16): 3360-3372

Beuers, U. 2013: β1 integrin is a long-sought sensor for tauroursodeoxycholic acid. Hepatology 57(3): 867-869

DeNucci, C.C.; Shimizu, Y. 2011: β1 integrin is critical for the maintenance of antigen-specific CD4 T cells in the bone marrow but not long-term immunological memory. Journal of Immunology 186(7): 4019-4026

Huang, C.; Park, C.C.; Hilsenbeck, S.G.; Ward, R.; Rimawi, M.F.; Wang, Y.-C.; Shou, J.; Bissell, M.J.; Osborne, C.K.; Schiff, R. 2011: β1 integrin mediates an alternative survival pathway in breast cancer cells resistant to lapatinib. Breast Cancer Research: Bcr 13(4): R84

Song, J.; Zhang, J.; Wang, J.; Wang, J.; Guo, X.; Dong, W. 2015: β1 integrin mediates colorectal cancer cell proliferation and migration through regulation of the Hedgehog pathway. Tumour Biology: the Journal of the International Society for Oncodevelopmental Biology and Medicine 36(3): 2013-2021

Song, J.; Zhang, J.; Wang, J.; Cao, Z.; Wang, J.; Guo, X.; Dong, W. 2014: β1 integrin modulates tumor growth and apoptosis of human colorectal cancer. Oncology Reports 32(1): 302-308

Beaty, B.T.; Sharma, V.P.; Bravo-Cordero, J.J.; Simpson, M.A.; Eddy, R.J.; Koleske, A.J.; Condeelis, J. 2013: β1 integrin regulates Arg to promote invadopodial maturation and matrix degradation. Molecular Biology of the Cell 24(11): 1661-1675 S1-11

Steele, M.M.; Schieler, A.M.; Kelley, P.M.; Tempero, R.M. 2011: β1 integrin regulates MMP-10 dependant tubulogenesis in human lymphatic endothelial cells. Matrix Biology: Journal of the International Society for Matrix Biology 30(3): 218-224

Ernst, N.; Yay, A.; Bíró, T.ás.; Tiede, S.; Humphries, M.; Paus, R.; Kloepper, J.E. 2013: β1 integrin signaling maintains human epithelial progenitor cell survival in situ and controls proliferation, apoptosis and migration of their progeny. Plos one 8(12): E84356

Carbonell, W.S.; DeLay, M.; Jahangiri, A.; Park, C.C.; Aghi, M.K. 2013: β1 integrin targeting potentiates antiangiogenic therapy and inhibits the growth of bevacizumab-resistant glioblastoma. Cancer Research 73(10): 3145-3154

Santos, A.R.C.; Corredor, R.G.; Obeso, B.A.; Trakhtenberg, E.F.; Wang, Y.; Ponmattam, J.; Dvoriantchikova, G.; Ivanov, D.; Shestopalov, V.I.; Goldberg, J.L.; Fini, M.E.; Bajenaru, M.L. 2012: β1 integrin-focal adhesion kinase (FAK) signaling modulates retinal ganglion cell (RGC) survival. Plos one 7(10): E48332

Petzold, T.; Ruppert, R.; Pandey, D.; Barocke, V.; Meyer, H.; Lorenz, M.; Zhang, L.; Siess, W.; Massberg, S.; Moser, M. 2013: β1 integrin-mediated signals are required for platelet granule secretion and hemostasis in mouse. Blood 122(15): 2723-2731

Jahangiri, A.; Aghi, M.K.; Carbonell, W.S. 2014: β1 integrin: Critical path to antiangiogenic therapy resistance and beyond. Cancer Research 74(1): 3-7

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Goel, H.L.; Sayeed, A.; Breen, M.; Zarif, M.J.; Garlick, D.S.; Leav, I.; Davis, R.J.; Fitzgerald, T.J.; Morrione, A.; Hsieh, C.-C.; Liu, Q.; Dicker, A.P.; Altieri, D.C.; Languino, L.R. 2013: β1 integrins mediate resistance to ionizing radiation in vivo by inhibiting c-Jun amino terminal kinase 1. Journal of Cellular Physiology 228(7): 1601-1609

Che, M.-I.; Huang, J.; Hung, J.-S.; Lin, Y.-C.; Huang, M.-J.; Lai, H.-S.; Hsu, W.-M.; Liang, J.-T.; Huang, M.-C. 2014: β1, 4-N-acetylgalactosaminyltransferase IIi modulates cancer stemness through EGFR signaling pathway in colon cancer cells. Oncotarget 5(11): 3673-3684

Bossard, F.; Silantieff, E.; Lavazais-Blancou, E.; Robay, A.; Sagan, C.; Rozec, B.; Gauthier, C. 2011: β1, β2, and β3 adrenoceptors and Na+/H+ exchanger regulatory factor 1 expression in human bronchi and their modifications in cystic fibrosis. American Journal of Respiratory Cell and Molecular Biology 44(1): 91-98

Wang, Y.; Xu, D.; Tao, R.; Wang, H.; Wang, Q.; Shen, A. 2010: β1,4-Galactosyltransferase-I contributes to the inflammatory processes in synovial tissue of patients with rheumatoid arthritis. Inflammation Research: Official Journal of the European Histamine Research Society . 59(12): 1009-1018

Wang, H.; Xu, D.; Tao, R.; Ni, X.; Shen, A.; Wang, Y. 2011: β1,4-galactosyltransferase-i in synovial tissue of collagen-induced rat model of rheumatoid arthritis. Clinical and Experimental Medicine 11(3): 147-154

Qi, J.; Li, N.; Fan, K.; Yin, P.; Zhao, C.; Li, Z.; Lin, Y.; Wang, L.; Zha, X. 2014: β1,6 GlcNAc branches-modified PTPRT attenuates its activity and promotes cell migration by STAT3 pathway. Plos one 9(5): E98052

Lymperopoulos, A.; Negussie, S.; Walklett, K. 2013: β1- and α2C-adrenergic receptor polymorphisms and the antiarrhythmic effect of bucindolol in heart failure with reduced ejection fraction. Pharmacogenomics 14(13): 1545-1549

Laedermann, C.éd.J.; Syam, N.; Pertin, M.; Decosterd, I.; Abriel, H. 2013: β1- and β3- voltage-gated sodium channel subunits modulate cell surface expression and glycosylation of Nav1.7 in HEK293 cells. Frontiers in Cellular Neuroscience 7: 137

Rizzi, E.; Guimaraes, D.A.; Ceron, C.S.; Prado, C.M.; Pinheiro, L.C.; Martins-Oliveira, A.; Gerlach, R.F.; Tanus-Santos, J.E. 2014: β1-Adrenergic blockers exert antioxidant effects, reduce matrix metalloproteinase activity, and improve renovascular hypertension-induced cardiac hypertrophy. Free Radical Biology and Medicine 73: 308-317

Spindler, S.R.; Mote, P.L.; Li, R.; Dhahbi, J.M.; Yamakawa, A.; Flegal, J.M.; Jeske, D.R.; Li, R.; Lublin, A.L. 2013: β1-Adrenergic receptor blockade extends the life span of Drosophila and long-lived mice. Age 35(6): 2099-2109

Brender, S.; Barki-Harrington, L. 2014: β1-Adrenergic receptor downregulates the expression of cyclooxygenase-2. Biochemical and Biophysical Research Communications 451(2): 319-321

Van der Hagen, E.A.E.; Tudpor, K.; Verkaart, S.; Lavrijsen, M.; van der Kemp, A.; van Zeeland, F.; Bindels, R.é J.M.; Hoenderop, J.G.J. 2014: β1-Adrenergic receptor signaling activates the epithelial calcium channel, transient receptor potential vanilloid type 5 (TRPV5), via the protein kinase a pathway. Journal of Biological Chemistry 289(26): 18489-18496

Meitzen, J.; Luoma, J.I.; Stern, C.M.; Mermelstein, P.G. 2011: β1-Adrenergic receptors activate two distinct signaling pathways in striatal neurons. Journal of Neurochemistry 116(6): 984-995

Sterin-Borda, L.; Segovia, M.; Reina, S.; Borda, E. 2012: β1-Adrenoceptor antibody-induced increase in soluble CD40 ligand release in chronic periodontitis patients: role of prostaglandin E(2). Experimental Physiology 97(9): 1030-1039

