对溶藻弧菌噬菌体ϕA318和ϕAs51的RNA聚合酶和主要衣壳中具有不同裂解效率的五个突变进行特征描述的基因组序列。

Genome sequences characterizing five mutations in RNA polymerase and major capsid of phages ϕA318 and ϕAs51 of Vibrio alginolyticus with different burst efficiencies.

作者信息

Liu Wangta, Lin Ying-Rong, Lu Ming-Wei, Sung Ping-Jyun, Wang Wei-Hsien, Lin Chan-Shing

机构信息

Department of Marine Biotechnology and Resources, Asia-Pacific Ocean Research Center, National Sun Yat-sen University, Kaohsiung 80424, Taiwan.

出版信息

BMC Genomics. 2014 Jun 21;15(1):505. doi: 10.1186/1471-2164-15-505.

DOI:10.1186/1471-2164-15-505

PMID:24952762

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4099482/

Abstract

BACKGROUND

The burst size of a phage is important prior to phage therapy and probiotic usage. The efficiency for a phage to burst its host bacterium can result from molecular domino effects of the phage gene expressions which dominate to control host machinery after infection. We found two Podoviridae phages, ϕA318 and ϕAs51, burst a common host V. alginolyticus with different efficiencies of 72 and 10 PFU/bacterium, respectively. Presumably, the genome sequences can be compared to explain their differences in burst sizes.

RESULTS

Among genes in 42.5 kb genomes with a GC content of 43.5%, 16 out of 47 open-reading frames (ORFs) were annotated to known functions, including RNA polymerase (RNAP) and phage structure proteins. 11 strong phage promoters and three terminators were found. The consensus sequence for the new vibriophage promoters is AATAAAGTTGCCCTATA, where the AGTTG bases of -8 through -12 are important for the vibriophage specificity, especially a consensus T at -9 position eliminating RNAP of K1E, T7 and SP6 phages to transcribe the genes. ϕA318 and ϕAs51 RNAP shared their own specific promoters. In comparing ϕAs51 with ϕA318 genomes, only two nucleotides were deleted in the RNAP gene and three mutating nucleotides were found in the major capsid genes.

CONCLUSION

Subtle analyses on the residue alterations uncovered the effects of five nucleotide mutations on the functions of the RNAP and capsid proteins, which account for the host-bursting efficiency. The deletion of two nucleotides in RNAP gene truncates the primary translation due to early stop codon, while a second translational peptide starting from GTG just at deletion point can remediate the polymerase activity. Out of three nucleotide mutations in major capsid gene, H53N mutation weakens the subunit assembly between capsomeres for the phage head; E313K reduces the fold binding between β-sheet and Spine Helix inside the peptide.

摘要

背景

在噬菌体疗法和益生菌使用之前，噬菌体的裂解量很重要。噬菌体裂解其宿主细菌的效率可能源于噬菌体基因表达的分子多米诺效应，这种效应在感染后主导并控制宿主机制。我们发现两种短尾噬菌体科噬菌体，ϕA318和ϕAs51，分别以72和10个噬菌斑形成单位/细菌的不同效率裂解共同宿主溶藻弧菌。据推测，可以比较基因组序列来解释它们在裂解量上的差异。

结果

在GC含量为43.5%的42.5 kb基因组中的基因中，47个开放阅读框（ORF）中有16个被注释为已知功能，包括RNA聚合酶（RNAP）和噬菌体结构蛋白。发现了11个强噬菌体启动子和3个终止子。新的弧菌噬菌体启动子的共有序列是AATAAAGTTGCCCTATA，其中-8至-12位的AGTTG碱基对弧菌噬菌体特异性很重要，特别是-9位的共有T消除了K1E、T7和SP6噬菌体的RNAP转录基因的能力。ϕA318和ϕAs51的RNAP共享它们自己的特异性启动子。在比较ϕAs51和ϕA318基因组时，RNAP基因中仅缺失了两个核苷酸，并且在主要衣壳基因中发现了三个突变核苷酸。

结论

对残基变化的精细分析揭示了五个核苷酸突变对RNAP和衣壳蛋白功能的影响，这解释了宿主裂解效率。RNAP基因中两个核苷酸的缺失由于早期终止密码子而截断了初级翻译，而恰好在缺失点从GTG开始的第二个翻译肽可以修复聚合酶活性。在主要衣壳基因的三个核苷酸突变中，H53N突变削弱了噬菌体头部衣壳粒之间的亚基组装；E313K降低了肽内β折叠与脊柱螺旋之间的折叠结合。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8d61/4099482/b6677b70ba47/12864_2013_6240_Fig1_HTML.jpg

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对溶藻弧菌噬菌体ϕA318和ϕAs51的RNA聚合酶和主要衣壳中具有不同裂解效率的五个突变进行特征描述的基因组序列。

Genome sequences characterizing five mutations in RNA polymerase and major capsid of phages ϕA318 and ϕAs51 of Vibrio alginolyticus with different burst efficiencies.

作者信息

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSION

背景

结果

结论

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