AMCoR Asahikawa Medical College
HOME
|

AMCoR:Asahikawa Medical University Collection and Research (旭川医科大学学術成果リポジトリ)は、本学で生産された電子的な知的生産物(学術雑誌論文の原稿・教材・学術資料など)を保存し、原則的に無償で発信するためのインターネット上の保管庫です。

※AMCoRに収録された学術論文のほとんどは、商業出版社や学会出版社の学術雑誌に掲載されたものですが、著作権に係わる出版社の方針により、出版社の条件に添った版を収録しています。そのため実際の誌面とはレイアウトの相違や、字句校正による文言の違いがあり得ますことをあらかじめご了承ください。


| ホーム ニュース ログイン |

Language

AMCoR検索
  
     詳細検索

インデックスツリー

詳細



閲覧数:2837
ID 11328597
アイテムタイプ Article
このアイテムを表示する
本文 9.pdf
Type : application/pdf Download
Size : 275.5 KB
Last updated : Feb 5, 2008
Downloads : 2934

Total downloads since Feb 5, 2008 : 2934
タイトル Substrate specificity of Ca(2+)/calmodulin-dependent protein kinase phosphatase: kinetic studies using synthetic phosphopeptides as model substrates
著者
石田, 敦彦 (Ishida, Atsuhiko)
Shigeri, Y
Tatsu, Y
Endo, Y
Kameshita, I
Okuno, S
Kitani, T
Takeuchi, M
Yumoto, N
Fujisawa, H
上位タイトル
The Journal of Biochemistry Vol.129, No.5  (2001. 5) ,p.745- 753
識別番号
ISSN
0021-924X
URI http://jb.oxfordjournals.org/cgi/content/abstract/129/5/745
抄録 Ca(2+)/calmodulin-dependent protein kinase phosphatase (CaMKPase) dephosphorylates and regulates multifunctional Ca(2+)/calmodulin-dependent protein kinases. In order to elucidate the mechanism of substrate recognition by CaMKPase, we chemically synthesized a variety of phosphopeptide analogs and carried out kinetic analysis using them as CaMKPase substrates. This is the first report using systematically synthesized phosphopeptides as substrates for kinetic studies on substrate specificities of protein Ser/Thr phosphatases. CaMKPase was shown to be a protein Ser/Thr phosphatase having a strong preference for a phospho-Thr residue. A Pro residue adjacent to the dephosphorylation site on the C-terminal side and acidic clusters around the dephosphorylation site had detrimental effects on dephosphorylation by CaMKPase. Deletion analysis of a model substrate peptide revealed that the minimal length of the substrate peptide was only 2 to 3 amino acid residues including the dephosphorylation site. The residues on the C-terminal side of the dephosphorylation site were not essential for dephosphorylation, whereas the residue adjacent to the dephosphorylation site on the N-terminal side was essential. Ala-scanning analysis suggested that CaMKPase did not recognize a specific motif around the dephosphorylation site. Myosin light chain phosphorylated by protein kinase C and Erk2 phosphorylated by MEK1 were poor substrates for CaMKPase, while a synthetic phosphopeptide corresponding to the sequence around the phosphorylation site of the former was not dephosphorylated by CaMKPase but that of the latter was fairly good substrate. These data suggest that substrate specificity of CaMKPase is determined by higher-order structure of the substrate protein rather than by the primary structure around its dephosphorylation site. Use of phosphopeptide substrates also revealed that poly-L-lysine, an activator for CaMKPase, activated the enzyme mainly through increase in the V(max) values.
注記 This is a pre-copy-editing, author-produced PDF of an article accepted for publication in Journal of Biochemistry following peer review. The definitive publisher-authenticated version Oxford University Press, Journal of Biochemistry, 129(5), 2001, 745-753 is available online at: http://jb.oxfordjournals.org/cgi/content/abstract/129/5/745.

author
言語
eng
資源タイプ text
ジャンル Journal Article
著者版フラグ author
Index
/ Public
/ Public / 国外雑誌論文
関連アイテム