PKC-beta antikoerper, PKCB antikoerper, PRKCB1 antikoerper, PRKCB2 antikoerper, A130082F03Rik antikoerper, PKC-Beta antikoerper, Pkcb antikoerper, Prkcb1 antikoerper, Prkcb2 antikoerper, PKC-B antikoerper, Prkcb antikoerper, prkcb1 antikoerper, zgc:63591 antikoerper, PKC antikoerper, PRKCB_tv2 antikoerper, Pkc53E antikoerper, prkcb1l antikoerper, zgc:64063 antikoerper, protein kinase C beta antikoerper, protein kinase C, beta antikoerper, protein kinase C, beta b antikoerper, protein kinase C, beta a antikoerper, PRKCB antikoerper, Prkcb antikoerper, prkcbb antikoerper, prkcba antikoerper
Hintergrund
Members of the protein kinase C (PKC) family play a key regulatory role in a variety of cellular functions including cell growth and differentiation, gene expression, hormone secretion and membrane function. PKCs were originally identified as serine/threonine protein kinases whose activity was dependent on calcium and phospholipids. Diacylglycerols (DAG) and tumor promoting phorbol esters bind to and activate PKC. PKCs can be subdivided into at least two major classes including conventional (c) PKC isoforms (alpha, betaI, betaII and gamma) and novel (n) PKC isoforms (delta, epsilon, zeta, eta and theta). Patterns of expression for each PKC isoform differs among tissues and PKC family members exhibit clear differences in their cofactor dependencies. For instance, the kinase activities of nPKC delta and epsilon are independent of Ca2+. On the other hand, nPKC delta and epsilon, as well as all of the cPKC members, possess phorbol esterbinding activities and kinase activities.Synonyms: PKC beta, PKC-B, PKC-beta, PKCB, PRKCB1, Protein kinase C beta type