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钙调蛋白的酸性/ IQ模体调节剂

Acidic/IQ motif regulator of calmodulin.

作者信息

Putkey John A, Waxham M Neal, Gaertner Tara R, Brewer Kari J, Goldsmith Michael, Kubota Yoshihisa, Kleerekoper Quinn K

机构信息

Department of Biochemistry and Molecular Biology, University of Texas, Houston Medical School, Houston, Texas 77030.

Department of Neurobiology and Anatomy, University of Texas, Houston Medical School, Houston, Texas 77030.

出版信息

J Biol Chem. 2008 Jan 18;283(3):1401-1410. doi: 10.1074/jbc.M703831200. Epub 2007 Nov 8.

DOI:10.1074/jbc.M703831200
PMID:17991744
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3617039/
Abstract

The small IQ motif proteins PEP-19 (62 amino acids) and RC3 (78 amino acids) greatly accelerate the rates of Ca(2+) binding to sites III and IV in the C-domain of calmodulin (CaM). We show here that PEP-19 decreases the degree of cooperativity of Ca(2+) binding to sites III and IV, and we present a model showing that this could increase Ca(2+) binding rate constants. Comparative sequence analysis showed that residues 28 to 58 from PEP-19 are conserved in other proteins. This region includes the IQ motif (amino acids 39-62), and an adjacent acidic cluster of amino acids (amino acids 28-40). A synthetic peptide spanning residues 28-62 faithfully mimics intact PEP-19 with respect to increasing the rates of Ca(2+) association and dissociation, as well as binding preferentially to the C-domain of CaM. In contrast, a peptide encoding only the core IQ motif does not modulate Ca(2+) binding, and binds to multiple sites on CaM. A peptide that includes only the acidic region does not bind to CaM. These results show that PEP-19 has a novel acidic/IQ CaM regulatory motif in which the IQ sequence provides a targeting function that allows binding of PEP-19 to CaM, whereas the acidic residues modify the nature of this interaction, and are essential for modulating Ca(2+) binding to the C-domain of CaM.

摘要

小IQ模体蛋白PEP-19(62个氨基酸)和RC3(78个氨基酸)可极大地加速Ca²⁺与钙调蛋白(CaM)C结构域中位点III和IV的结合速率。我们在此表明,PEP-19降低了Ca²⁺与位点III和IV结合的协同程度,并且我们提出了一个模型,表明这可能会增加Ca²⁺结合速率常数。比较序列分析表明,PEP-19中28至58位残基在其他蛋白质中是保守的。该区域包括IQ模体(39-62位氨基酸)和相邻的酸性氨基酸簇(28-40位氨基酸)。一个跨越28-62位残基的合成肽在增加Ca²⁺结合和解离速率以及优先结合CaM的C结构域方面忠实地模拟了完整的PEP-19。相反,仅编码核心IQ模体的肽不会调节Ca²⁺结合,并且会结合到CaM上的多个位点。仅包含酸性区域的肽不会与CaM结合。这些结果表明,PEP-19具有一种新型的酸性/IQ CaM调节基序,其中IQ序列提供了一种靶向功能,使PEP-19能够与CaM结合,而酸性残基则改变了这种相互作用的性质,并且对于调节Ca²⁺与CaM的C结构域结合至关重要。

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