Virologs, viral mimicry, and virocell metabolism: The expanding scale of cellular functions encoded in the complex genomes of giant viruses

生物 巨病毒 进化生物学 基因组 模仿 基因 病毒进化 病毒 病毒病机 脊椎动物 计算生物学 遗传学 病毒复制 生态学
作者
Mohammad Moniruzzaman,Paula Maria Erazo-Garcia,Roxanna Farzad,Anh D Ha,Abdeali Jivaji,Sangita Karki,Uri Sheyn,Joshua Stanton,Benjamin Minch,Danae Stephens,Dustin C. Hancks,Rodrigo Araújo Lima Rodrigues,Jônatas Santos Abrahão,Assaf Vardi,Frank O. Aylward
出处
期刊:Fems Microbiology Reviews [Oxford University Press]
标识
DOI:10.1093/femsre/fuad053
摘要

Abstract The phylum Nucleocytoviricota includes the largest and most complex viruses known. These “giant viruses” have a long evolutionary history that dates back to the early diversification of eukaryotes, and over time they have evolved elaborate strategies for manipulating the physiology of their hosts during infection. One of the most captivating of these mechanisms involves the use of genes acquired from the host - referred to here as viral homologs or “virologs” - as a means of promoting viral propagation. The best-known examples of these are involved in mimicry, in which viral machinery “imitates” immunomodulatory elements in the vertebrate defense system. But recent findings have highlighted a vast and rapidly expanding array of other virologs that include many genes not typically found in viruses, such as those involved in translation, central carbon metabolism, cytoskeletal structure, nutrient transport, vesicular trafficking, and light harvesting. Unraveling the roles of virologs during infection as well as the evolutionary pathways through which complex functional repertoires are acquired by viruses are important frontiers at the forefront of giant virus research.

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