将基因组学扩展至自然群落和生态系统。

Extending genomics to natural communities and ecosystems.

作者信息

Whitham Thomas G, Difazio Stephen P, Schweitzer Jennifer A, Shuster Stephen M, Allan Gery J, Bailey Joseph K, Woolbright Scott A

机构信息

Department of Biological Sciences, Northern Arizona University, Flagstaff, AZ 86011, USA.

出版信息

Science. 2008 Apr 25;320(5875):492-5. doi: 10.1126/science.1153918.

DOI:10.1126/science.1153918

PMID:18436780

Abstract

An important step in the integration of ecology and genomics is the progression from molecular studies of relatively simple model systems to complex field systems. The recent availability of sequenced genomes from key plants is leading to a new understanding of the molecular drivers of community composition and ecosystem processes. As genome sequences accumulate for species that form intimate associations in nature, a detailed view may emerge as to how these associations cause changes among species at the nucleotide level. This advance could dramatically alter views about the structure and evolution of communities and ecosystems.

摘要

生态学与基因组学整合的一个重要步骤是从相对简单的模型系统的分子研究向复杂的野外系统推进。近期关键植物测序基因组的可得性正带来对群落组成和生态系统过程的分子驱动因素的新认识。随着在自然界形成紧密关联的物种的基因组序列不断积累，对于这些关联如何在核苷酸水平上导致物种间变化可能会出现详细的见解。这一进展可能会极大地改变关于群落和生态系统的结构与演化的观点。

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将基因组学扩展至自然群落和生态系统。

Extending genomics to natural communities and ecosystems.

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