UBE2C Background Information The ubiquitin (Ub) pathway involves three sequential enzymatic steps that facilitate the conjugation of Ub and Ub-like molecules to specific protein substrates. The first step requires the ATP-dependent activation of the Ub C-terminus and the assembly of multi-Ub chains by the Ub-activating enzyme known as the E1 component. The Ub chain is then conjugated to the Ub-conjugating enzyme (E2) to generate an intermediate Ub-E2 complex. The Ub-ligase (E3) then catalyzes the transfer of Ub from E2 to the appropriate protein substrate. UBE2C, also designated UBCH10 in human, is an E2 ubiquitin conjugating enzyme for the anaphase promoting complex (APC), which coordinates mitosis and G1 by sequentially promoting the degradation of key cell-cycle regulators. UBE2C is overexpressed in many different types of cancers and may be a potential therapeutic target.
UBE2C (N-13): sc-47545. Western blot analysis of UBE2C expression in HeLa (A) and SW480 (B) whole cell lysates.
UBE2C (N-13): sc-47545. Western blot analysis of UBE2C expression in human UBE2C transfected: sc-111903 (A) and non-transfected: sc-110760 (B) 293 whole cell lysates.
UBE2C (N-13): sc-47545. Western blot analysis of UBE2C expression in non-transfected: sc-117752 (A) and human UBE2C transfected: sc-116349 (B) 293T whole cell lysates.
UBE2C (N-13): sc-47545. Western blot analysis of UBE2C expression in non-transfected: sc-117752 (A) and human UBE2C transfected: sc-178107 (B) 293T whole cell lysates.
UBE2C (N-13): sc-47545. Immunofluorescence staining of methanol-fixed HeLa cells showing nuclear and cytoplasmic localization.
