病毒粒子的元素组成：对海洋生物地球化学循环的影响。

The elemental composition of virus particles: implications for marine biogeochemical cycles.

机构信息

School of Physics, Georgia Institute of Technology, Atlanta, Georgia 30332, USA.

Department of Microbiology, University of Tennessee, Knoxville, Tennessee 37996, USA.

出版信息

Nat Rev Microbiol. 2014 Jul;12(7):519-28. doi: 10.1038/nrmicro3289.

DOI:10.1038/nrmicro3289

PMID:24931044

Abstract

In marine environments, virus-mediated lysis of host cells leads to the release of cellular carbon and nutrients and is hypothesized to be a major driver of carbon recycling on a global scale. However, efforts to characterize the effects of viruses on nutrient cycles have overlooked the geochemical potential of the virus particles themselves, particularly with respect to their phosphorus content. In this Analysis article, we use a biophysical scaling model of intact virus particles that has been validated using sequence and structural information to quantify differences in the elemental stoichiometry of marine viruses compared with their microbial hosts. By extrapolating particle-scale estimates to the ecosystem scale, we propose that, under certain circumstances, marine virus populations could make an important contribution to the reservoir and cycling of oceanic phosphorus.

摘要

在海洋环境中，病毒介导的宿主细胞裂解导致细胞碳和营养物质的释放，据推测这是全球范围内碳再循环的主要驱动因素。然而，在描述病毒对营养循环的影响时，人们忽略了病毒颗粒本身的地球化学潜力，尤其是其磷含量。在这篇分析文章中，我们使用了一种完整病毒颗粒的生物物理比例模型，该模型使用序列和结构信息进行了验证，以量化海洋病毒与微生物宿主相比在元素化学计量上的差异。通过将颗粒尺度的估计值外推到生态系统尺度，我们提出在某些情况下，海洋病毒种群可能对海洋磷的储存和循环做出重要贡献。

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病毒粒子的元素组成：对海洋生物地球化学循环的影响。

The elemental composition of virus particles: implications for marine biogeochemical cycles.

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