Widespread gene flow from Betula tianshanica and Betula pendula to Betula microphylla: a rare species from Northwest China

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS

ACS Applied Bio Materials Pub Date : 2024-06-07 DOI:10.1093/botlinnean/boae034

Junyi Ding, Donglai Hua, Yuangui Wei, Linmei Yao, Nian Wang

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Abstract

Understanding the genomic composition of endangered species across its populations is important for conservation and management. Betula microphylla, an endangered species in Northwest China, grows in close proximity to B. tianshanica and B. pendula. However, whether populations of B. microphylla are genetically distinct or introgressed from B. tianshanica and B. pendula remains less clear. Here, we included restriction-site associated DNA (RAD) data for 135 individuals of B. microphylla, B. tianshanica, and B. pendula with RAD data of 87 individuals generated in this study. PCA results identify three genetic clusters, corresponding to B. pendula, B. tianshanica, and B. microphylla. ADMIXTURE analyses show two admixed populations of B. microphylla from B. tianshanica and one admixed population from B. pendula. ABBA-BABA test indicates that the genetic admixture in B. microphylla reflects significant signals of introgression from B. tianshanica and B. pendula. Furthermore, we identified 378 functional genes within the introgressed regions with eight genes related to environmental stress. Conservation strategies to protect genetically distinct populations of B. microphylla from genetic swamping by B. pendula need to be implemented. In addition, ex situ conservation of B. microphylla and conservation efforts towards B. tianshanica should be taken into consideration as the two may represent sister taxa or different subspecies.

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从天山桦和垂叶桦到微叶桦的广泛基因流动：中国西北的一个稀有物种

了解濒危物种不同种群的基因组组成对于保护和管理非常重要。微叶桦树是中国西北地区的一个濒危物种，与天山桦和垂叶桦树生长在很近的地方。然而，微叶桦树的种群在遗传上是否与天山桦树和垂叶桦树截然不同，或者是从天山桦树和垂叶桦树引种而来，目前还不太清楚。在本研究中，我们纳入了 135 个小叶悬铃木、天山悬铃木和垂叶悬铃木个体的限制性位点相关 DNA（RAD）数据，以及 87 个个体的 RAD 数据。PCA 结果确定了三个基因群，分别对应于 B.pendula、B. tianshanica 和 B.microphylla。ADMIXTURE 分析表明，微花蝙蝠蛾有两个来自 B. tianshanica 的混交种群，一个来自 B. pendula 的混交种群。ABBA-BABA检验表明，B. microphylla 的遗传混杂反映了来自 B. tianshanica 和 B. pendula 的显著引种信号。此外，我们在引种区域内发现了 378 个功能基因，其中 8 个基因与环境压力有关。我们需要实施保护策略，以保护基因独特的小叶女贞（B. microphylla）种群免受垂叶女贞（B. pendula）基因的侵袭。此外，应考虑对小叶女贞（B. microphylla）的异地保护和对天山童姥（B. tianshanica）的保护工作，因为两者可能是姊妹类群或不同的亚种。

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

ACS Applied Bio Materials Chemistry-Chemistry (all)

CiteScore

9.40

自引率

2.10%

发文量

464