Collins, Stephan C.; Hoppa, Michael B.; Walker, Jonathan N.; Amisten, Stefan; Abdulkader, Fernando 
; Bengtsson, Martin; Fearnside, Jane; Ramracheya, Reshma; Toye, Ayo A.; Zhang, Quan; Clark, Anne; Gauguier, Dominique; Rorsman, Patrik
Source: Diabetes. Unidade: ICB
Assunto: FISIOLOGIA (HUMANO)
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ABNT
COLLINS, Stephan C. et al. Progression of diet-induced diabetes in C57BL6J mice involves functional dissociation of ‘Ca POT.2+’ channels from secretory vesicles. Diabetes, v. 59, n. 5, p. 1192-1201, 2010Tradução . . Acesso em: 28 abr. 2026.APA
Collins, S. C., Hoppa, M. B., Walker, J. N., Amisten, S., Abdulkader, F., Bengtsson, M., et al. (2010). Progression of diet-induced diabetes in C57BL6J mice involves functional dissociation of ‘Ca POT.2+’ channels from secretory vesicles. Diabetes, 59( 5), 1192-1201.NLM
Collins SC, Hoppa MB, Walker JN, Amisten S, Abdulkader F, Bengtsson M, Fearnside J, Ramracheya R, Toye AA, Zhang Q, Clark A, Gauguier D, Rorsman P. Progression of diet-induced diabetes in C57BL6J mice involves functional dissociation of ‘Ca POT.2+’ channels from secretory vesicles. Diabetes. 2010 ; 59( 5): 1192-1201.[citado 2026 abr. 28 ]Vancouver
Collins SC, Hoppa MB, Walker JN, Amisten S, Abdulkader F, Bengtsson M, Fearnside J, Ramracheya R, Toye AA, Zhang Q, Clark A, Gauguier D, Rorsman P. Progression of diet-induced diabetes in C57BL6J mice involves functional dissociation of ‘Ca POT.2+’ channels from secretory vesicles. Diabetes. 2010 ; 59( 5): 1192-1201.[citado 2026 abr. 28 ]
