cyclin B2 Background Information In eukaryotic cells, mitosis is initiated following the activation of a protein kinase known variously as maturation-promoting factor, M-phase specific histone kinase or M-phase kinase. This protein kinase is composed of a catalytic subunit (Cdc2), a regulatory subunit (cyclin B) and a low molecular weight subunit (p13-Suc 1). The Cdc/cyclin enzyme is subject to multiple levels of control of which the regulation of the catalytic subunit by tyrosine phosphorylation is the best understood. Tyrosine phosphorylation inhibits the Cdc2/cyclin B enzyme and tyrosine dephosphorylation, occurring at the onset of mitosis, directly activates the pre-MPF complex . Evidence has established that B-type cyclins not only act on M-phase regulatory subunits of the Cdc2 protein kinase, but also activate the Cdc25A and Cdc25B endogenous tyrosine phosphatase, of which Cdc2 is the physiological substrate. The two B-type cyclins, cyclin B1 and cyclin B2, have been shown to have distinct tissue distributions.
cyclin B2 (A-2)
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cyclin B2 (A-2): sc-28303. Western blot analysis of cyclin B2 expression in K-562 (A) and F9 (B) whole cell lysates.
cyclin B2 (A-2): sc-28303. Western blot analysis of cyclin B2 expression in non-transfected: sc-117752 (A) and mouse cyclin B2 transfected: sc-119545 (B) 293T whole cell lysates.
cyclin B2 (A-2): sc-28303. Western blot analysis of cyclin B2 expression in non-transfected: sc-117752 (A) and mouse cyclin B2 transfected: sc-119545 (B) 293T whole cell lysates.
