| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 10870109 | FEBS Letters | 2015 | 8 Pages |
Abstract
Osterix (Osx) is an essential regulator for osteoblast differentiation and bone formation. Although phosphorylation has been reported to be involved in the regulation of Osx activity, the precise underlying mechanisms remain to be elucidated. Here we identified S422 as a novel phosphorylation site of Osx and demonstrated that GSK-3β interacted and co-localized with Osx. GSK-3β increased the stability and transactivation activity of Osx through phosphorylation of the newly identified site. These findings expanded our understanding of the mechanisms of posttranslational regulation of Osx and the role of GSK-3β in the control of Osx transactivation activity.
Keywords
DMEMFBSPTMsTransactivation activityosterixGSK-3RIPACHXα-MEMBSPLiClBSALC–MS/MSα-Minimal essential mediumbovine serum albuminALPAlkaline phosphataseOsteocalcinOsxMass spectrometric analysispost-translational modificationsOsteoblast differentiationRoom temperaturefetal bovine serumradioimmunoprecipitation assaybone sialoproteincycloheximidelithium chlorideProtein stabilityLiquid chromatography with tandem mass spectrometryglycogen synthase kinase-3
Related Topics
Life Sciences
Agricultural and Biological Sciences
Plant Science
Authors
Yuexin Xu, Bing Yao, Kaikai Shi, Jianlei Lu, Yucui Jin, Bing Qi, Hongwei Li, Shiyang Pan, Li Chen, Changyan Ma,