Zhao, Y.; Huang, H.; Du, Y.; Li, X.; Lv, T.; Zhang, S.; Wei, H.; Shang, J.; Liu, P.; Liu, H. 2015: β1-Adrenoceptor autoantibodies affect action potential duration and delayed rectifier potassium currents in guinea pigs. Cardiovascular Toxicology 15(1): 1-9

Du, Y.; Yan, L.; Wang, J.; Zhan, W.; Song, K.; Han, X.; Li, X.; Cao, J.; Liu, H. 2012: β1-Adrenoceptor autoantibodies from DCM patients enhance the proliferation of T lymphocytes through the β1-AR/cAMP/PKA and p38 MAPK pathways. Plos one 7(12): E52911

Wang, Y.; Patel, D.; Wang, D.W.; Yan, J.T.; Hsia, H.H.; Liu, H.; Zhao, C.X.; Zuo, H.J.; Wang, D.W. 2013: β1-Adrenoceptor blocker aggravated ventricular arrhythmia. Pacing and Clinical Electrophysiology: Pace 36(11): 1348-1356

Berg, T. 2014: β1-Blockers Lower Norepinephrine Release by Inhibiting Presynaptic, Facilitating β1-Adrenoceptors in Normotensive and Hypertensive Rats. Frontiers in Neurology 5: 51

Pan, L.; North, H.A.; Sahni, V.; Jeong, S.J.; Mcguire, T.L.; Berns, E.J.; Stupp, S.I.; Kessler, J.A. 2014: β1-Integrin and integrin linked kinase regulate astrocytic differentiation of neural stem cells. Plos one 9(8): E104335

Ribeiro, A.; Balasubramanian, S.; Hughes, D.; Vargo, S.; Powell, E.M.; Leach, J.B. 2013: β1-Integrin cytoskeletal signaling regulates sensory neuron response to matrix dimensionality. Neuroscience 248: 67-78

Häuselmann, Séphanie.P.; Rosc-Schlüter, B.I.; Lorenz, V.; Plaisance, I.; Brink, M.; Pfister, O.; Kuster, G.M. 2011: β1-Integrin is up-regulated via Rac1-dependent reactive oxygen species as part of the hypertrophic cardiomyocyte response. Free Radical Biology and Medicine 51(3): 609-618

Nam, J.-M.; Ahmed, K.M.; Costes, S.; Zhang, H.; Onodera, Y.; Olshen, A.B.; Hatanaka, K.C.; Kinoshita, R.; Ishikawa, M.; Sabe, H.; Shirato, H.; Park, C.C. 2013: β1-Integrin via NF-κB signaling is essential for acquisition of invasiveness in a model of radiation treated in situ breast cancer. Breast Cancer Research: Bcr 15(4): R60

Coutellier, L.; Ardestani, P.M.; Shamloo, M. 2014: β1-adrenergic receptor activation enhances memory in Alzheimer's disease model. Annals of Clinical and Translational Neurology 1(5): 348-360

Cannavo, A.; Rengo, G.; Liccardo, D.; Pagano, G.; Zincarelli, C.; De Angelis, M.Carmen.; Puglia, R.; Di Pietro, E.; Rabinowitz, J.E.; Barone, M.Vittoria.; Cirillo, P.; Trimarco, B.; Palmer, T.M.; Ferrara, N.; Koch, W.J.; Leosco, D.; Rapacciuolo, A. 2013: β1-adrenergic receptor and sphingosine-1-phosphate receptor 1 (S1PR1) reciprocal downregulation influences cardiac hypertrophic response and progression to heart failure: protective role of S1PR1 cardiac gene therapy. Circulation 128(15): 1612-1622

Nakagawa, T.; Asahi, M. 2013: β1-adrenergic receptor recycles via a membranous organelle, recycling endosome, by binding with sorting nexin27. Journal of Membrane Biology 246(7): 571-579

Jiang, Y.; Zhang, Q.; Ye, E.-A.; Steinle, J.J. 2014: β1-adrenergic receptor stimulation by agonist Compound 49b restores insulin receptor signal transduction in vivo. Molecular Vision 20: 872-880

Wang, S.; Xu, D.; Wu, T.-T.; Guo, Y.; Chen, Y.-H.; Zou, J.-G. 2014: β1-adrenergic regulation of rapid component of delayed rectifier K+ currents in guinea-pig cardiac myocytes. Molecular Medicine Reports 9(5): 1923-1928

Silberman, Y.; Ariwodola, O.J.; Weiner, J.L. 2012: β1-adrenoceptor activation is required for ethanol enhancement of lateral paracapsular GABAergic synapses in the rat basolateral amygdala. Journal of Pharmacology and Experimental Therapeutics 343(2): 451-459

Wang, H.; Liu, J.; Liu, K.; Liu, Y.; Wang, Z.; Lou, Y.; Niu, Q.; Gu, W.; Wang, L.; Li, M.; Zhu, X.; Wen, S. 2013: β1-adrenoceptor gene Arg389Gly polymorphism and essential hypertension risk in general population: a meta-analysis. Molecular Biology Reports 40(6): 4055-4063

Turlo, K.A.; Scapa, J.; Bagher, P.; Jones, A.W.; Feil, R.; Korthuis, R.J.; Segal, S.S.; Iruela-Arispe, M.L. 2013: β1-integrin is essential for vasoregulation and smooth muscle survival in vivo. Arteriosclerosis Thrombosis and Vascular Biology 33(10): 2325-2335

Barkan, D.; Chambers, A.F. 2011: β1-integrin: a potential therapeutic target in the battle against cancer recurrence. Clinical Cancer Research: An Official Journal of the American Association for Cancer Research 17(23): 7219-7223

Lahlou, H.; Muller, W.J. 2011: β1-integrins signaling and mammary tumor progression in transgenic mouse models: implications for human breast cancer. Breast Cancer Research: Bcr 13(6): 229

Ghiasvand, M.; Rezayof, A.; Ahmadi, S.; Zarrindast, M.-R. 2011: β1-noradrenergic system of the central amygdala is involved in state-dependent memory induced by a cannabinoid agonist, WIN55,212-2, in rat. Behavioural Brain Research 225(1): 1-6

Vicco, M.H.; Pujato, N.; Bontempi, I.án.; Rodeles, L.; Marcipar, I.án.; Bottasso, O.A. 2014: β1-selective adrenoceptor antagonists increase plasma levels of anti-p2β antibodies and decrease cardiac involvement in chronic progressive Chagas heart disease. Canadian Journal of Cardiology 30(3): 332-337

De Arcangelis, V.; Serra, F.; Cogoni, C.; Vivarelli, E.; Monaco, L.; Naro, F. 2010: β1-syntrophin modulation by miR-222 in mdx mice. Plos one 5(8)

Destaing, O.; Planus, E.; Bouvard, D.; Oddou, C.; Badowski, C.; Bossy, V.; Raducanu, A.; Fourcade, B.; Albiges-Rizo, C.; Block, M.R. 2010: β1A integrin is a master regulator of invadosome organization and function. Molecular Biology of the Cell 21(23): 4108-4119

Liu, J.; Milner, D.J.; Boppart, M.D.; Ross, R.S.; Kaufman, S.J. 2012: β1D chain increases α7β1 integrin and laminin and protects against sarcolemmal damage in mdx mice. Human Molecular Genetics 21(7): 1592-1603

Hernández-Ochoa, E.O.; Olojo, R.O.; Rebbeck, R.T.; Dulhunty, A.F.; Schneider, M.F. 2014: β1a490-508, a 19-residue peptide from C-terminal tail of Cav1.1 β1a subunit, potentiates voltage-dependent calcium release in adult skeletal muscle fibers. Biophysical Journal 106(3): 535-547

Pozzi, N.; Acquasaliente, L.; Frasson, R.; Cristiani, A.; Moro, S.; Banzato, A.; Pengo, V.; Scaglione, G.L.; Arcovito, A.; De Cristofaro, R.; De Filippis, V. 2013: β2 -Glycoprotein i binds to thrombin and selectively inhibits the enzyme procoagulant functions. Journal of Thrombosis and Haemostasis: Jth 11(6): 1093-1102

