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SsbB 单链 DNA 结合蛋白在肺炎链球菌转化中的作用:维持遗传可塑性的储备库。

Role of the single-stranded DNA-binding protein SsbB in pneumococcal transformation: maintenance of a reservoir for genetic plasticity.

机构信息

Centre National de la Recherche Scientifique, LMGM-UMR5100, Toulouse, France.

出版信息

PLoS Genet. 2011 Jun;7(6):e1002156. doi: 10.1371/journal.pgen.1002156. Epub 2011 Jun 30.

DOI:10.1371/journal.pgen.1002156
PMID:21738490
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3128108/
Abstract

Bacteria encode a single-stranded DNA (ssDNA) binding protein (SSB) crucial for genome maintenance. In Bacillus subtilis and Streptococcus pneumoniae, an alternative SSB, SsbB, is expressed uniquely during competence for genetic transformation, but its precise role has been disappointingly obscure. Here, we report our investigations involving comparison of a null mutant (ssbB(-)) and a C-ter truncation (ssbBΔ7) of SsbB of S. pneumoniae, the latter constructed because SSBs' acidic tail has emerged as a key site for interactions with partner proteins. We provide evidence that SsbB directly protects internalized ssDNA. We show that SsbB is highly abundant, potentially allowing the binding of ~1.15 Mb ssDNA (half a genome equivalent); that it participates in the processing of ssDNA into recombinants; and that, at high DNA concentration, it is of crucial importance for chromosomal transformation whilst antagonizing plasmid transformation. While the latter observation explains a long-standing observation that plasmid transformation is very inefficient in S. pneumoniae (compared to chromosomal transformation), the former supports our previous suggestion that SsbB creates a reservoir of ssDNA, allowing successive recombination cycles. SsbBΔ7 fulfils the reservoir function, suggesting that SsbB C-ter is not necessary for processing protein(s) to access stored ssDNA. We propose that the evolutionary raison d'être of SsbB and its abundance is maintenance of this reservoir, which contributes to the genetic plasticity of S. pneumoniae by increasing the likelihood of multiple transformation events in the same cell.

摘要

细菌编码一种单链 DNA(ssDNA)结合蛋白(SSB),对于基因组维护至关重要。在枯草芽孢杆菌和肺炎链球菌中,一种替代的 SSB,SsbB,仅在遗传转化的感受态期间表达,但它的确切作用令人失望地模糊不清。在这里,我们报告了我们的研究,涉及比较肺炎链球菌 SsbB 的缺失突变体(ssbB(-))和 C 端截断(ssbBΔ7),后者构建是因为 SSBs 的酸性尾巴已成为与伴侣蛋白相互作用的关键位点。我们提供了证据表明 SsbB 可直接保护内化的 ssDNA。我们表明 SsbB 丰度很高,可能允许结合~1.15Mb 的 ssDNA(半个基因组当量);它参与将 ssDNA 加工成重组体;并且在高 DNA 浓度下,对于染色体转化至关重要,同时拮抗质粒转化。尽管后一种观察结果解释了长期以来的观察结果,即质粒转化在肺炎链球菌中非常低效(与染色体转化相比),但前一种观察结果支持了我们之前的建议,即 SsbB 创造了 ssDNA 的储备库,允许连续的重组循环。SsbBΔ7 发挥了储备库的功能,表明 SsbB C 端对于加工蛋白以访问存储的 ssDNA 不是必需的。我们提出,SsbB 的进化原因及其丰度是维持这种储备库,这通过增加同一细胞中多次转化事件的可能性,为肺炎链球菌的遗传可塑性做出贡献。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/49e1/3128108/49e7db80c390/pgen.1002156.g008.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/49e1/3128108/374ff181104c/pgen.1002156.g001.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/49e1/3128108/49e7db80c390/pgen.1002156.g008.jpg

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