How does evolution work in superabundant microbes?

IF 14 1区 生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY
Trends in Microbiology Pub Date : 2024-09-01 Epub Date: 2024-02-14 DOI:10.1016/j.tim.2024.01.009
Dmitry A Filatov, Mark Kirkpatrick
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引用次数: 0

Abstract

Marine phytoplankton play crucial roles in the Earth's ecological, chemical, and geological processes. They are responsible for about half of global primary production and drive the ocean biological carbon pump. Understanding how plankton species may adapt to the Earth's rapidly changing environments is evidently an urgent priority. This problem requires evolutionary genetic approaches as evolution occurs at the level of allele frequency change within populations driven by genetic drift and natural selection (microevolution). Plankters such as the coccolithophore Gephyrocapsa huxleyi and the cyanobacterium Prochlorococcus 'marinus' are among Earth's most abundant organisms. In this opinion paper we discuss how evolution in astronomically large populations of superabundant microbes (SAMs) may act fundamentally differently than it does in the populations of more modest size found in well-studied organisms. This offers exciting opportunities to study evolution in the conditions that have yet to be explored and also leads to unique challenges. Exploring these opportunities and challenges is the goal of this article.

超级丰富的微生物是如何进化的?
海洋浮游植物在地球的生态、化学和地质过程中发挥着至关重要的作用。它们的产量约占全球初级生产力的一半,并驱动着海洋生物碳泵。了解浮游生物物种如何适应地球快速变化的环境显然是当务之急。这个问题需要采用基因进化方法来解决,因为进化发生在遗传漂移和自然选择(微进化)驱动的种群内等位基因频率变化的水平上。浮游生物(如茧石藻 Gephyrocapsa huxleyi 和蓝藻 Prochlorococcus 'marinus')是地球上最丰富的生物之一。在这篇观点性论文中,我们讨论了超丰度微生物(SAMs)天文数字般庞大的种群中的进化与在研究得比较透彻的生物体中规模较小的种群中的进化有何本质区别。这为研究尚未探索过的条件下的进化提供了令人兴奋的机会,同时也带来了独特的挑战。本文的目的就是探讨这些机遇和挑战。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Trends in Microbiology
Trends in Microbiology 生物-生化与分子生物学
CiteScore
25.30
自引率
0.60%
发文量
193
审稿时长
6-12 weeks
期刊介绍: Trends in Microbiology serves as a comprehensive, multidisciplinary forum for discussing various aspects of microbiology, spanning cell biology, immunology, genetics, evolution, virology, bacteriology, protozoology, and mycology. In the rapidly evolving field of microbiology, technological advancements, especially in genome sequencing, impact prokaryote biology from pathogens to extremophiles, influencing developments in drugs, vaccines, and industrial enzyme research.
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