逆转录病毒rev样蛋白寡聚化的同质结构基础的鉴定。

IF 2.7 3区 医学 Q3 VIROLOGY
Chijioke N Umunnakwe, Karin S Dorman, Drena Dobbs, Susan Carpenter
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引用次数: 5

摘要

背景:Rev-like蛋白是在一些逆转录病毒属中发现的转录后调节蛋白,包括慢病毒、β -逆转录病毒和δ -逆转录病毒。这些必需蛋白介导不完全剪接的病毒RNA的核输出,并通过将病毒前mrna拴在宿主CRM1核输出机制上起作用。虽然所有的Rev-like蛋白在功能上都是同源的,但它们的序列同源性不到30%。在本研究中,我们在系统发育框架内计算评估了逆转录病毒rev样蛋白结构同源性的程度。结果:我们对整个蛋白质结构域进行了全面的分析,并预测了Rev-like蛋白家族的代表性成员的二级结构特征。除了没有α-螺旋结构域的三角逆转录病毒外,每个属的Rev-like蛋白都具有相似的α-螺旋结构域。除了HIV-1、德尔塔逆转录病毒和一些小型反刍动物慢病毒外,大多数rev -样蛋白也发现了螺旋状寡聚化基序。在灵长类慢病毒的Rev蛋白中,预测的盘绕基序存在于特定的灵长类谱系中:HIV-1来自缺乏Rev中预测的盘绕基序的siv,而HIV-2来自包含Rev中预测的盘绕基序的siv。所有Rev样蛋白的盘绕基序的系统发育祖先重建预测了盘绕基序的单一起源,随后是预测信号的三次损失。HIV-1中线圈信号的缺失与典型极性残基被非典型疏水残基取代有关。然而,疏水残基保留在关键的“a”和“d”位置,并且HIV-1 Rev寡聚结构域的α-螺旋区可以建模为具有两个预测相互作用界面的螺旋轮。此外,预测的界面映射到HIV-1 Rev晶体结构中的二聚化和寡聚化界面。其他逆转录病毒rev样蛋白的螺旋轮投射,包括内源性序列,揭示了类似的相互作用界面,可以介导寡聚化。结论:基于序列的Rev-like蛋白计算分析,结合寡聚化结构域的螺旋轮投影,揭示了逆转录病毒Rev-like蛋白寡聚化的保守均匀结构基础。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Identification of a homogenous structural basis for oligomerization by retroviral Rev-like proteins.

Identification of a homogenous structural basis for oligomerization by retroviral Rev-like proteins.

Identification of a homogenous structural basis for oligomerization by retroviral Rev-like proteins.

Identification of a homogenous structural basis for oligomerization by retroviral Rev-like proteins.

Background: Rev-like proteins are post-transcriptional regulatory proteins found in several retrovirus genera, including lentiviruses, betaretroviruses, and deltaretroviruses. These essential proteins mediate the nuclear export of incompletely spliced viral RNA, and act by tethering viral pre-mRNA to the host CRM1 nuclear export machinery. Although all Rev-like proteins are functionally homologous, they share less than 30% sequence identity. In the present study, we computationally assessed the extent of structural homology among retroviral Rev-like proteins within a phylogenetic framework.

Results: We undertook a comprehensive analysis of overall protein domain architecture and predicted secondary structural features for representative members of the Rev-like family of proteins. Similar patterns of α-helical domains were identified for Rev-like proteins within each genus, with the exception of deltaretroviruses, which were devoid of α-helices. Coiled-coil oligomerization motifs were also identified for most Rev-like proteins, with the notable exceptions of HIV-1, the deltaretroviruses, and some small ruminant lentiviruses. In Rev proteins of primate lentiviruses, the presence of predicted coiled-coil motifs segregated within specific primate lineages: HIV-1 descended from SIVs that lacked predicted coiled-coils in Rev whereas HIV-2 descended from SIVs that contained predicted coiled-coils in Rev. Phylogenetic ancestral reconstruction of coiled-coils for all Rev-like proteins predicted a single origin for the coiled-coil motif, followed by three losses of the predicted signal. The absence of a coiled-coil signal in HIV-1 was associated with replacement of canonical polar residues with non-canonical hydrophobic residues. However, hydrophobic residues were retained in the key 'a' and 'd' positions, and the α-helical region of HIV-1 Rev oligomerization domain could be modeled as a helical wheel with two predicted interaction interfaces. Moreover, the predicted interfaces mapped to the dimerization and oligomerization interfaces in HIV-1 Rev crystal structures. Helical wheel projections of other retroviral Rev-like proteins, including endogenous sequences, revealed similar interaction interfaces that could mediate oligomerization.

Conclusions: Sequence-based computational analyses of Rev-like proteins, together with helical wheel projections of oligomerization domains, reveal a conserved homogeneous structural basis for oligomerization by retroviral Rev-like proteins.

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来源期刊
Retrovirology
Retrovirology 医学-病毒学
CiteScore
5.80
自引率
3.00%
发文量
24
审稿时长
>0 weeks
期刊介绍: Retrovirology is an open access, online journal that publishes stringently peer-reviewed, high-impact articles on host-pathogen interactions, fundamental mechanisms of replication, immune defenses, animal models, and clinical science relating to retroviruses. Retroviruses are pleiotropically found in animals. Well-described examples include avian, murine and primate retroviruses. Two human retroviruses are especially important pathogens. These are the human immunodeficiency virus, HIV, and the human T-cell leukemia virus, HTLV. HIV causes AIDS while HTLV-1 is the etiological agent for adult T-cell leukemia and HTLV-1-associated myelopathy/tropical spastic paraparesis. Retrovirology aims to cover comprehensively all aspects of human and animal retrovirus research.
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