Thomsen, M.; Dahl, M.; Tybjaerg-Hansen, A.; Nordestgaard, B.G. 2012: β2 -adrenergic receptor Thr164IIe polymorphism, blood pressure and ischaemic heart disease in 66 750 individuals. Journal of Internal Medicine 271(3): 305-314

Murray, D.R.; Mummidi, S.; Valente, A.J.; Yoshida, T.; Somanna, N.K.; Delafontaine, P.; Dinarello, C.A.; Chandrasekar, B. 2012: β2 adrenergic activation induces the expression of IL-18 binding protein, a potent inhibitor of isoproterenol induced cardiomyocyte hypertrophy in vitro and myocardial hypertrophy in vivo. Journal of Molecular and Cellular Cardiology 52(1): 206-218

Kato, G.; Takahashi, K.; Tashiro, H.; Kurata, K.; Shirai, H.; Kimura, S.; Hayashi, S. 2014: β2 adrenergic agonist attenuates house dust mite-induced allergic airway inflammation through dendritic cells. Bmc Immunology 15: 39

Bubnell, J.; Pfister, P.; Sapar, M.L.; Rogers, M.E.; Feinstein, P. 2013: β2 adrenergic receptor fluorescent protein fusions traffic to the plasma membrane and retain functionality. Plos one 8(9): E74941

Vardeny, O.; Peppard, P.E.; Finn, L.A.; Faraco, J.H.; Mignot, E.; Hla, K.Mae. 2011: β2 adrenergic receptor polymorphisms and nocturnal blood pressure dipping status in the Wisconsin Sleep Cohort Study. Journal of the American Society of Hypertension: Jash 5(2): 114-122

Wang, D.; Fu, Q.; Zhou, Y.; Xu, B.; Shi, Q.; Igwe, B.; Matt, L.; Hell, J.W.; Wisely, E.V.; Oddo, S.; Xiang, Y.K. 2013: β2 adrenergic receptor, protein kinase a (PKA) and c-Jun N-terminal kinase (JNK) signaling pathways mediate tau pathology in Alzheimer disease models. Journal of Biological Chemistry 288(15): 10298-10307

Zlotnik, A.; Klin, Y.; Gruenbaum, B.F.; Gruenbaum, S.E.; Ohayon, S.; Leibowitz, A.; Kotz, R.; Dubilet, M.; Boyko, M.; Shapira, Y.; Teichberg, V.I. 2012: β2 adrenergic-mediated reduction of blood glutamate levels and improved neurological outcome after traumatic brain injury in rats. Journal of Neurosurgical Anesthesiology 24(1): 30-38

Singh, B.; Tiwari, A.K.; Singh, K.; Singh, S.K.; Ahmed, A.; Erwin, P.J.; Franco, P.M. 2014: β2 agonist for the treatment of acute lung injury: a systematic review and meta-analysis. Respiratory Care 59(2): 288-296

March, M.E.; Long, E.O. 2011: β2 integrin induces TCRζ-Syk-phospholipase C-γ phosphorylation and paxillin-dependent granule polarization in human NK cells. Journal of Immunology 186(5): 2998-3005

Raftery, M.J.; Lalwani, P.; Krautkrӓmer, E.; Peters, T.; Scharffetter-Kochanek, K.; Krüger, R.; Hofmann, J.ör.; Seeger, K.; Krüger, D.H.; Schönrich, G.ün. 2014: β2 integrin mediates hantavirus-induced release of neutrophil extracellular traps. Journal of Experimental Medicine 211(7): 1485-1497

Oellerich, T.; Oellerich, M.F.; Engelke, M.; Münch, S.; Mohr, S.; Nimz, M.; Hsiao, H.-H.; Corso, J.; Zhang, J.; Bohnenberger, H.; Berg, T.; Rieger, M.A.; Wienands, J.ür.; Bug, G.; Brandts, C.; Urlaub, H.; Serve, H. 2013: β2 integrin-derived signals induce cell survival and proliferation of AML blasts by activating a Syk/STAT signaling axis. Blood 121(19): 3889-3899 S1-66

Jerke, U.; Rolle, S.; Purfürst, B.; Luft, F.C.; Nauseef, W.M.; Kettritz, R. 2013: β2 integrin-mediated cell-cell contact transfers active myeloperoxidase from neutrophils to endothelial cells. Journal of Biological Chemistry 288(18): 12910-12919

Gorina, R.; Lyck, R.; Vestweber, D.; Engelhardt, B. 2014: β2 integrin-mediated crawling on endothelial ICAM-1 and ICAM-2 is a prerequisite for transcellular neutrophil diapedesis across the inflamed blood-brain barrier. Journal of Immunology 192(1): 324-337

Kim, G.-D.; Lee, S.E.; Yang, H.; Park, H.R.; Son, G.W.; Park, C.-S.; Park, Y.S. 2015: β2 integrins (CD11/18) are essential for the chemosensory adhesion and migration of polymorphonuclear leukocytes on bacterial cellulose. Journal of Biomedical Materials Research. Part a 103(5): 1809-1817

Hartung, J.E.; Ciszek, B.P.; Nackley, A.G. 2014: β2- and β3-adrenergic receptors drive COMT-dependent pain by increasing production of nitric oxide and cytokines. Pain 155(7): 1346-1355

Lomax, A.R.; Cheung, L.V.Y.; Tuohy, K.M.; Noakes, P.S.; Miles, E.A.; Calder, P.C. 2012: β2-1 Fructans have a bifidogenic effect in healthy middle-aged human subjects but do not alter immune responses examined in the absence of an in vivo immune challenge: results from a randomised controlled trial. British Journal of Nutrition 108(10): 1818-1828

Shan, T.; Ma, J.; Ma, Q.; Guo, K.; Guo, J.; Li, X.; Li, W.; Liu, J.; Huang, C.; Wang, F.; Wu, E. 2013: β2-AR-HIF-1α: a novel regulatory axis for stress-induced pancreatic tumor growth and angiogenesis. Current Molecular Medicine 13(6): 1023-1034

Shi, M.; Zhao, M.; Hu, M.; Liu, D.; Cao, H.; Qian, L.; Yang, Z.; Hu, Y.; Yu, M.; Yang, S.; Ma, Y.; Guo, N. 2013: β2-AR-induced Her2 transactivation mediated by Erbin confers protection from apoptosis in cardiomyocytes. International Journal of Cardiology 167(4): 1570-1577

Manni, M.; Granstein, R.D.; Maestroni, G. 2011: β2-Adrenergic agonists bias TLR-2 and NOD2 activated dendritic cells towards inducing an IL-17 immune response. Cytokine 55(3): 380-386

Caro, L.N.; Moreau, C.J.; Revilloud, J.; Vivaudou, M. 2011: β2-Adrenergic ion-channel coupled receptors as conformational motion detectors. Plos one 6(3): E18226

Szepietowska, B.; Zhu, W.; Sherwin, R.S. 2013: β2-Adrenergic receptor agonist administration promotes counter-regulatory responses and recovery from hypoglycaemia in rats. Diabetologia 56(11): 2517-2523

Mellios, N.; Woodson, J.; Garcia, R.I.; Crawford, B.; Sharma, J.; Sheridan, S.D.; Haggarty, S.J.; Sur, M. 2014: β2-Adrenergic receptor agonist ameliorates phenotypes and corrects microRNA-mediated IGF1 deficits in a mouse model of Rett syndrome. Proceedings of the National Academy of Sciences of the United States of America 111(27): 9947-9952

Chen, X.; Fahy, A.L.; Green, A.S.; Anderson, M.J.; Rhoads, R.P.; Limesand, S.W. 2010: β2-Adrenergic receptor desensitization in perirenal adipose tissue in fetuses and lambs with placental insufficiency-induced intrauterine growth restriction. Journal of Physiology 588(Part 18): 3539-3549

Ma, Y.; Nyman, J.S.; Tao, H.; Moss, H.H.; Yang, X.; Elefteriou, F. 2011: β2-Adrenergic receptor signaling in osteoblasts contributes to the catabolic effect of glucocorticoids on bone. Endocrinology 152(4): 1412-1422

LaRocca, T.J.; Schwarzkopf, M.; Altman, P.; Zhang, S.; Gupta, A.; Gomes, I.; Alvin, Z.; Champion, H.C.; Haddad, G.; Hajjar, R.J.; Devi, L.A.; Schecter, A.D.; Tarzami, S.T. 2010: β2-Adrenergic receptor signaling in the cardiac myocyte is modulated by interactions with CXCR4. Journal of Cardiovascular Pharmacology 56(5): 548-559

