全球范围内现存番茄黄叶卷曲病毒株系的系统发育基因组和群体遗传学分析

IF 2 Q4 VIROLOGY Frontiers in virology Pub Date : 2023-07-25 DOI:10.3389/fviro.2023.1221156
Wendy G. Marchant, H. Mugerwa, Saurabh Gautam, H. Al-Aqeel, J. Polston, G. Rennberger, Hugh Smith, Bill Turechek, S. Adkins, Judith K. Brown, R. Srinivasan
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引用次数: 2

摘要

番茄黄叶卷曲病毒(TYLCV)是一种单体DNA病毒,基因组大小约为2800个碱基对。该病毒属于双子座病毒科贝氏病毒属。基于94%全基因组成对核苷酸同一性的既定阈值来分化现存TYLCV菌株。TYLCV的系统发育关系、多样化机制(包括重组)以及在起源中心内外的传播程度已在先前的研究中报道。然而,菌株之间的进化关系、菌株的分布和基因组多样性,以及塑造TYLCV菌株进化的遗传机制尚未得到重新评估,以考虑公开序列数据库中具有全球代表性的基因组序列,包括本文中分别来自美国和中东的新测序基因组。在这项研究中,TYLCV现存菌株和分离株(n=818)的全长基因组序列是从GenBank数据库下载的。对本文测定的来自科威特和美国的TYLCV分离株的所有先前发表的基因组序列和新测序的TYLCV基因组(n=834)进行重组分析。为了消除种间重组带来的“系统发育噪声”,从数据集中删除重组基因组,并对剩余的非重组基因组序列(n=423)进行群体遗传学和贝叶斯分析。系统地理分析结果表明,TYLCV以色列株和TYLCV轻度株在全球分布,横跨非洲、美洲、亚洲、澳大利亚/大洋洲、欧洲和新喀里多尼亚,而其他TYLCV株仅在整个中东流行。贝叶斯进化(祖先)分析的结果预测,TYLCV Israel代表最古老、最近的共同祖先(MRCA)(41795年),其次是TYLCV轻度,年龄为39808年。紧随其后的是两种伊朗毒株,即分别在37529年和36420年的TYLCV Kerman和TYLCV Iran。相比之下,最近进化的菌株分别是12445年和298年的TYLCV Kuwait和TYLCV Kahnooj。中性测试的结果表明,TYLCV Israel和TYLCV轻度种群正在进行纯化选择和/或种群扩展,尽管基于作用于五个密码子的阳性选择,仅记录了TYLCV以色列的统计学显著选择。
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Phylogenomic and population genetics analyses of extant tomato yellow leaf curl virus strains on a global scale
Tomato yellow leaf curl virus (TYLCV) is a monopartite DNA virus with a genome size of ~ 2,800 base pairs. The virus belongs to the genus Begomovirus within the family Geminiviridae. Extant TYLCV strains are differentiated based on an established threshold of 94% genome-wide pairwise nucleotide identity. The phylogenetic relationships, diversification mechanisms, including recombination, and extent of spread within and from the center of origin for TYLCV have been reported in previous studies. However, the evolutionary relationships among strains, strains’ distribution and genomic diversification, and genetic mechanisms shaping TYLCV strains’ evolution have not been re-evaluated to consider globally representative genome sequences in publicly available sequence database, including herein newly sequenced genomes from the U.S. and Middle East, respectively. In this study, full-length genome sequences for the extant strains and isolates of TYLCV (n=818) were downloaded from the GenBank database. All previously published genome sequences, and newly sequenced TYLCV genomes of TYLCV isolates from Kuwait and USA, determined herein (n=834), were subjected to recombination analysis. To remove the ‘phylogenetic noise’ imparted by interspecific recombination, the recombinant genomes were removed from the data set, and the remaining non-recombinant genome sequences (n=423) were subjected to population genetics and Bayesian analyses. Results of the phylogeographical analysis indicated that the type strain, TYLCV-Israel, and TYLCV-Mild strain, were globally distributed, spanning Africa, America, Asia, Australia/Oceania, Europe, and New Caledonia, while the other TYLCV strains were prevalent only throughout the Middle East. The results of Bayesian evolutionary (ancestral) analysis predicted that TYLCV-Israel represents the oldest, most recent common ancestor (MRCA) (41,795 years), followed by TYLCV-Mild at 39,808 years. These were closely followed by two Iranian strains viz., TYLCV-Kerman and TYLCV-Iran at 37,529 and 36,420 years, respectively. In contrast, the most recently evolving strains were TYLCV-Kuwait and TYLCV-Kahnooj at 12,445 and 298 years, respectively. Results of the neutrality test indicated that TYLCV-Israel and TYLCV-Mild populations are undergoing purifying selection and/or population expansion, although statistically significant selection was documented for only TYLCV-Israel, based on positive selection acting on five codons.
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