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基于基因组序列和两种依赖于 R 质粒的 ssRNA 噬菌体 C-1 和 Hgal1 的特性,重新思考单链 RNA (ssRNA) 噬菌体的进化。

Rethinking the evolution of single-stranded RNA (ssRNA) bacteriophages based on genomic sequences and characterizations of two R-plasmid-dependent ssRNA phages, C-1 and Hgal1.

机构信息

Department of Biological Sciences, University at Albany, Albany, New York, USA.

出版信息

J Bacteriol. 2012 Sep;194(18):5073-9. doi: 10.1128/JB.00929-12. Epub 2012 Jul 20.

DOI:10.1128/JB.00929-12
PMID:22821966
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3430324/
Abstract

We have sequenced and characterized two R-plasmid-dependent single-stranded RNA bacteriophages (RPD ssRNA phages), C-1 and Hagl1. Phage C-1 requires a conjugative plasmid of the IncC group, while Hgal1 requires the IncH group. Both the adsorption rate constants and one-step growth curves are determined for both phages. We also empirically confirmed the lysis function of the predicted lysis genes. Genomic sequencing and phylogenetic analyses showed that both phages belong to the Levivirus group and are most closely related to another IncP-plasmid-dependent ssRNA phage, PRR1. Furthermore, our result strongly suggests that the stereotypical bauplans of genome organization found in Levivirus and Allolevivirus predate phage specialization for conjugative plasmids, suggesting that the utilization of conjugative plasmids for cell attachment and entry comprises independent evolutionary events for these two main clades of ssRNA phages. Our result is also consistent with findings of a previous study, making the Levivirus-like genome organization ancestral and the Allolevivirus-like genome derived. To obtain a deeper insight into the evolution of ssRNA phages, more phages specializing for various conjugative plasmids and infecting different bacterial species would be needed.

摘要

我们已经对两种依赖于 R 质粒的单链 RNA 噬菌体(RPD ssRNA 噬菌体)C-1 和 Hagl1 进行了测序和特征分析。噬菌体 C-1 需要一种 conjugative plasmid of the IncC 组,而 Hgal1 需要 IncH 组。我们还确定了两种噬菌体的吸附速率常数和一步生长曲线。我们还通过实验验证了预测的裂解基因的裂解功能。基因组测序和系统发育分析表明,这两种噬菌体都属于 Levivirus 组,与另一种依赖于 IncP 质粒的单链 RNA 噬菌体 PRR1 最为密切相关。此外,我们的研究结果强烈表明,在 ssRNA 噬菌体专门针对 conjugative plasmids 之前,Levivirus 和 Allolevivirus 中发现的典型基因组组织模式就已经存在,这表明利用 conjugative plasmids 进行细胞附着和进入是这两个 ssRNA 噬菌体主要分支的独立进化事件。我们的研究结果也与之前的一项研究结果一致,表明 Levivirus 样基因组组织是原始的,而 Allolevivirus 样基因组是衍生的。为了更深入地了解 ssRNA 噬菌体的进化,需要更多专门针对各种 conjugative plasmids 并感染不同细菌物种的噬菌体。

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