Horst, R.; Stanczak, P.; Stevens, R.C.; Wüthrich, K. 2013: β2-Adrenergic receptor solutions for structural biology analyzed with microscale NMR diffusion measurements. Angewandte Chemie 52(1): 331-335

Galasso, G.; De Rosa, R.; Ciccarelli, M.; Sorriento, D.; Del Giudice, C.; Strisciuglio, T.; De Biase, C.; Luciano, R.; Piccolo, R.; Pierri, A.; Di Gioia, G.; Prevete, N.; Trimarco, B.; Piscione, F.; Iaccarino, G. 2013: β2-Adrenergic receptor stimulation improves endothelial progenitor cell-mediated ischemic neoangiogenesis. Circulation Research 112(7): 1026-1034

Qian, H.; Matt, L.; Zhang, M.; Nguyen, M.; Patriarchi, T.; Koval, O.M.; Anderson, M.E.; He, K.; Lee, H.-K.; Hell, J.W. 2012: β2-Adrenergic receptor supports prolonged theta tetanus-induced LTP. Journal of Neurophysiology 107(10): 2703-2712

Nagai, H.; Kuwahira, I.; Schwenke, D.O.; Tsuchimochi, H.; Nara, A.; Inagaki, T.; Ogura, S.; Fujii, Y.; Umetani, K.; Shimosawa, T.; Yoshida, K-ichi.; Pearson, J.T.; Uemura, K.; Shirai, M. 2014: β2-Adrenergic receptor-dependent attenuation of hypoxic pulmonary vasoconstriction prevents progression of pulmonary arterial hypertension in intermittent hypoxic rats. Plos one 9(10): E110693

Chen, H.; Ma, N.; Xia, J.; Liu, J.; Xu, Z. 2012: β2-Adrenergic receptor-induced transactivation of epidermal growth factor receptor and platelet-derived growth factor receptor via Src kinase promotes rat cardiomyocyte survival. Cell Biology International 36(3): 237-244

Sironi, C.; Bodega, F.; Armilli, M.; Porta, C.; Zocchi, L.; Agostoni, E. 2010: β2-Adrenergic receptors and G-protein-coupled receptor kinase 2 in rabbit pleural mesothelium. Respiratory Physiology and Neurobiology 173(2): 189-191

Baloglu, E.; Reingruber, T.; Bärtsch, P.; Mairbäurl, H. 2011: β2-Adrenergics in hypoxia desensitize receptors but blunt inhibition of reabsorption in rat lungs. American Journal of Respiratory Cell and Molecular Biology 45(5): 1059-1068

Holden, N.S.; Bell, M.J.; Rider, C.F.; King, E.M.; Gaunt, D.D.; Leigh, R.; Johnson, M.; Siderovski, D.P.; Heximer, S.P.; Giembycz, M.A.; Newton, R. 2011: β2-Adrenoceptor agonist-induced RGS2 expression is a genomic mechanism of bronchoprotection that is enhanced by glucocorticoids. Proceedings of the National Academy of Sciences of the United States of America 108(49): 19713-19718

Thanawala, V.J.; Forkuo, G.S.; Al-Sawalha, N.; Azzegagh, Z.; Nguyen, L.P.; Eriksen, J.L.; Tuvim, M.J.; Lowder, T.W.; Dickey, B.F.; Knoll, B.J.; Walker, J.K.L.; Bond, R.A. 2013: β2-Adrenoceptor agonists are required for development of the asthma phenotype in a murine model. American Journal of Respiratory Cell and Molecular Biology 48(2): 220-229

Peterson, Y.K.; Cameron, R.B.; Wills, L.P.; Trager, R.E.; Lindsey, C.C.; Beeson, C.C.; Schnellmann, R.G. 2013: β2-Adrenoceptor agonists in the regulation of mitochondrial biogenesis. Bioorganic and Medicinal Chemistry Letters 23(19): 5376-5381

Frey, U.H.; Karlik, J.; Herbstreit, F.; Peters, J. 2014: β2-Adrenoceptor gene variants affect vasopressor requirements in patients after thoracic epidural anaesthesia. British Journal of Anaesthesia 112(3): 477-484

Zhou, Y.; Zhang, Y.; Guo, Y.; Zhang, Y.; Xu, M.; He, B. 2014: β2-Adrenoceptor involved in smoking-induced airway mucus hypersecretion through β-arrestin-dependent signaling. Plos one 9(6): E97788

Binaei, S.; Rashed, S.M.; Christensen, M.L. 2003: β2-Adrenoreceptor Polymorphisms in Asthmatic Patients. Journal of Pediatric Pharmacology and Therapeutics: Jppt: the Official Journal of Ppag 8(1): 22-28

Hervé, J.; Dubreil, L.; Tardif, V.; Terme, M.; Pogu, S.; Anegon, I.; Rozec, B.; Gauthier, C.; Bach, J-Marie.; Blancou, P. 2013: β2-Adrenoreceptor agonist inhibits antigen cross-presentation by dendritic cells. Journal of Immunology 190(7): 3163-3171

Vida, G.; Peña, G.; Kanashiro, A.; Thompson-Bonilla, M.del.Rocio.; Palange, D.; Deitch, E.A.; Ulloa, L. 2011: β2-Adrenoreceptors of regulatory lymphocytes are essential for vagal neuromodulation of the innate immune system. Faseb Journal: Official Publication of the Federation of American Societies for Experimental Biology 25(12): 4476-4485

Trian, T.; Burgess, J.K.; Niimi, K.; Moir, L.M.; Ge, Q.; Berger, P.; Liggett, S.B.; Black, J.L.; Oliver, B.G. 2011: β2-Agonist induced cAMP is decreased in asthmatic airway smooth muscle due to increased PDE4D. Plos one 6(5): E20000

Nie, Z.; Fryer, A.D.; Jacoby, D.B. 2012: β2-Agonists inhibit TNF-α-induced ICAM-1 expression in human airway parasympathetic neurons. Plos one 7(9): E44780

Niimi, K.; Ge, Q.; Moir, L.M.; Ammit, A.J.; Trian, T.; Burgess, J.K.; Black, J.L.; Oliver, B.G.G. 2012: β2-Agonists upregulate PDE4 mRNA but not protein or activity in human airway smooth muscle cells from asthmatic and nonasthmatic volunteers. American Journal of Physiology. Lung Cellular and Molecular Physiology 302(3): L334-L342

Blank, M.; Baraam, L.; Eisenstein, M.; Fridkin, M.; Dardik, R.; Heldman, Y.; Katchalski-Katzir, E.; Shoenfeld, Y. 2011: β2-Glycoprotein-i based peptide regulate endothelial-cells tissue-factor expression via negative regulation of pGSK3β expression and reduces experimental-antiphospholipid-syndrome. Journal of Autoimmunity 37(1): 8-17

Goodchild, S.C.; Sheynis, T.; Thompson, R.; Tipping, K.W.; Xue, W.-F.; Ranson, N.A.; Beales, P.A.; Hewitt, E.W.; Radford, S.E. 2014: β2-Microglobulin amyloid fibril-induced membrane disruption is enhanced by endosomal lipids and acidic pH. Plos one 9(8): E104492

Raikou, V.D.; Tentolouris, N.; Kyriaki, D.; Evaggelatou, A.; Tzanatou, H. 2011: β2-Microglobulin, pulse pressure and metabolic alterations in hemodialysis patients. Nephron. Clinical Practice 117(3): C237-C245

Schubert, S.; Knoch, K.-P.; Ouwendijk, J.; Mohammed, S.; Bodrov, Y.; Jäger, M.; Altkrüger, A.; Wegbrod, C.; Adams, M.E.; Kim, Y.; Froehner, S.C.; Jensen, O.N.; Kalaidzidis, Y.; Solimena, M. 2010: β2-Syntrophin is a Cdk5 substrate that restrains the motility of insulin secretory granules. Plos one 5(9): E12929

Zhang, D.; Ma, Q.-Y.; Hu, H.-T.; Zhang, M. 2010: β2-adrenergic antagonists suppress pancreatic cancer cell invasion by inhibiting CREB, NFκB and AP-1. Cancer Biology and Therapy 10(1): 19-29

