The N-terminal domain of p53 is natively unfolded

被引:185
作者
Dawson, R
Müller, L
Dehner, A
Klein, C
Kessler, H
Buchner, J [1 ]
机构
[1] Tech Univ Munich, Inst Organ Chem & Biochem, D-85747 Garching, Germany
[2] Roche Diagnost GmbH, D-82372 Penzberg, Germany
关键词
p53; IUP; Mdm2; CD spectroscopy; NMR spectroscopy;
D O I
10.1016/j.jmb.2003.08.008
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
p53 is one of the key molecules regulating cell proliferation, apoptosis and tumor suppression by integrating a wide variety of signals. The structural basis for this function is still poorly understood. p53 appears to exercise its function as a modular protein in which different functions are associated with distinct domains. Presumably, p53 contains both folded and partially structured parts. Here, we have investigated the structure of the isolated N-terminal part of p53 (amino acid residues 1-93) using biophysical techniques. We demonstrate that this domain is devoid of tertiary structure and largely missing secondary structure elements. It exhibits a large hydrodynamic radius, typical for unfolded proteins. These findings suggest strongly that the entire N-terminal part of p53 is natively unfolded under physiological conditions. Furthermore, the binding affinity to its functional antagonist Mdm2 was investigated. A comparison of the binding of human Mdm2 to the N-terminal part of p53 and full-length p53 suggests that unfolded and folded parts of p53 function synergistically. (C) 2003 Elsevier Ltd. All rights reserved.
引用
收藏
页码:1131 / 1141
页数:11
相关论文
共 89 条
[1]   LEFT-HANDED POLYPROLINE-II HELICES COMMONLY OCCUR IN GLOBULAR-PROTEINS [J].
ADZHUBEI, AA ;
STERNBERG, MJE .
JOURNAL OF MOLECULAR BIOLOGY, 1993, 229 (02) :472-493
[2]   AN APPROACH TO PROTEIN HOMOLOGY MODELING BASED ON AN ENSEMBLE OF NMR STRUCTURES - APPLICATION TO THE SOX-5 HMG-BOX PROTEIN [J].
ADZHUBEI, AA ;
LAUGHTON, CA ;
NEIDLE, S .
PROTEIN ENGINEERING, 1995, 8 (07) :615-625
[3]   The C-terminus of p53: the more you learn the less you know [J].
Ahn, J ;
Prives, C .
NATURE STRUCTURAL BIOLOGY, 2001, 8 (09) :730-732
[4]   Structure and function in the p53 family [J].
Arrowsmith, CH .
CELL DEATH AND DIFFERENTIATION, 1999, 6 (12) :1169-1173
[5]  
Arrowsmith CH, 1996, ONCOGENE, V12, P1379
[6]   A PROTEOLYTIC FRAGMENT FROM THE CENTRAL REGION OF P53 HAS MARKED SEQUENCE-SPECIFIC DNA-BINDING ACTIVITY WHEN GENERATED FROM WILD-TYPE BUT NOT FROM ONCOGENIC MUTANT P53-PROTEIN [J].
BARGONETTI, J ;
MANFREDI, JJ ;
CHEN, XB ;
MARSHAK, DR ;
PRIVES, C .
GENES & DEVELOPMENT, 1993, 7 (12B) :2565-2574
[7]   p53 contains large unstructured regions in its native state [J].
Bell, S ;
Klein, C ;
Müller, L ;
Hansen, S ;
Buchner, J .
JOURNAL OF MOLECULAR BIOLOGY, 2002, 322 (05) :917-927
[8]   Refolding and structural characterization of the human p53 tumor suppressor protein [J].
Bell, S ;
Hansen, S ;
Buchner, J .
BIOPHYSICAL CHEMISTRY, 2002, 96 (2-3) :243-257
[9]   On the interaction between p53 and MDM2: Transfer NOE study of a p53-derived peptide ligated to MDM2 [J].
Blommers, MJJ ;
Fendrich, G ;
GarciaEcheverria, C ;
Chene, P .
JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 1997, 119 (14) :3425-3426
[10]   Molecular characterization of the hdm2-p53 interaction [J].
Bottger, A ;
Bottger, V ;
GarciaEcheverria, C ;
Chene, P ;
Hochkeppel, HK ;
Sampson, W ;
Ang, K ;
Howard, SF ;
Picksley, SM ;
Lane, DP .
JOURNAL OF MOLECULAR BIOLOGY, 1997, 269 (05) :744-756