环状二核苷酸周转蛋白功能多样化背后分子基础的理解进展
Progress in Understanding the Molecular Basis Underlying Functional Diversification of Cyclic Dinucleotide Turnover Proteins.
作者信息
Römling Ute, Liang Zhao-Xun, Dow J Maxwell
机构信息
Department of Microbiology, Tumor and Cell Biology, Karolinska Institutet, Stockholm, Sweden
School of Biological Sciences, Nanyang Technological University, Singapore, Singapore
出版信息
J Bacteriol. 2017 Feb 14;199(5). doi: 10.1128/JB.00790-16. Print 2017 Mar 1.
Abstract
Cyclic di-GMP was the first cyclic dinucleotide second messenger described, presaging the discovery of additional cyclic dinucleotide messengers in bacteria and eukaryotes. The GGDEF diguanylate cyclase (DGC) and EAL and HD-GYP phosphodiesterase (PDE) domains conduct the turnover of cyclic di-GMP. These three unrelated domains belong to superfamilies that exhibit significant variations in function, and they include both enzymatically active and inactive members, with a subset involved in synthesis and degradation of other cyclic dinucleotides. Here, we summarize current knowledge of sequence and structural variations that underpin the functional diversification of cyclic di-GMP turnover proteins. Moreover, we highlight that superfamily diversification is not restricted to cyclic di-GMP signaling domains, as particular DHH/DHHA1 domain and HD domain proteins have been shown to act as cyclic di-AMP phosphodiesterases. We conclude with a consideration of the current limitations that such diversity of action places on bioinformatic prediction of the roles of GGDEF, EAL, and HD-GYP domain proteins.
摘要
环二鸟苷酸是最早被描述的环二核苷酸第二信使,它预示着细菌和真核生物中其他环二核苷酸信使的发现。GGDEF双鸟苷酸环化酶(DGC)以及EAL和HD-GYP磷酸二酯酶(PDE)结构域负责环二鸟苷酸的周转。这三个不相关的结构域属于超家族,其功能表现出显著差异,它们包括酶活性和无活性成员,其中一部分参与其他环二核苷酸的合成和降解。在这里,我们总结了目前关于支撑环二鸟苷酸周转蛋白功能多样化的序列和结构变异的知识。此外,我们强调超家族的多样化并不局限于环二鸟苷酸信号结构域,因为特定的DHH/DHHA1结构域和HD结构域蛋白已被证明可作为环二腺苷磷酸二酯酶。我们最后考虑了这种作用多样性对GGDEF、EAL和HD-GYP结构域蛋白作用的生物信息学预测目前所造成的限制。
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