Thomsen, M.; Dahl, M.; Tybjærg-Hansen, A.; Nordestgaard, B.ør.G. 2012: β2-adrenergic receptor Thr164Ile polymorphism, obesity, and diabetes: comparison with FTO, MC4R, and TMEM18 polymorphisms in more than 64,000 individuals. Journal of Clinical Endocrinology and Metabolism 97(6): E1074-E1079

Qian, L.; Wu, H-ming.; Chen, S-Heng.; Zhang, D.; Ali, S.F.; Peterson, L.; Wilson, B.; Lu, R-Band.; Hong, J-Shyong.; Flood, P.M. 2011: β2-adrenergic receptor activation prevents rodent dopaminergic neurotoxicity by inhibiting microglia via a novel signaling pathway. Journal of Immunology 186(7): 4443-4454

Goncharova, E.A.; Goncharov, D.A.; Zhao, H.; Penn, R.B.; Krymskaya, V.P.; Panettieri, R.A. 2012: β2-adrenergic receptor agonists modulate human airway smooth muscle cell migration via vasodilator-stimulated phosphoprotein. American Journal of Respiratory Cell and Molecular Biology 46(1): 48-54

Dong, J.-h.; Chen, X.; Cui, M.; Yu, X.; Pang, Q.; Sun, J.-p. 2012: β2-adrenergic receptor and astrocyte glucose metabolism. Journal of Molecular Neuroscience: Mn 48(2): 456-463

Pei, Y.; Bai, X.; Dong, H.; Han, H.; Zhang, Z.; Dong, H.; Hou, L.; Xiong, L. 2011: β2-adrenergic receptor antagonist butoxamine partly abolishes the protection of 100% oxygen treatment against zymosan-induced generalized inflammation in mice. Shock 36(3): 272-278

Poziomkowska-Gesicka, I.; Gawlikowska-Sroka, A.; Dzieciolowska-Baran, E.; Teul, I.; Adler, G.; Ciechanowicz, A.; Kurek, M. 2013: β2-adrenergic receptor gene polymorphism and response to bronchodilating treatment evaluated by spirometry. Advances in Experimental Medicine and Biology 755: 169-177

Al-Rubaish, A. 2011: β2-adrenergic receptor gene polymorphisms in normal and asthmatic individuals in the Eastern Province of Saudi Arabia. Annals of Saudi Medicine 31(6): 586-590

Reitman, E.; Conell-Price, J.; Evansmith, J.; Olson, L.; Drosinos, S.; Jasper, N.; Randolph, P.; Smiley, R.M.; Shafer, S.; Flood, P. 2011: β2-adrenergic receptor genotype and other variables that contribute to labor pain and progress. Anesthesiology 114(4): 927-939

Truijen, J.; de Peuter, O.R.; Kim, Y.-S.; van den Bogaard, B.; Kok, W.E.; Kamphuisen, P.W.; van Lieshout, J.J. 2011: β2-adrenergic receptor genotype influences the effect of nonselective vs. selective β-blockade on baroreflex function in chronic heart failure. International Journal of Cardiology 153(2): 230-232

Carroll, C.L.; Sala, K.A.; Zucker, A.R.; Schramm, C.M. 2012: β2-adrenergic receptor haplotype linked to intubation and mechanical ventilation in children with asthma. Journal of Asthma: Official Journal of the Association for the Care of Asthma 49(6): 563-568

Jiang, Y.; Zhang, Q.; Liu, L.; Tang, J.; Kern, T.S.; Steinle, J.J. 2013: β2-adrenergic receptor knockout mice exhibit a diabetic retinopathy phenotype. Plos one 8(7): E70555

Thomsen, M.; Nordestgaard, B.G.; Sethi, A.A.; Tybjærg-Hansen, A.; Dahl, M. 2012: β2-adrenergic receptor polymorphisms, asthma and COPD: two large population-based studies. European Respiratory Journal 39(3): 558-566

Gregg, C.J.; Steppan, J.; Gonzalez, D.R.; Champion, H.C.; Phan, A.C.; Nyhan, D.; Shoukas, A.A.; Hare, J.M.; Barouch, L.A.; Berkowitz, D.E. 2010: β2-adrenergic receptor-coupled phosphoinositide 3-kinase constrains cAMP-dependent increases in cardiac inotropy through phosphodiesterase 4 activation. Anesthesia and Analgesia 111(4): 870-877

Mitchell, J.; Lai, L.P.; Peralta, F.; Xu, Y.; Sugamori, K. 2011: β2-adrenergic receptors inhibit the expression of collagen type Ii in growth plate chondrocytes by stimulating the AP-1 factor Jun-B. American Journal of Physiology. Endocrinology and Metabolism 300(4): E633-E639

Lomsadze, G.O.; Enukidze, M.G.; Machavariani, M.G.; Kioaroidze, S.A.; Gogebashvili, N.B.; Sanikidze, T.V. 2013: β2-adrenergic regulation of T lymphocites function (in vitro study). Georgian Medical News 223: 60-64

Hostrup, M.; Kalsen, A.; Ortenblad, N.; Juel, C.; Mørch, K.; Rzeppa, S.; Karlsson, S.; Backer, V.; Bangsbo, J. 2014: β2-adrenergic stimulation enhances Ca2+ release and contractile properties of skeletal muscles, and counteracts exercise-induced reductions in Na+-K+-ATPase Vmax in trained men. Journal of Physiology 592(24): 5445-5459

Jiang, X.; Xu, C.; Wang, Y.; Gao, L.; Yan, C.; Li, D.; Sun, H. 2012: β2-adrenoceptor transfection enhances contractile reserve of isolated rat ventricular myocytes exposed to chronic isoprenaline stimulation by improving β1-adrenoceptor responsiveness. Journal of Receptor and Signal Transduction Research 32(1): 36-41

Shirato, K.; Sato, S.; Sato, M.; Hashizume, Y.; Tachiyashiki, K.; Imaizumi, K. 2013: β2-agonist clenbuterol suppresses bacterial phagocytosis of splenic macrophages expressing high levels of macrophage receptor with collagenous structure. Biological and Pharmaceutical Bulletin 36(3): 475-480

Cazzola, M.; Page, C.P.; Rogliani, P.; Matera, M.G. 2013: β2-agonist therapy in lung disease. American Journal of Respiratory and Critical Care Medicine 187(7): 690-696

Budinger, G.R.S.; Mutlu, G.ök.M. 2014: β2-agonists and acute respiratory distress syndrome. American Journal of Respiratory and Critical Care Medicine 189(6): 624-625

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Reed, J.H.; Clancy, R.M.; Purcell, A.W.; Kim, M.Y.; Gordon, T.P.; Buyon, J.P. 2011: β2-glycoprotein i and protection from anti-SSA/Ro60-associated cardiac manifestations of neonatal lupus. Journal of Immunology 187(1): 520-526

Raschi, E.; Chighizola, C.B.; Grossi, C.; Ronda, N.; Gatti, R.; Meroni, P.L.; Borghi, M.O. 2014: β2-glycoprotein I, lipopolysaccharide and endothelial TLR4: three players in the two hit theory for anti-phospholipid-mediated thrombosis. Journal of Autoimmunity 55: 42-50

Müller, C.; Thaler, M.; Schlichtiger, A.; Schreiegg, A.; Balling, G.; Steigerwald, U.; Luppa, P.B. 2010: β2-glycoprotein I-derived peptides as antigenic structures for the detection of antiphospholipid antibodies. Journal of Thrombosis and Haemostasis: Jth 8(9): 2073-2075

Zarbock, A. 2013: β2-integrin activity: the role of thiols. Blood 121(19): 3779-3780

Jakhria, T.; Hellewell, A.L.; Porter, M.Y.; Jackson, M.P.; Tipping, K.W.; Xue, W-Feng.; Radford, S.E.; Hewitt, E.W. 2014: β2-microglobulin amyloid fibrils are nanoparticles that disrupt lysosomal membrane protein trafficking and inhibit protein degradation by lysosomes. Journal of Biological Chemistry 289(52): 35781-35794

Rajan, T.V.; Potter, T.A. 1986: β2-microglobulin and MHC antigen expression. Immunology Today 7(1): 7-8

