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Solution structure of calcium-bound rat S100B(betabeta) as determined by nuclear magnetic resonance spectroscopy,通过核磁共振光谱法测定的钙结合大鼠S100B(ββ)的溶液结构
Biochemistry. 1998 Mar 3;37(9):2729-40. doi: 10.1021/bi972635p.
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The Ca(2+)-dependent interaction of S100B(beta beta) with a peptide derived from p53.S100B(ββ)与源自p53的肽之间的钙依赖性相互作用。
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与源自p53 C端调控结构域的肽段结合后,钙离子结合型大鼠S100B(ββ)C端的结构变化

Structural changes in the C-terminus of Ca2+-bound rat S100B (beta beta) upon binding to a peptide derived from the C-terminal regulatory domain of p53.

作者信息

Rustandi R R, Baldisseri D M, Drohat A C, Weber D J

机构信息

Department of Biochemistry and Molecular Biology, University of Maryland School of Medicine, Baltimore 21201, USA.

出版信息

Protein Sci. 1999 Sep;8(9):1743-51. doi: 10.1110/ps.8.9.1743.

DOI:10.1110/ps.8.9.1743
PMID:10493575
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2144411/
Abstract

S100B(beta beta) is a dimeric Ca2+-binding protein that interacts with p53, inhibits its phosphorylation by protein kinase C (PKC) and promotes disassembly of the p53 tetramer. Likewise, a 22 residue peptide derived from the C-terminal regulatory domain of p53 has been shown to interact with S100B(beta beta) in a Ca2+-dependent manner and inhibits its phosphorylation by PKC. Hence, structural studies of Ca2+-loaded S100B(beta beta) bound to the p53 peptide were initiated to characterize this interaction. Analysis of nuclear Overhauser effect (NOE) correlations, amide proton exchange rates, 3J(NH-H alpha) coupling constants, and chemical shift index data show that, like apo- and Ca2+-bound S100B(beta beta), S100B remains a dimer in the p53 peptide complex, and each subunit has four helices (helix 1, Glu2-Arg20; helix 2, Lys29-Asn38; helix 3, Gln50-Asp61; helix 4, Phe70-Phe87), four loops (loop 1, Glu21-His25; loop 2, Glu39-Glu49; loop 3, Glu62-Gly66; loop 4, Phe88-Glu91), and two beta-strands (beta-strand 1, Lys26-Lys28; beta-strand 2, Glu67-Asp69), which forms a short antiparallel beta-sheet. However, in the presence of the p53 peptide helix 4 is longer by five residues than in apo- or Ca2+-bound S100B(beta beta). Furthermore, the amide proton exchange rates in helix 3 (K55, V56, E58, T59, L60, D61) are significantly slower than those of Ca2+-bound S100B(beta beta). Together, these observations plus intermolecular NOE correlations between the p53 peptide and S100B(beta beta) support the notion that the p53 peptide binds in a region of S100B(beta beta), which includes residues in helix 2, helix 3, loop 2, and the C-terminal loop, and that binding of the p53 peptide interacts with and induces the extension of helix 4.

摘要

S100B(ββ)是一种二聚体钙结合蛋白,它与p53相互作用,抑制蛋白激酶C(PKC)对其的磷酸化,并促进p53四聚体的解离。同样,一种源自p53 C端调节结构域的22个残基的肽已被证明以钙依赖的方式与S100B(ββ)相互作用,并抑制PKC对其的磷酸化。因此,开展了对与p53肽结合的钙负载型S100B(ββ)的结构研究,以表征这种相互作用。对核Overhauser效应(NOE)相关性、酰胺质子交换率、3J(NH-Hα)耦合常数和化学位移指数数据的分析表明,与无钙和钙结合的S100B(ββ)一样,S100B在与p53肽的复合物中仍为二聚体,且每个亚基有四个螺旋(螺旋1,Glu2-Arg20;螺旋2,Lys29-Asn38;螺旋3,Gln50-Asp61;螺旋4,Phe70-Phe87)、四个环(环1,Glu21-His25;环2 Glu39-Glu49;环3,Glu62-Gly66;环4,Phe88-Glu91)和两条β链(β链1,Lys26-Lys28;β链2 Glu67-Asp69),它们形成一个短的反平行β折叠。然而,在存在p53肽的情况下,螺旋4比无钙或钙结合的S100B(ββ)长五个残基。此外,螺旋3(K55、V56、E58、T59、L60、D61)中的酰胺质子交换率明显慢于钙结合的S100B(ββ)。总之,这些观察结果以及p53肽与S100B(ββ)之间的分子间NOE相关性支持以下观点:p53肽结合在S100B(ββ)的一个区域,该区域包括螺旋2、螺旋3、环2和C端环中的残基,并且p53肽的结合与螺旋4相互作用并诱导其延伸。