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利用分枝杆菌腺苷酸环化酶作为报告分子探测 HAMP 结构域介导的信号转导。

HAMP domain-mediated signal transduction probed with a mycobacterial adenylyl cyclase as a reporter.

机构信息

Pharmazeutische Biochemie, Pharmazeutisches Institut, Universität Tübingen, Germany.

出版信息

J Biol Chem. 2012 Jan 6;287(2):1022-31. doi: 10.1074/jbc.M111.284067. Epub 2011 Nov 17.

DOI:10.1074/jbc.M111.284067
PMID:22094466
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3256895/
Abstract

HAMP domains, ∼55 amino acid motifs first identified in histidine kinases, adenylyl cyclases, methyl-accepting chemotaxis proteins, and phosphatases, operate as signal mediators in two-component signal transduction proteins. A bioinformatics study identified a coevolving signal-accepting network of 10 amino acids in membrane-delimited HAMP proteins. To probe the functionality of this network we used a HAMP containing mycobacterial adenylyl cyclase, Rv3645, as a reporter enzyme in which the membrane anchor was substituted by the Escherichia coli chemotaxis receptor for serine (Tsr receptor) and the HAMP domain alternately with that from the protein Af1503 of the archaeon Archaeoglobus fulgidus or the Tsr receptor. In a construct with the Tsr-HAMP, cyclase activity was inhibited by serine, whereas in a construct with the HAMP domain from A. fulgidus, enzyme activity was not responsive to serine. Amino acids of the signal-accepting network were mutually swapped between both HAMP domains, and serine signaling was examined. The data biochemically tentatively established the functionality of the signal-accepting network. Based on a two-state gearbox model of rotation in HAMP domain-mediated signal propagation, we characterized the interaction between permanent and transient core residues in a coiled coil HAMP structure. The data are compatible with HAMP rotation in signal propagation but do not exclude alternative models for HAMP signaling. Finally, we present data indicating that the connector, which links the α-helices of HAMP domains, plays an important structural role in HAMP function.

摘要

HAMP 结构域,最早在组氨酸激酶、腺苷酸环化酶、甲基受体趋化蛋白和磷酸酶中发现的约 55 个氨基酸基序,作为双组分信号转导蛋白中的信号中介体发挥作用。一项生物信息学研究确定了膜限定 HAMP 蛋白中 10 个氨基酸的共进化信号接受网络。为了研究该网络的功能,我们使用含有分枝杆菌腺苷酸环化酶(Rv3645)的 HAMP 作为报告酶,其中膜锚由大肠杆菌趋化性受体丝氨酸(Tsr 受体)和 HAMP 结构域替代,交替使用来自古菌 Archaeoglobus fulgidus 的 Af1503 蛋白或 Tsr 受体。在具有 Tsr-HAMP 的构建体中,环化酶活性被丝氨酸抑制,而在具有来自 A.fulgidus 的 HAMP 结构域的构建体中,酶活性对丝氨酸没有反应。两个 HAMP 结构域之间相互交换了信号接受网络的氨基酸,并检查了丝氨酸信号。这些生化数据初步确定了信号接受网络的功能。基于 HAMP 结构域介导的信号传递中旋转的两态变速箱模型,我们表征了共卷曲 HAMP 结构中永久和瞬时核心残基之间的相互作用。这些数据与 HAMP 旋转在信号传递中兼容,但不排除 HAMP 信号的替代模型。最后,我们提供的数据表明,连接 HAMP 结构域α-螺旋的连接器在 HAMP 功能中起着重要的结构作用。

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本文引用的文献

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