Josson, S.; Nomura, T.; Lin, J.-T.; Huang, W.-C.; Wu, D.; Zhau, H.E.; Zayzafoon, M.; Weizmann, M.N.; Gururajan, M.; Chung, L.W.K. 2011: β2-microglobulin induces epithelial to mesenchymal transition and confers cancer lethality and bone metastasis in human cancer cells. Cancer Research 71(7): 2600-2610

Pollard, K.M.; Hultman, P.; Toomey, C.B.; Cauvi, D.M.; Kono, D.H.; Konoc, D.H. 2011: β2-microglobulin is required for the full expression of xenobiotic-induced systemic autoimmunity. Journal of Immunotoxicology 8(3): 228-237

Kals, J.; Zagura, M.; Serg, M.; Kampus, P.; Zilmer, K.; Unt, E.; Lieberg, J.ür.; Eha, J.; Peetsalu, A.; Zilmer, M. 2011: β2-microglobulin, a novel biomarker of peripheral arterial disease, independently predicts aortic stiffness in these patients. Scandinavian Journal of Clinical and Laboratory Investigation 71(4): 257-263

Joosten, M.M.; Pai, J.K.; Bertoia, M.L.; Gansevoort, R.T.; Bakker, S.J.L.; Cooke, J.P.; Rimm, E.B.; Mukamal, K.J. 2014: β2-microglobulin, cystatin C, and creatinine and risk of symptomatic peripheral artery disease. Journal of the American Heart Association 3(4)

García-Prieto, J.; García-Ruiz, J.Manuel.; Sanz-Rosa, D.; Pun, Aés.; García-Alvarez, A.; Davidson, S.M.; Fernández-Friera, L.; Nuno-Ayala, M.; Fernández-Jiménez, R.; Bernal, J.A.; Izquierdo-Garcia, Jé.Luis.; Jimenez-Borreguero, Jús.; Pizarro, G.; Ruiz-Cabello, Jús.; Macaya, C.; Fuster, Vín.; Yellon, D.M.; Ibanez, B. 2014: β3 adrenergic receptor selective stimulation during ischemia/reperfusion improves cardiac function in translational models through inhibition of mPTP opening in cardiomyocytes. Basic Research in Cardiology 109(4): 422

Balasubramanian, S.; Quinones, L.; Kasiganesan, H.; Zhang, Y.; Pleasant, D.L.; Sundararaj, K.P.; Zile, M.R.; Bradshaw, A.D.; Kuppuswamy, D. 2012: β3 integrin in cardiac fibroblast is critical for extracellular matrix accumulation during pressure overload hypertrophy in mouse. Plos one 7(9): E45076

Pozo, K.; Cingolani, L.A.; Bassani, S.; Laurent, F.; Passafaro, M.; Goda, Y. 2012: β3 integrin interacts directly with GluA2 AMPA receptor subunit and regulates AMPA receptor expression in hippocampal neurons. Proceedings of the National Academy of Sciences of the United States of America 109(4): 1323-1328

Feng, X.-X.; Liu, M.; Yan, W.; Zhou, Z.-Z.; Xia, Y.-J.; Tu, W.; Li, P.-Y.; Tian, D.-A. 2013: β3 integrin promotes TGF-β1/H2O2/HOCl-mediated induction of metastatic phenotype of hepatocellular carcinoma cells by enhancing TGF-β1 signaling. Plos one 8(11): E79857

Balanis, N.; Yoshigi, M.; Wendt, M.K.; Schiemann, W.P.; Carlin, C.R. 2011: β3 integrin-EGF receptor cross-talk activates p190RhoGAP in mouse mammary gland epithelial cells. Molecular Biology of the Cell 22(22): 4288-4301

Masutani, S.; Cheng, H.-J.; Morimoto, A.; Hasegawa, H.; Han, Q.-H.; Little, W.C.; Cheng, C.P. 2013: β3-Adrenergic receptor antagonist improves exercise performance in pacing-induced heart failure. American Journal of Physiology. Heart and Circulatory Physiology 305(6): H923-H930

Kuo, N-Wei.; Tung, K-Yen.; Tsai, C-Hui.; Chen, Y-Ching.; Lee, Y.Leo. 2014: β3-Adrenergic receptor gene modifies the association between childhood obesity and asthma. Journal of Allergy and Clinical Immunology 134(3): 731-733.E3

Roth Flach, R.J.; Matevossian, A.; Akie, T.E.; Negrin, K.A.; Paul, M.T.; Czech, M.P. 2013: β3-Adrenergic receptor stimulation induces E-selectin-mediated adipose tissue inflammation. Journal of Biological Chemistry 288(4): 2882-2892

Kayki-Mutlu, G.; Arioglu-Inan, E.; Ozakca, I.; Ozcelikay, A.T.; Altan, V.M. 2014: β3-Adrenoceptor-mediated responses in diabetic rat heart. General Physiology and Biophysics 33(1): 99-109

Niu, X.; Zhao, L.; Li, X.; Xue, Y.; Wang, B.; Lv, Z.; Chen, J.; Sun, D.; Zheng, Q. 2014: β3-Adrenoreceptor stimulation protects against myocardial infarction injury via eNOS and nNOS activation. Plos one 9(6): E98713

Dal Monte, M.; Fornaciari, I.; Nicchia, G.Paola.; Svelto, M.; Casini, G.; Bagnoli, P. 2014: β3-adrenergic receptor activity modulates melanoma cell proliferation and survival through nitric oxide signaling. Naunyn-Schmiedeberg's Archives of Pharmacology 387(6): 533-543

Liu, Y.; Geng, J.; Liu, Y.; Li, Y.; Shen, J.; Xiao, X.; Sheng, L.; Yang, B.; Cheng, C.; Li, W. 2013: β3-adrenoceptor mediates metabolic protein remodeling in a rabbit model of tachypacing-induced atrial fibrillation. Cellular Physiology and Biochemistry: International Journal of Experimental Cellular Physiology Biochemistry and Pharmacology 32(6): 1631-1642

Kasahara, H.; Muto, S.-I.; Motokawa, Y.; Arisaka, N.; Kobayashi, S.; Souma, S.; Kuroda, J. 2010: β3-adrenoceptor-mediated increased circulating transaminase levels in mice treated with its agonist BRL 37344. Journal of Toxicological Sciences 35(5): 779-784

Gericke, A.; Böhmer, T.; Michel, M.C. 2013: β3-adrenoceptors: a drug target in ophthalmology?. Naunyn-Schmiedeberg's Archives of Pharmacology 386(4): 265-267

Chapple, C.R. 2012: β3-agonist therapy: a new advance in the management of overactive bladder?. European Urology 62(5): 841-842

Zubeldia-Brenner, L.; Gutierrez-Uzquiza, A.; Barrio-Real, L.; Wang, H.; Kazanietz, M.G.; Leskow, F.Coluccio. 2014: β3-chimaerin, a novel member of the chimaerin Rac-GAP family. Molecular Biology Reports 41(4): 2067-2076

Brennan, S.O.; King, R.I.; Florkowski, C.M. 2012: β37Trp→Cys mutation leads to multiple new hemoglobin species in red cells. Clinical Biochemistry 45(3): 259-263

Henion, T.R.; Faden, A.A.; Knott, T.K.; Schwarting, G.A. 2011: β3GnT2 maintains adenylyl cyclase-3 signaling and axon guidance molecule expression in the olfactory epithelium. Journal of Neuroscience: the Official Journal of the Society for Neuroscience 31(17): 6576-6586

Jiang, Z.; Hu, S.; Hua, D.; Ni, J.; Xu, L.; Ge, Y.; Zhou, Y.; Cheng, Z.; Wu, S. 2014: β3GnT8 plays an important role in CD147 signal transduction as an upstream modulator of MMP production in tumor cells. Oncology Reports 32(3): 1156-1162

Hua, D.; Qin, F.; Shen, L.; Jiang, Z.; Zou, S.-T.; Xu, L.; Cheng, Z.-H.; Wu, S.-L. 2012: β3GnT8 regulates laryngeal carcinoma cell proliferation via targeting MMPs/TIMPs and TGF-β1. Asian Pacific Journal of Cancer Prevention: Apjcp 13(5): 2087-2093

Ni, J.; Jiang, Z.; Shen, L.; Gao, L.; Yu, M.; Xu, X.; Zou, S.; Hua, D.; Wu, S. 2014: β3GnT8 regulates the metastatic potential of colorectal carcinoma cells by altering the glycosylation of CD147. Oncology Reports 31(4): 1795-1801

