Complete genome of the new bacilliform virus that causes Milky Hemolymph Syndrome in Chionoecetes bairdi (Rathbun, 1924)

IF 3.6 3区生物学 Q1 ZOOLOGY

Journal of invertebrate pathology Pub Date : 2024-08-20 DOI:10.1016/j.jip.2024.108179

M.G. Eliseikina , A.V. Boyko , E.V. Shamshurina , T.V. Ryazanova

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Abstract

The genome of a new member of the Nimaviridae family has been sequenced. The Chionoecetes bairdi bacilliform virus (CbBV) causes Milky Hemolymph Syndrome (MHS) in Chionoecetes bairdi populations of the Pacific coast of Kamchatka. The CbBV genome is represented by double-stranded DNA with a length of 245,567 nucleotides containing 120 ORFs. Of these, 85 proteins had significant matches in the NCBI database, and 57 genes encoded capsid, envelope, tegument and nonstructural proteins. Comparative analysis of the genomes of CbBV and a number of representatives of the class nuclear arthropod large DNA viruses (NALDVs) made it possible to isolate 49 evolutionarily conserved orthologue core genes. Among them, 5 were multicopy genes, and 44 were single-copy genes. There were ancestral genes characteristic of all Naldaviricetes − per os infectivity complex genes, one DNA polymerase gene and one thymidylate synthase gene.

Phylogenetic analysis of representatives of the Nimaviridae family revealed that the CbBV and Chionoecetes opilio bacilliform virus (CoBV) form an independent clade within the family separate from the clade containing WSSV strains. This is supported by data on the order and arrangement of genes in the genomes of nimaviruses that were identical within each clade but differed between them. In addition, a high identity of the genomes and proteomes of CbBV and CoBV (approximately 99%) was shown, and their identity with WSSV strains was no more than 33%.

The data on the structure of the genome of the new virus that causes MHS in C. bairdi indicate that it belongs to the family Nimaviridae, genus Whispovirus. Thus, the CbBV infecting the commercially important species of Tanner crab in populations of the Pacific coast of Kamchatka is the second “wild” representative of replicating nimaviruses whose genome has been characterized after the CoBV that causes MHS in C. opilio in populations of the Sea of Japan. The discovery of a new member of the family that infects decapods indicates the prevalence of nimaviruses in marine ecosystems. The information obtained is important for understanding the evolution of representatives of the class of nuclear arthropod large DNA viruses. The discovery of a new nimavirus that causes MHS in Chionoecetes crabs, in contrast to the white spot syndrome (WSS) caused by WSSV strains, makes it relevant to identify two variants and possibly species within the family, namely, WSSV and Milky Hemolymph Syndrome virus (MHSV).

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导致 Chionoecetes bairdi（Rathbun，1924 年）乳白色血淋巴综合征的新型杆菌病毒的完整基因组。

尼玛病毒科一个新成员的基因组已完成测序。Chionoecetes bairdi bacilliform 病毒（CbBV）会导致堪察加半岛太平洋沿岸的 Chionoecetes bairdi 种群出现乳白色血淋巴综合症（MHS）。CbBV基因组由双链DNA组成，长度为245,567个核苷酸，包含120个ORF。其中，85 个蛋白质在 NCBI 数据库中有重要匹配，57 个基因编码噬菌体、包膜、护膜和非结构蛋白。对 CbBV 和一些核节肢动物大型 DNA 病毒（NALDV）的基因组进行比较分析，可以分离出 49 个进化保守的同源核心基因。其中，5 个是多拷贝基因，44 个是单拷贝基因。所有纳尔达韦里科病毒的祖先基因都具有特征性--每一个os感染性复合基因、一个DNA聚合酶基因和一个胸苷酸合成酶基因。对 Nimaviridae 科代表种的系统进化分析表明，CbBV 和 Chionoecetes opilio bacilliform virus（CoBV）在该科中形成了一个独立的支系，与包含 WSSV 株系的支系分开。有关尼米兹病毒基因组中基因顺序和排列的数据支持了这一观点，这些基因在每个支系内相同，但在支系之间却不同。此外，CbBV 和 CoBV 基因组和蛋白质组的同一性很高（约 99%），它们与 WSSV 株系的同一性不超过 33%。引起 C. bairdi MHS 的新病毒的基因组结构数据表明，它属于尼玛病毒科，Whispovirus 属。因此，堪察加半岛太平洋沿岸种群中感染具有重要商业价值的丹拿蟹物种的 CbBV 是继日本海种群中导致 C. opilio MHS 的 CoBV 病毒之后，第二种 "野生 "复制尼玛病毒的代表，其基因组已被鉴定。发现该家族中感染无足类动物的新成员表明，尼米兹病毒在海洋生态系统中非常普遍。所获得的信息对于了解节肢动物核大 DNA 病毒类代表的进化非常重要。与由 WSSV 株系引起的白斑综合征（WSS）不同，发现了一种新的尼米兹病毒，这种病毒会引起姬蟹的 MHS，因此有必要确定该家族中的两个变种，也可能是物种，即 WSSV 和 Milky Hemolymph Syndrome virus（MHSV）。

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来源期刊

Journal of invertebrate pathology 生物-动物学

CiteScore

6.10

自引率

5.90%

发文量

审稿时长

1 months

期刊介绍： The Journal of Invertebrate Pathology presents original research articles and notes on the induction and pathogenesis of diseases of invertebrates, including the suppression of diseases in beneficial species, and the use of diseases in controlling undesirable species. In addition, the journal publishes the results of physiological, morphological, genetic, immunological and ecological studies as related to the etiologic agents of diseases of invertebrates. The Journal of Invertebrate Pathology is the adopted journal of the Society for Invertebrate Pathology, and is available to SIP members at a special reduced price.