Villain Adrien, Gallot-Lavallée Lucie, Blanc Guillaume, Maumus Florian
Laboratoire Information Génomique & Structurale, UMR7256 (IMM FR3479) CNRS Aix-Marseille Université, 163 Avenue de Luminy, Case 934, 13288 Marseille Cedex 9, France.
URGI, INRA, Université Paris-Saclay, 78026 Versailles, France.
Curr Opin Virol. 2016 Apr;17:130-137. doi: 10.1016/j.coviro.2016.03.007. Epub 2016 Apr 16.
The unicellular eukaryotes (also called protists) that inhabit the contemporary oceans have large impacts on major biogeochemical cycles. Populations of oceanic protists are to a large extent regulated by their viral parasites, especially nucleocytoplasmic large DNA viruses (NCLDVs). NCLDVs can themselves be the prey of smaller viruses called virophages and can also be infected by transposable elements termed transpovirons. These entangled parasitisms have fostered the emergence of sophisticated infection and defence strategies. In addition persistent contact has facilitated the exchange of genes between different parties. Recent advances shed light on the strategies that govern such microbial wars. Endogenous virophage-like elements found in the genome of a marine alga could for instance provide the host acquired immunity against NCLDVs. In return, it was recently speculated that virophage sequences can be hijacked by NCLDVs and used as genetic weapons against virophages.
栖息于当代海洋中的单细胞真核生物(也称为原生生物)对主要生物地球化学循环有着重大影响。海洋原生生物的种群在很大程度上受其病毒寄生虫调控,尤其是核质大DNA病毒(NCLDVs)。NCLDVs自身可能成为被称为噬病毒体的较小病毒的猎物,并且还可能被称为转座病毒的转座元件感染。这些错综复杂的寄生关系催生了复杂的感染和防御策略。此外,持续接触促进了不同生物之间的基因交换。最近的进展揭示了控制此类微生物战争的策略。例如,在一种海洋藻类基因组中发现的内源性类噬病毒体元件可能为宿主提供针对NCLDVs的获得性免疫。作为回报,最近有人推测NCLDVs可能劫持噬病毒体序列并将其用作对抗噬病毒体的基因武器。