Yoshioka, T.; Otero, J.; Chen, Y.; Kim, Y.-M.; Koutcher, J.A.; Satagopan, J.; Reuter, V.; Carver, B.; de Stanchina, E.; Enomoto, K.; Greenberg, N.M.; Scardino, P.T.; Scher, H.I.; Sawyers, C.L.; Giancotti, F.G. 2013: β4 Integrin signaling induces expansion of prostate tumor progenitors. Journal of Clinical Investigation 123(2): 682-699

Liadaki, K.; Casar, J.C.; Wessen, M.; Luth, E.S.; Jun, S.; Gussoni, E.; Kunkel, L.M. 2012: β4 integrin marks interstitial myogenic progenitor cells in adult murine skeletal muscle. Journal of Histochemistry and Cytochemistry: Official Journal of the Histochemistry Society 60(1): 31-44

Kumano, M.; Miyake, H.; Abolghait, S.K.; Behnsawy, H.M.; Fujisawa, M. 2013: β4-integrin-mediated cytotoxic activity of AexU in human prostate cancer PC3 cells. Oncology Letters 6(5): 1482-1486

Bai, J.-P.; Surguchev, A.; Navaratnam, D. 2011: β4-subunit increases Slo responsiveness to physiological Ca2+ concentrations and together with β1 reduces surface expression of Slo in hair cells. American Journal of Physiology. Cell Physiology 300(3): C435-C446

Tokuda, N.; Numata, S.; Li, X.; Nomura, T.; Takizawa, M.; Kondo, Y.; Yamashita, Y.; Hashimoto, N.; Kiyono, T.; Urano, T.; Furukawa, K.; Furukawa, K. 2013: β4GalT6 is involved in the synthesis of lactosylceramide with less intensity than β4GalT5. Glycobiology 23(10): 1175-1183

Ballana, E.; Pauls, E.; Clotet, B.; Perron-Sierra, Fçoise.; Tucker, G.C.; Esté, Jé.A. 2011: β5 integrin is the major contributor to the αVintegrin-mediated blockade of HIV-1 replication. Journal of Immunology 186(1): 464-470

Sano, Y.; Kogashiwa, Y.; Araki, R.; Enoki, Y.; Ikeda, T.; Yoda, T.; Nakahira, M.; Sugasawa, M. 2018: Correlation of Inflammatory Markers, Survival, and COX2 Expression in Oral Cancer and Implications for Prognosis. Otolaryngology--Head and Neck Surgery: Official Journal of American Academy of Otolaryngology-Head and Neck Surgery 158(4): 667-676

Lin, C.-Y.; Chen, H.-J.; Li, T.-M.; Fong, Y.-C.; Liu, S.-C.; Chen, P.-C.; Tang, C.-H. 2013: β5 integrin up-regulation in brain-derived neurotrophic factor promotes cell motility in human chondrosarcoma. Plos one 8(7): E67990

Volkov, A.; Hagner, S.; Löser, S.; Alnahas, S.; Raifer, H.; Hellhund, A.; Garn, H.; Steinhoff, U. 2013: β5i subunit deficiency of the immunoproteasome leads to reduced Th2 response in OVA induced acute asthma. Plos one 8(4): E60565

Takahama, Y.; Takada, K.; Murata, S.; Tanaka, K. 2012: β5t-containing thymoproteasome: specific expression in thymic cortical epithelial cells and role in positive selection of CD8+ T cells. Current Opinion in Immunology 24(1): 92-98

Gao, H.; Peng, C.; Liang, B.; Shahbaz, M.; Liu, S.; Wang, B.; Sun, Q.; Niu, Z.; Niu, W.; Liu, E.; Wang, J.; Lin, P.; Wang, J.; Niu, J. 2014: β6 integrin induces the expression of metalloproteinase-3 and metalloproteinase-9 in colon cancer cells via ERK-ETS1 pathway. Cancer Letters 354(2): 427-437

Yamada, D.; Kadono, T.; Masui, Y.; Yanaba, K.; Sato, S. 2014: β7 Integrin controls mast cell recruitment, whereas αE integrin modulates the number and function of CD8+ T cells in immune complex-mediated tissue injury. Journal of Immunology 192(9): 4112-4121

Schippers, A.; Kochut, A.; Pabst, O.; Frischmann, U.; Clahsen, T.; Tenbrock, K.; Müller, W.; Wagner, N. 2012: β7 integrin controls immunogenic and tolerogenic mucosal B cell responses. Clinical Immunology 144(2): 87-97

Villablanca, E.J.; De Calisto, J.; Torregrosa Paredes, P.; Cassani, B.; Nguyen, D.D.; Gabrielsson, S.; Mora, J.R. 2014: β7 integrins are required to give rise to intestinal mononuclear phagocytes with tolerogenic potential. Gut 63(9): 1431-1440

Jung, Y.; Kissil, J.L.; McCarty, J.H. 2011: β8 integrin and band 4.1B cooperatively regulate morphogenesis of the embryonic heart. Developmental Dynamics: An Official Publication of the American Association of Anatomists 240(1): 271-277

Mobley, A.K.; McCarty, J.H. 2011: β8 integrin is essential for neuroblast migration in the rostral migratory stream. Glia 59(11): 1579-1587

Singh, S.; Bora-Singhal, N.; Kroeger, J.; Laklai, H.; Chellappan, S.P. 2013: βArrestin-1 and Mcl-1 modulate self-renewal growth of cancer stem-like side-population cells in non-small cell lung cancer. Plos one 8(2): E55982

Ma, X.; Espana-Serrano, L.; Kim, W.-j.; Thayele Purayil, H.; Nie, Z.; Daaka, Y. 2014: βArrestin1 regulates the guanine nucleotide exchange factor RasGRF2 expression and the small GTPase Rac-mediated formation of membrane protrusion and cell motility. Journal of Biological Chemistry 289(19): 13638-13650

Lymperopoulos, A.; Negussie, S. 2013: βArrestins in cardiac G protein-coupled receptor signaling and function: partners in crime or "good cop, bad cop"?. International Journal of Molecular Sciences 14(12): 24726-24741

Dolinska, M.B.; Wingfield, P.T.; Sergeev, Y.V. 2012: βB1-crystallin: thermodynamic profiles of molecular interactions. Plos one 7(1): E29227

Böhm, M.R.R.; Prokosch, V.; Brückner, M.; Pfrommer, S.; Melkonyan, H.; Thanos, S. 2015: βB2-Crystallin Promotes Axonal Regeneration in the Injured Optic Nerve in Adult Rats. Cell Transplantation 24(9): 1829-1844

Cheng, X.; Wang, X.; Wu, J.; Briddon, R.W.; Zhou, X. 2011: βC1 encoded by tomato yellow leaf curl China betasatellite forms multimeric complexes in vitro and in vivo. Virology 409(2): 156-162

Kumar, J.; Kumar, J.; Singh, S.P.; Tuli, R. 2014: βC1 is a pathogenicity determinant: not only for begomoviruses but also for a mastrevirus. Archives of Virology 159(11): 3071-3076

Tahir, M.N.; Mansoor, S. 2011: βC1 of chili leaf curl betasatellite is a pathogenicity determinant. Virology Journal 8: 509

Cavanagh, C.; Colby-Milley, J.; Bouvier, D.; Farso, M.; Chabot, J.-G.; Quirion, R.ém.; Krantic, S. 2013: βCTF-correlated burst of hippocampal TNFα occurs at a very early, pre-plaque stage in the TgCRND8 mouse model of Alzheimer's disease. Journal of Alzheimer's Disease: Jad 36(2): 233-238

Li, K.; Zhou, T.; Liao, L.; Yang, Z.; Wong, C.; Henn, F.; Malinow, R.; Yates, J.R.; Hu, H. 2013: βCaMKIi in lateral habenula mediates core symptoms of depression. Science 341(6149): 1016-1020

Borgesius, N.Z.; van Woerden, G.M.; Buitendijk, G.H.S.; Keijzer, N.; Jaarsma, D.; Hoogenraad, C.C.; Elgersma, Y. 2011: βCaMKIi plays a nonenzymatic role in hippocampal synaptic plasticity and learning by targeting αCaMKIi to synapses. Journal of Neuroscience: the Official Journal of the Society for Neuroscience 31(28): 10141-10148

