相关参考文献
注意:仅列出部分参考文献,下载原文获取全部文献信息。Liberation of SARS-CoV main protease from the viral polyprotein: N-terminal autocleavage does not depend on the mature dimerization mode
Shuai Chen et al.
PROTEIN & CELL (2010)
Protein acrobatics in pairs - dimerization via domain swapping
Angela M. Gronenborn
CURRENT OPINION IN STRUCTURAL BIOLOGY (2009)
Two adjacent mutations on the dimer interface of SARS coronavirus 3C-like protease cause different conformational changes in crystal structure
Tiancen Hu et al.
VIROLOGY (2009)
Correlation between dissociation and catalysis of SARS-CoV main protease
Pei-Ying Lin et al.
ARCHIVES OF BIOCHEMISTRY AND BIOPHYSICS (2008)
A structural view of the inactivation of the SARS coronavirus main proteinase by benzotriazole esters
Koen H. G. Verschueren et al.
CHEMISTRY & BIOLOGY (2008)
A novel biological actions acquired by ribonuclease through oligomerization
M. Libonati et al.
CURRENT PHARMACEUTICAL BIOTECHNOLOGY (2008)
Mechanism for controlling the dimer-monomer switch and coupling dimerization to catalysis of the severe acute respiratory syndrome coronavirus 3C-like protease
Jiahai Shi et al.
JOURNAL OF VIROLOGY (2008)
Without its N-finger, the main protease of severe acute respiratory syndrome coronavirus can form a novel dimer through its C-terminal domain
Nan Zhong et al.
JOURNAL OF VIROLOGY (2008)
Crystal structure of a stable dimer reveals the molecular basis of serpin polymerization
Masayuki Yamasaki et al.
NATURE (2008)
Mutation of Gly-11 on the dimer interface results in the complete crystallographic dimer dissociation of severe acute respiratory syndrome coronavirus 3C-like protease - Crystal structure with molecular dynamics simulations
Shuai Chen et al.
JOURNAL OF BIOLOGICAL CHEMISTRY (2008)
Multivalent engagement of chromatin modifications by linked binding modules
Alexander J. Ruthenburg et al.
NATURE REVIEWS MOLECULAR CELL BIOLOGY (2007)
Phaser crystallographic software
Airlie J. McCoy et al.
JOURNAL OF APPLIED CRYSTALLOGRAPHY (2007)
Domain-swapped dimerization of the HIV-1 capsid C-terminal domain
Dmitri Ivanov et al.
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA (2007)
Production of authentic SARS-CoV Mpro with enhanced activity:: Application as a novel tag-cleavage endopeptidase for protein overproduction
Xiaoyu Xue et al.
JOURNAL OF MOLECULAR BIOLOGY (2007)
SARS CoV main proteinase: The monomer-dimer equilibrium dissociation constant
Vito Graziano et al.
BIOCHEMISTRY (2006)
Only one protomer is active in the dimer of SARS 3C-like proteinase
Hao Chen et al.
JOURNAL OF BIOLOGICAL CHEMISTRY (2006)
Enzymatic activity of the SARS coronavirus main proteinase dimer
Vito Graziano et al.
FEBS LETTERS (2006)
The catalysis of the SARS 3C-like protease is under extensive regulation by its extra domain
JH Shi et al.
FEBS JOURNAL (2006)
The N-terminal octapeptide acts as a dimerization inhibitor of SARS coronavirus 3C-like proteinase
P Wei et al.
BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS (2006)
Drug design targeting the main protease, the Achilles' heel of coronaviruses
Haitao Yang et al.
CURRENT PHARMACEUTICAL DESIGN (2006)
Characterization and inhibition of SARS-coronavirus main protease
Po-Huang Liang
CURRENT TOPICS IN MEDICINAL CHEMISTRY (2006)
Structural insights into SARS coronavirus proteins
M Bartlam et al.
