Evolutionary patterns of DNA base composition at polymorphic sites highlight the role of the environment in shaping barley and rice genomes

Xiangjian Gou, Yang Shao, Xiao Wang, Haoran Shi, Jianming Yu, Xianran Li, Tingting Guo
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Abstract

Insights into changes in genome base composition underlying crop domestication can be gained by using comparative genomics. With this approach, previous studies have reported that crop genomes during domestication accumulate more nucleotides adenine (A) and thymine (T) (termed as [AT]‐increase) across polymorphic sites. However, the potential influence of the environment or its factors, for example, solar ultraviolet (UV) radiation and temperature, on the [AT]‐increase has not been well elucidated. Here, we investigated the [AT]‐increase in barley (Hordeum vulgare L.) and rice (Oryza sativa L.) and the association with natural environments, where accessions are distributed. With 12,798,376 and 2,861,535 single‐nucleotide polymorphisms from 368 barley and 1375 rice accessions, respectively, we discovered that [AT] increases from wild accessions to improved cultivars, and genomic regions with larger [AT]‐increase tend to have higher UV‐related motif frequencies, suggesting solar UV radiation as a potential factor in driving genome variation. To link [AT] change with the geographic distribution, we gathered georeferenced accessions and examined their local environments. Interestingly, negative correlations between [AT] and environmental factors were observed (r = −0.39 ∼ −0.75) and modern accessions with higher [AT] values, as compared with wild relatives, are from the environments with lower solar UV radiation or lower temperature. With [AT] and environmental factors as phenotypes, genome‐wide association mapping identified three candidate genes that have the potential to contribute to [AT] variation under the effect of environmental conditions. Our findings provide genomic and environmental insights into evolutionary pattern of DNA base composition and underlying mechanisms.
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多态位点 DNA 碱基组成的进化模式凸显了环境在塑造大麦和水稻基因组中的作用
利用比较基因组学可以深入了解作物驯化过程中基因组碱基组成的变化。利用这种方法,以往的研究报告指出,在驯化过程中,作物基因组在多态位点上积累了更多的腺嘌呤(A)和胸腺嘧啶(T)核苷酸(称为[AT]-increase)。然而,环境或环境因素(如太阳紫外线(UV)辐射和温度)对[AT]-增加的潜在影响尚未得到很好的阐明。在此,我们研究了大麦(Hordeum vulgare L.)和水稻(Oryza sativa L.)中[AT]-增加的情况以及与自然环境的关系,这些环境中分布着不同的品种。我们利用分别来自 368 个大麦和 1375 个水稻品种的 12,798,376 和 2,861,535 个单核苷酸多态性,发现从野生品种到改良栽培品种,[AT]都在增加,而且[AT]增加较多的基因组区域往往具有较高的紫外线相关图案频率,这表明太阳紫外线辐射是驱动基因组变异的潜在因素。为了将[AT]变化与地理分布联系起来,我们收集了有地理参照的入选品种,并考察了它们的当地环境。有趣的是,我们观察到[AT]与环境因素之间存在负相关(r = -0.39 ∼ -0.75),与野生近缘种相比,[AT]值较高的现代入选种来自太阳紫外线辐射较低或温度较低的环境。以[AT]和环境因素为表型,全基因组关联图谱发现了三个候选基因,它们有可能在环境条件的影响下导致[AT]变异。我们的研究结果为 DNA 碱基组成的进化模式及其内在机制提供了基因组和环境方面的见解。
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