Drummond, H.A. 2012: βENaC is a molecular component of a VSMC mechanotransducer that contributes to renal blood flow regulation, protection from renal injury, and hypertension. Frontiers in Physiology 3: 341

Chung, W.-S.; Weissman, J.L.; Farley, J.; Drummond, H.A. 2013: βENaC is required for whole cell mechanically gated currents in renal vascular smooth muscle cells. American Journal of Physiology. Renal Physiology 304(12): F1428-F1437

Zhi, X.; Lin, L.; Yang, S.; Bhuvaneshwar, K.; Wang, H.; Gusev, Y.; Lee, M.-H.; Kallakury, B.; Shivapurkar, N.; Cahn, K.; Tian, X.; Marshall, J.L.; Byers, S.W.; He, A.R. 2015: βII-Spectrin (SPTBN1) suppresses progression of hepatocellular carcinoma and Wnt signaling by regulation of Wnt inhibitor kallistatin. Hepatology 61(2): 598-612

Kanakkanthara, A.; Northcote, P.T.; Miller, J.H. 2012: βII-tubulin and βIII-tubulin mediate sensitivity to peloruside a and laulimalide, but not paclitaxel or vinblastine, in human ovarian carcinoma cells. Molecular Cancer Therapeutics 11(2): 393-404

Salcedo-Sicilia, L.; Granell, S.; Jovic, M.; Sicart, A.à; Mato, E.; Johannes, L.; Balla, T.; Egea, G. 2013: βIIi spectrin regulates the structural integrity and the secretory protein transport of the Golgi complex. Journal of Biological Chemistry 288(4): 2157-2166

Martín, I.; Hernández-Nistal, J.; Albornos, L.ía.; Labrador, E.; Dopico, B. 2013: βIII-Gal is involved in galactan reduction during phloem element differentiation in chickpea stems. Plant and Cell Physiology 54(6): 960-970

Karki, R.; Mariani, M.; Andreoli, M.; He, S.; Scambia, G.; Shahabi, S.; Ferlini, C. 2013: βIII-Tubulin: biomarker of taxane resistance or drug target?. Expert Opinion on Therapeutic Targets 17(4): 461-472

Tsourlakis, M.C.; Weigand, P.; Grupp, K.; Kluth, M.; Steurer, S.; Schlomm, T.; Graefen, M.; Huland, H.; Salomon, G.; Steuber, T.; Wilczak, W.; Sirma, H.üs.; Simon, R.; Sauter, G.; Minner, S.; Quaas, A. 2014: βIII-tubulin overexpression is an independent predictor of prostate cancer progression tightly linked to ERG fusion status and PTEN deletion. American Journal of Pathology 184(3): 609-617

Ferreira, J.C.B.; Brum, P.C.; Mochly-Rosen, D. 2011: βIIPKC and εPKC isozymes as potential pharmacological targets in cardiac hypertrophy and heart failure. Journal of Molecular and Cellular Cardiology 51(4): 479-484

Kline, C.F.; Wright, P.J.; Koval, O.M.; Zmuda, E.J.; Johnson, B.L.; Anderson, M.E.; Hai, T.; Hund, T.J.; Mohler, P.J. 2013: βIV-Spectrin and CaMKIi facilitate Kir6.2 regulation in pancreatic beta cells. Proceedings of the National Academy of Sciences of the United States of America 110(43): 17576-17581

Ye, X.; Guo, Y.; Zhang, Q.; Chen, W.; Hua, X.; Liu, W.; Yang, Y.; Chen, G. 2013: βKlotho suppresses tumor growth in hepatocellular carcinoma by regulating Akt/GSK-3β/cyclin D1 signaling pathway. Plos one 8(1): E55615

Dowson, C.G.; Coffey, T.J. 1998: βLactam Resistance Mediated by Changes in Penicillin-Binding Proteins. Methods in Molecular Medicine 15: 537-553

Hamilton, K.L.; Pao, A.C. 2012: βPix is a new Player in Renal Physiology. Frontiers in Physiology 3: 268

Da Silva Almeida, A.C.; Strous, G.J.; van Rossum, A.G.S.H. 2012: βTrCP controls GH receptor degradation via two different motifs. Molecular Endocrinology 26(1): 165-177

Herrero-Ruiz, J.ín.; Mora-Santos, M.; Giráldez, S.; Sáez, C.; Japón, M.A.; Tortolero, M.; Romero, F. 2014: βTrCP controls the lysosome-mediated degradation of CDK1, whose accumulation correlates with tumor malignancy. Oncotarget 5(17): 7563-7574

da Silva Almeida, A.C.; Hocking, H.G.; Boelens, R.; Strous, G.J.; van Rossum, A.G.S.H. 2013: βTrCP interacts with the ubiquitin-dependent endocytosis motif of the GH receptor in an unconventional manner. Biochemical Journal 453(2): 291-301

Sahasrabuddhe, A.A.; Dimri, M.; Bommi, P.V.; Dimri, G.P. 2011: βTrCP regulates BMI1 protein turnover via ubiquitination and degradation. Cell Cycle 10(8): 1322-1330

Thomas, Y.; Coux, O.; Baldin, V.ér. 2010: βTrCP-dependent degradation of CDC25B phosphatase at the metaphase-anaphase transition is a pre-requisite for correct mitotic exit. Cell Cycle 9(21): 4338-4350

Kim, I.S.; Lee, M.; Park, J.H.; Jeon, R.; Baek, S.H.; Kim, K.I. 2014: βTrCP-mediated ubiquitylation regulates protein stability of Mis18β in a cell cycle-dependent manner. Biochemical and Biophysical Research Communications 443(1): 62-67

Mikat, B.; Zeller, A.; Scherag, A.é; Drommelschmidt, K.; Kimmig, R.; Schmidt, M. 2012: βhCG and PAPP-A in first trimester: predictive factors for preeclampsia?. Hypertension in Pregnancy 31(2): 261-267

Atkinson, M.; Gupta, S.; Mcgee, T. 2014: βhCG monitoring after single-dose methotrexate treatment of tubal ectopic pregnancy: is the Day 4 βhCG necessary? A retrospective cohort study. Australian and New Zealand Journal of Obstetrics and Gynaecology 54(5): 475-479

Lorda-Diez, C.I.; Montero, J.A.; Diaz-Mendoza, M.J.; Garcia-Porrero, J.A.; Hurle, J.M. 2013: βig-h3 potentiates the profibrogenic effect of TGFβ signaling on connective tissue progenitor cells through the negative regulation of master chondrogenic genes. Tissue Engineering. Part a 19(3-4): 448-457

Guo, Y.-S.; Zhao, R.; Ma, J.; Cui, W.; Sun, Z.; Gao, B.; He, S.; Han, Y.-H.; Fan, J.; Yang, L.; Tang, J.; Luo, Z.-J. 2014: βig-h3 promotes human osteosarcoma cells metastasis by interacting with integrin α2β1 and activating PI3K signaling pathway. Plos one 9(3): E90220

Guo, Y.-S.; Tang, J.; Chen, B.; Huang, W.; Li, Y.; Cui, H.-Y.; Zhang, X.; Wang, S.-J.; Chen, Z.-N.; Jiang, J.-L. 2011: βig-h3 regulates store-operated Ca2+ entry and promotes the invasion of human hepatocellular carcinoma cells. Cell Biology International 35(8): 811-817

Li, Z.; Miao, Z.; Jin, G.; Li, X.; Li, H.; Lv, Z.; Xu, H.-M. 2012: βig-h3 supports gastric cancer cell adhesion, migration and proliferation in peritoneal carcinomatosis. Molecular Medicine Reports 6(3): 558-564

Gao, Q.; Xiang, Y.; Chen, Z.; Zeng, L.; Ma, X.; Zhang, Y. 2011: βγ-CAT, a non-lens betagamma-crystallin and trefoil factor complex, induces calcium-dependent platelet apoptosis. Thrombosis and Haemostasis 105(5): 846-854

Okumura, T.; Takeda, K.; Taniguchi, K.; Adachi-Yamada, T. 2014: βν integrin inhibits chronic and high level activation of JNK to repress senescence phenotypes in Drosophila adult midgut. Plos one 9(2): E89387