CURRENT OPINION IN STRUCTURAL BIOLOGY (2005)
pH-dependent conformational flexibility of the SARS-CoV main proteinase (Mpro) dimer:: Molecular dynamics simulations and multiple X-ray structure analyses
JZ Tan et al.
JOURNAL OF MOLECULAR BIOLOGY (2005)
Crystal structures of the main peptidase from the SARS coronavirus inhibited by a substrate-like aza-peptide epoxide
TW Lee et al.
JOURNAL OF MOLECULAR BIOLOGY (2005)
Structure of the SARS coronavirus main proteinase as an active C2 crystallographic dimer
T Xu et al.
ACTA CRYSTALLOGRAPHICA SECTION F-STRUCTURAL BIOLOGY COMMUNICATIONS (2005)
Design of wide-spectrum inhibitors targeting coronavirus main proteases
HT Yang et al.
PLOS BIOLOGY (2005)
Critical assessment of important regions in the subunit association and catalytic action of the severe acute respiratory syndrome coronavirus main protease
WC Hsu et al.
JOURNAL OF BIOLOGICAL CHEMISTRY (2005)
Severe acute respiratory syndrome coronavirus 3C-like proteinase n terminus is indispensable for proteolytic activity but not for enzyme dimerization - Biochemical and thermodynamic investigation in conjunction with molecular dynamics simulations
S Chen et al.
JOURNAL OF BIOLOGICAL CHEMISTRY (2005)
Proteoglycan control of cell movement during wound healing and cancer spreading
S Cattaruzza et al.
MATRIX BIOLOGY (2005)
Biosynthesis, purification, and substrate specificity of severe acute respiratory syndrome coronavirus 3C-like proteinase
KQ Fan et al.
JOURNAL OF BIOLOGICAL CHEMISTRY (2004)
Coot:: model-building tools for molecular graphics
P Emsley et al.
ACTA CRYSTALLOGRAPHICA SECTION D-STRUCTURAL BIOLOGY (2004)
Characterization of SARS main protease and inhibitor assay using a fluorogenic substrate
CJ Kuo et al.
BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS (2004)
Dissection study on the severe acute respiratory syndrome 3C-like protease reveals the critical role of the extra domain in dimerization of the enzyme - Defining the extra domain as a new target for design of highly specific protease inhibitors
JH Shi et al.
JOURNAL OF BIOLOGICAL CHEMISTRY (2004)
The crystal structures of severe acute respiratory syndrome virus main protease and its complex with an inhibitor
HT Yang et al.
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA (2003)
Unique and conserved features of genome and proteome of SARS-coronavirus, an early split-off from the coronavirus group 2 lineage
EJ Snijder et al.
JOURNAL OF MOLECULAR BIOLOGY (2003)
A novel coronavirus and SARS
QB Leng et al.
NEW ENGLAND JOURNAL OF MEDICINE (2003)
Coronavirus in severe acute respiratory syndrome (SARS)
HLY Chan et al.
TRENDS IN MOLECULAR MEDICINE (2003)
Newly discovered coronavirus as the primary cause of severe acute respiratory syndrome
T Kuiken et al.
LANCET (2003)
Coronavirus main proteinase (3CLpro) structure:: Basis for design of anti-SARS drugs
K Anand et al.
SCIENCE (2003)
PHENIX:: building new software for automated crystallographic structure determination
PD Adams et al.
ACTA CRYSTALLOGRAPHICA SECTION D-STRUCTURAL BIOLOGY (2002)
Structure of coronavirus main proteinase reveals combination of a chymotrypsin fold with an extra α-helical domain
K Anand et al.
EMBO JOURNAL (2002)
3D domain swapping: As domains continue to swap
Y Liu et al.
PROTEIN SCIENCE (2002)
Plasminogen activator inhibitor type 1 promotes the self-association of vitronectin into complexes exhibiting altered incorporation into the extracellular matrix
KH Minor et al.
JOURNAL OF BIOLOGICAL CHEMISTRY (2002)
A method for efficient isotopic labeling of recombinant proteins
J Marley et al.
JOURNAL OF BIOMOLECULAR NMR (2001)