核酸编辑在人畜共患病毒适应人类中的作用

IF 5.7 2区 医学 Q1 VIROLOGY
Jeremy Ratcliff , Peter Simmonds
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引用次数: 0

摘要

在溢出之后,病毒必须适应新宿主中抗病毒反应施加的新的选择压力。在哺乳动物中,细胞防御机制通常包括通过蛋白质家族载脂蛋白-B mRNA编辑复合物(APOBEC)和作用于核糖核酸的腺苷脱氨酶(ADAR)介导的病毒核酸编辑途径。APOBEC诱导C→病毒基因组中的U转换;APOBEC基因座具有高度多态性,在人类和其他哺乳动物中具有可变数量的APOBEC3旁系同源物和靶标偏好。APOBEC3同源物塑造了人类免疫缺陷病毒的进化史,有令人信服的生物信息学证据表明其对猴痘病毒和严重急性呼吸综合征冠状病毒2的诱变影响。ADAR-1诱导腺酶转化为肌苷(A→I) 双链核糖核酸(RNA)中的取代;它在病毒适应中的作用还不太清楚,对病毒基因组的表观遗传学修饰,如甲基化。核酸编辑限制了病毒可以探索的进化空间,并可能限制病毒宿主的范围。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

The roles of nucleic acid editing in adaptation of zoonotic viruses to humans

The roles of nucleic acid editing in adaptation of zoonotic viruses to humans

Following spillover, viruses must adapt to new selection pressures exerted by antiviral responses in their new hosts. In mammals, cellular defense mechanisms often include viral nucleic acid editing pathways mediated through protein families apolipoprotein-B mRNA-editing complex (APOBEC) and Adenosine Deaminase Acting on ribonucleic acid (ADAR). APOBECs induce C→U transitions in viral genomes; the APOBEC locus is highly polymorphic with variable numbers of APOBEC3 paralogs and target preferences in humans and other mammals. APOBEC3 paralogs have shaped the evolutionary history of human immunodeficiency virus, with compelling bioinformatic evidence also for its mutagenic impact on monkeypox virus and severe acute respiratory syndrome coronavirus 2. ADAR-1 induces adenose-to-inosine (A→I) substitutions in double-stranded ribonucleic acid (RNA); its role in virus adaptation is less clear, as are epigenetic modifications to viral genomes, such as methylation. Nucleic acid editing restricts evolutionary space in which viruses can explore and may restrict viral-host range.

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来源期刊
CiteScore
11.80
自引率
5.10%
发文量
76
审稿时长
83 days
期刊介绍: Current Opinion in Virology (COVIRO) is a systematic review journal that aims to provide specialists with a unique and educational platform to keep up to date with the expanding volume of information published in the field of virology. It publishes 6 issues per year covering the following 11 sections, each of which is reviewed once a year: Emerging viruses: interspecies transmission; Viral immunology; Viral pathogenesis; Preventive and therapeutic vaccines; Antiviral strategies; Virus structure and expression; Animal models for viral diseases; Engineering for viral resistance; Viruses and cancer; Virus vector interactions. There is also a section that changes every year to reflect hot topics in the field.
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