与 DNA 聚合酶 III DnaE 和 PolC 相关的基因的独特共同进化模式。

Distinct co-evolution patterns of genes associated to DNA polymerase III DnaE and PolC.

机构信息

AMAbiotics SAS, Bâtiment G1, 2 rue Gaston Crémieux, 91000 Evry, France.

出版信息

BMC Genomics. 2012 Feb 14;13:69. doi: 10.1186/1471-2164-13-69.

DOI:10.1186/1471-2164-13-69

PMID:22333191

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3814617/

Abstract

BACKGROUND

Bacterial genomes displaying a strong bias between the leading and the lagging strand of DNA replication encode two DNA polymerases III, DnaE and PolC, rather than a single one. Replication is a highly unsymmetrical process, and the presence of two polymerases is therefore not unexpected. Using comparative genomics, we explored whether other processes have evolved in parallel with each polymerase.

RESULTS

Extending previous in silico heuristics for the analysis of gene co-evolution, we analyzed the function of genes clustering with dnaE and polC. Clusters were highly informative. DnaE co-evolves with the ribosome, the transcription machinery, the core of intermediary metabolism enzymes. It is also connected to the energy-saving enzyme necessary for RNA degradation, polynucleotide phosphorylase. Most of the proteins of this co-evolving set belong to the persistent set in bacterial proteomes, that is fairly ubiquitously distributed. In contrast, PolC co-evolves with RNA degradation enzymes that are present only in the A+T-rich Firmicutes clade, suggesting at least two origins for the degradosome.

CONCLUSION

DNA replication involves two machineries, DnaE and PolC. DnaE co-evolves with the core functions of bacterial life. In contrast PolC co-evolves with a set of RNA degradation enzymes that does not derive from the degradosome identified in gamma-Proteobacteria. This suggests that at least two independent RNA degradation pathways existed in the progenote community at the end of the RNA genome world.

摘要

背景

在 DNA 复制的前导链和滞后链之间表现出强烈偏向性的细菌基因组编码两个 DNA 聚合酶 III，DnaE 和 PolC，而不是单个聚合酶。复制是一个高度不对称的过程，因此存在两个聚合酶并不意外。通过比较基因组学，我们探讨了其他过程是否与每个聚合酶一起进化。

结果

扩展了先前用于分析基因共进化的计算启发式方法，我们分析了与 dnaE 和 polC 聚类的基因的功能。聚类非常有信息量。DnaE 与核糖体、转录机制、中间代谢酶的核心共进化。它还与必需的 RNA 降解节能酶多核苷酸磷酸化酶有关。这个共进化集合中的大多数蛋白质都属于细菌蛋白质组中的持久集合，分布相当广泛。相比之下，PolC 与仅存在于 A+T 丰富的Firmicutes 分支中的 RNA 降解酶共进化，这表明至少有两种降解酶起源。

结论

DNA 复制涉及两种机制，DnaE 和 PolC。DnaE 与细菌生命的核心功能共进化。相比之下，PolC 与一组 RNA 降解酶共进化，这些酶不是来自于在γ-变形菌中发现的降解酶。这表明在 RNA 基因组世界结束时，原核生物群落中至少存在两种独立的 RNA 降解途径。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5c75/3814617/1a23ea5f9cc8/1471-2164-13-69-1.jpg

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与 DNA 聚合酶 III DnaE 和 PolC 相关的基因的独特共同进化模式。

Distinct co-evolution patterns of genes associated to DNA polymerase III DnaE and PolC.

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSION

背景

结果

结论

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