Probable human origin of the SARS-CoV-2 polybasic furin cleavage motif.

IF 1.9 Q3 GENETICS & HEREDITY BMC genomic data Pub Date : 2023-11-21 DOI:10.1186/s12863-023-01169-8

Antonio R Romeu

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Abstract

Background: The key evolutionary step leading to the pandemic virus was the acquisition of the PRRA furin cleavage motif at the spike glycoprotein S1/S2 junction by a progenitor of SARS-CoV-2. Two of its features draw attention: (i) it is absent in other known lineage B beta-coronaviruses, including the newly discovered coronaviruses in bats from Laos and Vietnam, which are the closest known relatives of the covid virus; and, (ii) it introduced the pair of arginine codons (CGG-CGG), whose usage is extremely rare in coronaviruses. With an occurrence rate of only 3%, the arginine CGG codon is considered a minority in SARS CoV-2. On the other hand, Laos and Vietnam bat coronaviruses contain receptor-binding domains that are almost identical to that of SARS-CoV-2 and can therefore infect human cells despite the absence of the furin cleavage motif.

Results: Based on these data, the aim of this work is to provide a detailed sequence analysis between the SARS-CoV-2 S gene insert encoding PRRA and the human mRNA transcripts. The result showed a 100% match to several mRNA transcripts. The set of human genes whose mRNAs match this S gene insert are ubiquitous and highly expressed, e.g., the ATPase F1 (ATP5F1) and the ubiquitin specific peptidase 21 (USP21) genes; or specific genes of target organs or tissues of the SARS-CoV-2 infection (e.g., MEMO1, SALL3, TRIM17, CWC15, CCDC187, FAM71E2, GAB4, PRDM13). Results suggest that a recombination between the genome of a SARS-CoV-2 progenitor and human mRNA transcripts could be the origin of the S gene 12-nucleotide insert encoding the S protein PRRA motif.

Conclusions: The hypothesis of probable human origin of the SARS-CoV-2 polybasic furin cleavage motif is supported by: (i) the nature of human genes whose mRNA sequence 100% match the S gene insert; (ii) the synonymous base substitution in the arginine codons (CGG-CGG); and (iii) further spike glycoprotein PRRA-like insertions suggesting that the acquisition of PRRA may not have been a single recombination event.

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SARS-CoV-2多碱基蛋白切割基序的可能人类起源。

背景:导致大流行病毒的关键进化步骤是SARS-CoV-2的一个祖细胞在刺突糖蛋白S1/S2连接处获得PRRA furin切割基序。它的两个特征值得注意:(i)它在其他已知的B β冠状病毒谱系中不存在，包括在老挝和越南蝙蝠中新发现的冠状病毒，这是已知的与新冠病毒最近的亲属;(ii)引入了一对精氨酸密码子(CGG-CGG)，这对密码子在冠状病毒中极为罕见。精氨酸CGG密码子的发生率仅为3%，在SARS CoV-2中被认为是少数。另一方面，老挝和越南的蝙蝠冠状病毒含有与SARS-CoV-2几乎相同的受体结合结构域，因此尽管没有furin切割基序，也可以感染人类细胞。结果:基于这些数据，本工作的目的是提供编码PRRA的sars - cov - 2s基因插入物与人类mRNA转录物之间的详细序列分析。结果显示与几个mRNA转录物100%匹配。与这一S基因插入相匹配的mrna的人类基因是普遍存在且高表达的，如atp酶F1 (ATP5F1)和泛素特异性肽酶21 (USP21)基因;或SARS-CoV-2感染靶器官或组织的特定基因(如MEMO1、SALL3、TRIM17、CWC15、CCDC187、FAM71E2、GAB4、PRDM13)。结果表明，SARS-CoV-2祖细胞基因组与人类mRNA转录物之间的重组可能是编码S蛋白PRRA基序的S基因12个核苷酸插入物的起源。结论:SARS-CoV-2多碱基furin切割基序可能源自人类的假设得到以下支持:(1)人类基因的性质，其mRNA序列与S基因插入段100%匹配;(ii)精氨酸密码子的同义碱基替换(CGG-CGG);(iii)进一步的尖峰糖蛋白PRRA样插入表明PRRA的获得可能不是单一的重组事件。

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BMC genomic data

CiteScore

4.90

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0.00%

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