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温度诱导的赫氏颗石藻(定鞭藻纲)病毒抗性

Temperature-induced viral resistance in Emiliania huxleyi (Prymnesiophyceae).

作者信息

Kendrick B Jacob, DiTullio Giacomo R, Cyronak Tyler J, Fulton James M, Van Mooy Benjamin A S, Bidle Kay D

机构信息

Grice Marine Laboratory, College of Charleston, Charleston, SC, United States of America.

Department of Marine Chemistry and Geochemistry, Woods Hole Oceanographic Institution, Woods Hole, MA, United States of America.

出版信息

PLoS One. 2014 Nov 18;9(11):e112134. doi: 10.1371/journal.pone.0112134. eCollection 2014.

DOI:10.1371/journal.pone.0112134
PMID:25405345
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4236053/
Abstract

Annual Emiliania huxleyi blooms (along with other coccolithophorid species) play important roles in the global carbon and sulfur cycles. E. huxleyi blooms are routinely terminated by large, host-specific dsDNA viruses, (Emiliania huxleyi Viruses; EhVs), making these host-virus interactions a driving force behind their potential impact on global biogeochemical cycles. Given projected increases in sea surface temperature due to climate change, it is imperative to understand the effects of temperature on E. huxleyi's susceptibility to viral infection and its production of climatically active dimethylated sulfur species (DSS). Here we demonstrate that a 3°C increase in temperature induces EhV-resistant phenotypes in three E. huxleyi strains and that successful virus infection impacts DSS pool sizes. We also examined cellular polar lipids, given their documented roles in regulating host-virus interactions in this system, and propose that alterations to membrane-bound surface receptors are responsible for the observed temperature-induced resistance. Our findings have potential implications for global biogeochemical cycles in a warming climate and for deciphering the particular mechanism(s) by which some E. huxleyi strains exhibit viral resistance.

摘要

每年的赫氏颗石藻大量繁殖(以及其他颗石藻物种)在全球碳和硫循环中发挥着重要作用。赫氏颗石藻大量繁殖通常会被大型的、宿主特异性的双链DNA病毒(赫氏颗石藻病毒;EhVs)终止,使得这些宿主-病毒相互作用成为其对全球生物地球化学循环潜在影响背后的驱动力。鉴于气候变化导致预计海表温度上升,了解温度对赫氏颗石藻易受病毒感染的影响及其对具有气候活性的二甲基化硫物种(DSS)的产生情况至关重要。在此我们证明,温度升高3°C会在三种赫氏颗石藻菌株中诱导出抗EhV的表型,并且病毒的成功感染会影响DSS库的大小。我们还研究了细胞极性脂质,鉴于其在该系统中调节宿主-病毒相互作用的既定作用,并提出膜结合表面受体的改变是观察到的温度诱导抗性的原因。我们的研究结果对于气候变暖下的全球生物地球化学循环以及解读某些赫氏颗石藻菌株表现出病毒抗性的具体机制具有潜在意义。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d295/4236053/ee79e2b576e4/pone.0112134.g008.jpg
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