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HIV-1M中的重组模式受到选择的影响,这种选择不利于具有破坏的基因组RNA和蛋白质结构的重组体的存活。

Patterns of recombination in HIV-1M are influenced by selection disfavouring the survival of recombinants with disrupted genomic RNA and protein structures.

作者信息

Golden Michael, Muhire Brejnev M, Semegni Yves, Martin Darren P

机构信息

Department of Statistics, University of Oxford, Oxford, United Kingdom.

Institute of Infectious Diseases and Molecular Medicine, Computational Biology Group, University of Cape Town, Cape Town, South Africa.

出版信息

PLoS One. 2014 Jun 17;9(6):e100400. doi: 10.1371/journal.pone.0100400. eCollection 2014.

DOI:10.1371/journal.pone.0100400
PMID:24936864
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4061080/
Abstract

Genetic recombination is a major contributor to the ongoing diversification of HIV. It is clearly apparent that across the HIV-genome there are defined recombination hot and cold spots which tend to co-localise both with genomic secondary structures and with either inter-gene boundaries or intra-gene domain boundaries. There is also good evidence that most recombination breakpoints that are detectable within the genes of natural HIV recombinants are likely to be minimally disruptive of intra-protein amino acid contacts and that these breakpoints should therefore have little impact on protein folding. Here we further investigate the impact on patterns of genetic recombination in HIV of selection favouring the maintenance of functional RNA and protein structures. We confirm that chimaeric Gag p24, reverse transcriptase, integrase, gp120 and Nef proteins that are expressed by natural HIV-1 recombinants have significantly lower degrees of predicted folding disruption than randomly generated recombinants. Similarly, we use a novel single-stranded RNA folding disruption test to show that there is significant, albeit weak, evidence that natural HIV recombinants tend to have genomic secondary structures that more closely resemble parental structures than do randomly generated recombinants. These results are consistent with the hypothesis that natural selection has acted both in the short term to purge recombinants with disrupted RNA and protein folds, and in the longer term to modify the genome architecture of HIV to ensure that recombination prone sites correspond with those where recombination will be minimally deleterious.

摘要

基因重组是导致HIV持续多样化的主要因素。很明显,在整个HIV基因组中存在明确的重组热点和冷点,它们往往与基因组二级结构以及基因间边界或基因内结构域边界共定位。也有充分证据表明,在天然HIV重组体基因内可检测到的大多数重组断点对蛋白质内氨基酸接触的破坏可能最小,因此这些断点对蛋白质折叠的影响应该很小。在这里,我们进一步研究了有利于维持功能性RNA和蛋白质结构的选择对HIV基因重组模式的影响。我们证实,天然HIV-1重组体表达的嵌合型Gag p24、逆转录酶、整合酶、gp120和Nef蛋白的预测折叠破坏程度明显低于随机产生的重组体。同样,我们使用一种新型的单链RNA折叠破坏试验表明,有显著的(尽管很微弱)证据表明,与随机产生的重组体相比,天然HIV重组体的基因组二级结构往往更类似于亲本结构。这些结果与以下假设一致:自然选择在短期内作用于清除具有破坏的RNA和蛋白质折叠的重组体,在长期内作用于改变HIV的基因组结构,以确保重组易发生位点与那些重组危害最小的位点相对应。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/259e/4061080/f3b5686411c6/pone.0100400.g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/259e/4061080/6396eb4f8df0/pone.0100400.g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/259e/4061080/f3b5686411c6/pone.0100400.g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/259e/4061080/6396eb4f8df0/pone.0100400.g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/259e/4061080/f3b5686411c6/pone.0100400.g002.jpg

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