跨越时空的重复序列进化:解开植物 Erythrostemon Klotzsch 属(豆科 Juss)的重复动态。

IF 4.5 1区 生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY Molecular Ecology Pub Date : 2024-09-09 DOI:10.1111/mec.17510
Natália Castro, Bruno Vilela, Yennifer Mata-Sucre, André Marques, Edeline Gagnon, Gwilym P Lewis, Lucas Costa, Gustavo Souza
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引用次数: 0

摘要

众所周知,基因组重复部分(repeatome)的波动会影响进化的多个方面,如生态适应和物种分化过程。因此,研究重复性元件的分化可以深入了解一种重要的进化力量。然而,目前还不清楚不同的重复性元素支系如何受到生态变化和/或系统发育等不同因素的影响。为了讨论这个问题,我们以新热带豆科植物 Erythrostemon 属(Caesalpinioideae)为模型,考虑到其古老的起源(约 33 Mya)、特定世系的生态位保守性、宏观生态异质性以及在中美洲和南美洲(分别为 MA 和 SA)世系中的分离分布。我们对 18 个红花酢浆草物种进行了重复组比较分析,以检验环境变量对重复多样性的影响。总体而言,重复序列组的组成是多样的,satDNAs和Ty3/gypsy-Tekay转座元件的丰度较高,主要分别出现在中美洲和南美洲的品系中。然而,在少数 MA(E. coccineus、E. pannosus 和 E. placidus)和 SA(E. calycinus)物种中发现了与系统发育/生物地理学无关的意外重复组特征,这与网状进化以及核拓扑和质粒拓扑不一致有关,表明存在古老的杂交。在 MA-sensu stricto 亚支系中,多态的 Tekay 和 satDNA 模式发生了改变,基因组发生了显著分化(satDNA 扩大,Tekay 缩小),这与 20 万年前左右中美洲新环境的殖民化有关。我们的数据显示,目前的物种特异性 Tekay 基因库是可能在中新世发生的两次扩增的结果,MA 和 SA 重复体的模式截然不同。这表明 Tekay 元素在 Erythrostemon 基因组与环境的相互作用中发挥了强有力的调节作用,为重复组分化和植物跨时空多样化的机制提供了宏观的进化见解。
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Repeatome evolution across space and time: Unravelling repeats dynamics in the plant genus Erythrostemon Klotzsch (Leguminosae Juss).

Fluctuations in genomic repetitive fractions (repeatome) are known to impact several facets of evolution, such as ecological adaptation and speciation processes. Therefore, investigating the divergence of repetitive elements can provide insights into an important evolutionary force. However, it is not clear how the different repetitive element clades are impacted by the different factors such as ecological changes and/or phylogeny. To discuss this, we used the Neotropical legume genus Erythrostemon (Caesalpinioideae) as a model, given its ancient origin (~33 Mya), lineage-specific niche conservatism, macroecological heterogeneity, and disjunct distribution in Meso- and South American (MA and SA respectively) lineages. We performed a comparative repeatomic analysis of 18 Erythrostemon species to test the impact of environmental variables over repeats diversification. Overall, repeatome composition was diverse, with high abundances of satDNAs and Ty3/gypsy-Tekay transposable elements, predominantly in the MA and SA lineages respectively. However, unexpected repeatome profiles unrelated to the phylogeny/biogeography were found in a few MA (E. coccineus, E. pannosus and E. placidus) and SA (E. calycinus) species, related to reticulate evolution and incongruence between nuclear and plastid topology, suggesting ancient hybridizations. The plesiomorphic Tekay and satDNA pattern was altered in the MA-sensu stricto subclade with a striking genomic differentiation (expansion of satDNA and retraction of Tekay) associated with the colonization of a new environment in Central America around 20 Mya. Our data reveal that the current species-specific Tekay pool was the result of two bursts of amplification probably in the Miocene, with distinct patterns for the MA and SA repeatomes. This suggests a strong role of the Tekay elements as modulators of the genome-environment interaction in Erythrostemon, providing macroevolutionary insights about mechanisms of repeatome differentiation and plant diversification across space and time.

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来源期刊
Molecular Ecology
Molecular Ecology 生物-进化生物学
CiteScore
8.40
自引率
10.20%
发文量
472
审稿时长
1 months
期刊介绍: Molecular Ecology publishes papers that utilize molecular genetic techniques to address consequential questions in ecology, evolution, behaviour and conservation. Studies may employ neutral markers for inference about ecological and evolutionary processes or examine ecologically important genes and their products directly. We discourage papers that are primarily descriptive and are relevant only to the taxon being studied. Papers reporting on molecular marker development, molecular diagnostics, barcoding, or DNA taxonomy, or technical methods should be re-directed to our sister journal, Molecular Ecology Resources. Likewise, papers with a strongly applied focus should be submitted to Evolutionary Applications. Research areas of interest to Molecular Ecology include: * population structure and phylogeography * reproductive strategies * relatedness and kin selection * sex allocation * population genetic theory * analytical methods development * conservation genetics * speciation genetics * microbial biodiversity * evolutionary dynamics of QTLs * ecological interactions * molecular adaptation and environmental genomics * impact of genetically modified organisms
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Population Genetics and Invasion History of the European Starling Across Aotearoa New Zealand. An Early-Life Disruption of Gut Microbiota Has Opposing Effects on Parasite Resistance in Two Host Species. Genetic Monitoring of a Lethal Control Programme for Wild Canids With Complex Mating Strategies. Elevational Range Impacts Connectivity and Predicted Deme Sizes From Models of Habitat Suitability. Michael C. Whitlock-Recipient of the 2024 Molecular Ecology Prize.
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