Hernández Torres Jorge, Papandreou Nikolaos, Chomilier Jacques
Laboratorio de Biología Molecular, Escuela de Biología, Universidad Industrial de Santander, Apartado Aéreo 678, Bucaramanga, Colombia.
Cell Stress Chaperones. 2009 May;14(3):281-9. doi: 10.1007/s12192-008-0083-8. Epub 2008 Nov 6.
The co-chaperone Hop [heat shock protein (HSP) organising protein] is known to bind both Hsp70 and Hsp90. Hop comprises three repeats of a tetratricopeptide repeat (TPR) domain, each consisting of three TPR motifs. The first and last TPR domains are followed by a domain containing several dipeptide (DP) repeats called the DP domain. These analyses suggest that the hop genes result from successive recombination events of an ancestral TPR-DP module. From a hydrophobic cluster analysis of homologous Hop protein sequences derived from gene families, we can postulate that shifts in the open reading frames are at the origin of the present sequences. Moreover, these shifts can be related to the presence or absence of biological function. We propose to extend the family of Hop co-chaperons into the kingdom of bacteria, as several structurally related genes have been identified by hydrophobic cluster analysis. We also provide evidence of common structural characteristics between hop and hip genes, suggesting a shared precursor of ancestral TPR-DP domains.
辅助伴侣蛋白Hop[热休克蛋白(HSP)组织蛋白]已知可同时结合Hsp70和Hsp90。Hop由三个四肽重复序列(TPR)结构域重复组成,每个结构域由三个TPR基序组成。第一个和最后一个TPR结构域之后是一个包含几个二肽(DP)重复序列的结构域,称为DP结构域。这些分析表明,hop基因源于一个祖先TPR-DP模块的连续重组事件。通过对来自基因家族的同源Hop蛋白序列进行疏水簇分析,我们可以推测开放阅读框的移位是当前序列的起源。此外,这些移位可能与生物学功能的有无有关。我们建议将Hop辅助伴侣蛋白家族扩展到细菌界,因为通过疏水簇分析已经鉴定出了几个结构相关的基因。我们还提供了hop和hip基因之间共同结构特征的证据,表明存在一个共同的祖先TPR-DP结构域前体。
