IndraLab
Statements
"Similarly, tgf-?-Induced and cdk8/9-mediated phosphorylation of smad3 at threonine 179 (t179) is important for binding of the nedd4l e3 ubiquitin ligase, which accelerates smad3 turnover;cdk8 and cyclint-cdk9 showed a preference for s206 and s214 but also phosphorylated s186 and s195 in the case of smad1;and t179, s208 and s213 in the case of smad3."
"Similarly, tgf-?-Induced and cdk8/9-mediated phosphorylation of smad3 at threonine 179 (t179) is important for binding of the nedd4l e3 ubiquitin ligase, which accelerates smad3 turnover;cdk8 and cyclint-cdk9 showed a preference for s206 and s214 but also phosphorylated s186 and s195 in the case of smad1;and t179, s208 and s213 in the case of smad3."
"Similarly, tgf-?-Induced and cdk8/9-mediated phosphorylation of smad3 at threonine 179 (t179) is important for binding of the nedd4l e3 ubiquitin ligase, which accelerates smad3 turnover;cdk8 and cyclint-cdk9 showed a preference for s206 and s214 but also phosphorylated s186 and s195 in the case of smad1;and t179, s208 and s213 in the case of smad3."
"Similarly, tgf-?-Induced and cdk8/9-mediated phosphorylation of smad3 at threonine 179 (t179) is important for binding of the nedd4l e3 ubiquitin ligase, which accelerates smad3 turnover;cdk8 and cyclint-cdk9 showed a preference for s206 and s214 but also phosphorylated s186 and s195 in the case of smad1;and t179, s208 and s213 in the case of smad3."
"Oncogenically activated ras inhibits the tgfbeta-induced nuclear accumulation of smad2 and smad3 and smad-dependent transcription. Ras acting via erk map kinases causes phosphorylation of smad2 and smad3 at specific sites in the region linking the dna-binding domain and the transcriptional activation domain."