The Structural Basis for Control of Eukaryotic Protein Kinases

被引:325
作者
Endicott, Jane A. [1 ]
Noble, Martin E. M. [1 ]
Johnson, Louise N. [2 ]
机构
[1] Newcastle Univ, No Inst Canc Res, Sch Med, Newcastle Upon Tyne NE2 4HH, Tyne & Wear, England
[2] Univ Oxford, Dept Biochem, Lab Mol Biophys, Oxford OX1 3QU, England
来源
ANNUAL REVIEW OF BIOCHEMISTRY, VOL 81 | 2012年 / 81卷
基金
英国医学研究理事会;
关键词
signal transduction; phosphorylation; substrate recognition; dimerization; pseudokinases; RECEPTOR TYROSINE KINASE; GROWTH-FACTOR RECEPTOR; AURORA B KINASE; C BETA-II; CRYSTAL-STRUCTURE; CATALYTIC SUBUNIT; SUBSTRATE RECOGNITION; MAP KINASE; RAF KINASE; SACCHAROMYCES-CEREVISIAE;
D O I
10.1146/annurev-biochem-052410-090317
中图分类号
Q5 [生物化学]; Q7 [分子生物学];
学科分类号
071010 ; 081704 ;
摘要
Eukaryotic protein kinases are key regulators of cell processes. Comparison of the structures of protein kinase domains, both alone and in complexes, allows generalizations to be made about the mechanisms that regulate protein kinase activation. Protein kinases in the active state adopt a catalytically competent conformation upon binding of both the ATP and peptide substrates that has led to an understanding of the catalytic mechanism. Docking sites remote from the catalytic site are a key feature of several substrate recognition complexes. Mechanisms for kinase activation through phosphorylation, additional domains or sub-units, by scaffolding proteins and by kinase dimerization are discussed.
引用
收藏
页码:587 / 613
页数:27
相关论文
共 139 条
[51]   CRYSTAL-STRUCTURE OF THE TYROSINE KINASE DOMAIN OF THE HUMAN INSULIN-RECEPTOR [J].
HUBBARD, SR ;
WEI, L ;
ELIS, L ;
HENDRICKSON, WA .
NATURE, 1994, 372 (6508) :746-754
[52]   The conformational plasticity of protein kinases [J].
Huse, M ;
Kuriyan, J .
CELL, 2002, 109 (03) :275-282
[53]   The TGFβ receptor activation process:: An inhibitor- to substrate-binding switch [J].
Huse, M ;
Muir, TW ;
Xu, L ;
Chen, YG ;
Kuriyan, J ;
Massagué, J .
MOLECULAR CELL, 2001, 8 (03) :671-682
[54]   The importance of intrinsic disorder for protein phosphorylation [J].
Iakoucheva, LM ;
Radivojac, P ;
Brown, CJ ;
O'Connor, TR ;
Sikes, JG ;
Obradovic, Z ;
Dunker, AK .
NUCLEIC ACIDS RESEARCH, 2004, 32 (03) :1037-1049
[55]   MECHANISM OF CDK ACTIVATION REVEALED BY THE STRUCTURE OF A CYCLINA-CDK2 COMPLEX [J].
JEFFREY, PD ;
RUSO, AA ;
POLYAK, K ;
GIBBS, E ;
HURWITZ, J ;
MASSAGUE, J ;
PAVLETICH, NP .
NATURE, 1995, 376 (6538) :313-320
[56]   Structural basis for control by phosphorylation [J].
Johnson, LN ;
Lewis, RJ .
CHEMICAL REVIEWS, 2001, 101 (08) :2209-2242
[57]   Protein kinase inhibitors: contributions from structure to clinical compounds [J].
Johnson, Louise N. .
QUARTERLY REVIEWS OF BIOPHYSICS, 2009, 42 (01) :1-40
[58]   Catalytic Control in the EGF Receptor and Its Connection to General Kinase Regulatory Mechanisms [J].
Jura, Natalia ;
Zhang, Xuewu ;
Endres, Nicholas F. ;
Seeliger, Markus A. ;
Schindler, Thomas ;
Kuriyan, John .
MOLECULAR CELL, 2011, 42 (01) :9-22
[59]   Structural analysis of the catalytically inactive kinase domain of the human EGF receptor 3 [J].
Jura, Natalia ;
Shan, Yibing ;
Cao, Xiaoxian ;
Shaw, David E. ;
Kuriyan, John .
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, 2009, 106 (51) :21608-21613
[60]   Mechanism for Activation of the EGF Receptor Catalytic Domain by the Juxtamembrane Segment [J].
Jura, Natalia ;
Endres, Nicholas F. ;
Engel, Kate ;
Deindl, Sebastian ;
Das, Rahul ;
Lamers, Meindert H. ;
Wemmer, David E. ;
Zhang, Xuewu ;
Kuriyan, John .
CELL, 2009, 137 (07) :1293-1307
12345678910