串联 HAMP 结构域的结构为信号转导提供了一种机制。
Structure of concatenated HAMP domains provides a mechanism for signal transduction.
机构信息
Department of Chemistry and Chemical Biology, Cornell University, Ithaca, NY 14853, USA.
出版信息
Structure. 2010 Mar 14;18(4):436-48. doi: 10.1016/j.str.2010.01.013.
Abstract
HAMP domains are widespread prokaryotic signaling modules found as single domains or poly-HAMP chains in both transmembrane and soluble proteins. The crystal structure of a three-unit poly-HAMP chain from the Pseudomonas aeruginosa soluble receptor Aer2 defines a universal parallel four-helix bundle architecture for diverse HAMP domains. Two contiguous domains integrate to form a concatenated di-HAMP structure. The three HAMP domains display two distinct conformations that differ by changes in helical register, crossing angle, and rotation. These conformations are stabilized by different subsets of conserved residues. Known signals delivered to HAMP would be expected to switch the relative stability of the two conformations and the position of a coiled-coil phase stutter at the junction with downstream helices. We propose that the two conformations represent opposing HAMP signaling states and suggest a signaling mechanism whereby HAMP domains interconvert between the two states, which alternate down a poly-HAMP chain.
摘要
HAMP 结构域是广泛存在于原核生物中的信号模块,以单结构域或多 HAMP 链的形式存在于跨膜蛋白和可溶性蛋白中。铜绿假单胞菌可溶性受体 Aer2 的三聚体多 HAMP 链的晶体结构定义了不同 HAMP 结构域的通用平行四螺旋束结构。两个连续的结构域整合形成串联的双 HAMP 结构。三个 HAMP 结构域显示出两种不同的构象,其区别在于螺旋排列、交叉角和旋转的变化。这些构象由不同的保守残基亚基稳定。预计传递到 HAMP 的已知信号将改变两种构象的相对稳定性以及与下游螺旋交界处的卷曲螺旋相位停顿的位置。我们提出这两种构象代表相反的 HAMP 信号状态,并提出一种信号机制,通过该机制,HAMP 结构域在两种状态之间相互转换,沿多 HAMP 链交替。
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