Miao-Miao Li, Muditha K Meegahakumbura, Moses C Wambulwa, Kevin S Burgess, Michael Möller, Zong-Fang Shen, De-Zhu Li, Lian-Ming Gao
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Results showed that Chinese Assam tea has a relatively high, but comparatively lower gene diversity (<i>H</i><sub>S</sub> = 0.638) than the wild relative <i>C</i>. <i>crassicolumna</i> (<i>H</i><sub>S</sub> = 0.658). Clustering in STRUCTURE indicated that Chinese Assam tea and its two wild relatives formed distinct genetic groups, with considerable interspecific introgression. The Chinese Assam tea accessions clustered into three gene pools, corresponding well with their geographic distribution. However, NewHybrids analysis indicated that 68.48% of ancient Chinese Assam tea plants from Xishuangbanna were genetic intermediates between the Puer and Lincang gene pools. In addition, 10% of the ancient Chinese Assam tea individuals were found to be hybrids between Chinese Assam tea and <i>C. taliensis</i>. Our results suggest that Chinese Assam tea was domesticated separately in three gene pools (Puer, Lincang and Xishuangbanna) in the Mekong River valley and that the hybrids were subsequently selected during the domestication process. Although the domestication history of Chinese Assam tea in southwestern Yunnan remains complex, our results will help to identify valuable genetic resources that may be useful in future tea breeding programs.</p>","PeriodicalId":20224,"journal":{"name":"Plant Diversity","volume":null,"pages":null},"PeriodicalIF":4.6000,"publicationDate":"2023-06-08","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC11128837/pdf/","citationCount":"0","resultStr":"{\"title\":\"Genetic analyses of ancient tea trees provide insights into the breeding history and dissemination of Chinese Assam tea (<i>Camellia sinensis</i> var. <i>assamica</i>).\",\"authors\":\"Miao-Miao Li, Muditha K Meegahakumbura, Moses C Wambulwa, Kevin S Burgess, Michael Möller, Zong-Fang Shen, De-Zhu Li, Lian-Ming Gao\",\"doi\":\"10.1016/j.pld.2023.06.002\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p>Chinese Assam tea (<i>Camellia sinensis</i> var. <i>assamica</i>) is an important tea crop with a long history of cultivation in Yunnan, China. 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引用次数: 0
摘要
中国阿萨姆茶(Camellia sinensis var. assamica)是一种重要的茶叶作物,在中国云南有着悠久的种植历史。尽管它具有遗传资源的潜在价值,但其遗传多样性和驯化/育种历史仍不清楚。为了解决这个问题,我们利用 16 个核微卫星位点对 469 株古树茶树进行了基因分型,这些古树茶树代表了 26 个中国阿萨姆茶(C. sinensis var. assamica)种群,以及两个野生近缘种(C. taliensis 和 C. crassicolumna,分别有 6 个和 3 个种群)。结果表明,与野生近缘种 C. crassicolumna(HS = 0.658)相比,中国阿萨姆茶的基因多样性相对较高,但相对较低(HS = 0.638)。STRUCTURE 中的聚类表明,中国阿萨姆茶和其两个野生近缘种形成了不同的遗传群体,种间存在相当程度的引种。中国阿萨姆普洱茶品种聚类为三个基因库,与其地理分布十分吻合。然而,新杂交种分析表明,68.48%的西双版纳中国古代阿萨姆茶树是普洱茶基因库和临沧茶基因库之间的基因中间体。此外,10%的中国阿萨姆古树茶个体被发现是中国阿萨姆茶与C. taliensis的杂交种。我们的研究结果表明,中国阿萨姆茶是在湄公河流域的三个基因库(普洱、临沧和西双版纳)中被分别驯化的,杂交种随后在驯化过程中被选育出来。尽管中国阿萨姆茶在云南西南部的驯化历史依然复杂,但我们的研究结果将有助于发现有价值的遗传资源,这些资源可能对未来的茶叶育种计划有用。
Genetic analyses of ancient tea trees provide insights into the breeding history and dissemination of Chinese Assam tea (Camellia sinensis var. assamica).
Chinese Assam tea (Camellia sinensis var. assamica) is an important tea crop with a long history of cultivation in Yunnan, China. Despite its potential value as a genetic resource, its genetic diversity and domestication/breeding history remain unclear. To address this issue, we genotyped 469 ancient tea plant trees representing 26 C. sinensis var. assamica populations, plus two of its wild relatives (six and three populations of C. taliensis and C. crassicolumna, respectively) using 16 nuclear microsatellite loci. Results showed that Chinese Assam tea has a relatively high, but comparatively lower gene diversity (HS = 0.638) than the wild relative C. crassicolumna (HS = 0.658). Clustering in STRUCTURE indicated that Chinese Assam tea and its two wild relatives formed distinct genetic groups, with considerable interspecific introgression. The Chinese Assam tea accessions clustered into three gene pools, corresponding well with their geographic distribution. However, NewHybrids analysis indicated that 68.48% of ancient Chinese Assam tea plants from Xishuangbanna were genetic intermediates between the Puer and Lincang gene pools. In addition, 10% of the ancient Chinese Assam tea individuals were found to be hybrids between Chinese Assam tea and C. taliensis. Our results suggest that Chinese Assam tea was domesticated separately in three gene pools (Puer, Lincang and Xishuangbanna) in the Mekong River valley and that the hybrids were subsequently selected during the domestication process. Although the domestication history of Chinese Assam tea in southwestern Yunnan remains complex, our results will help to identify valuable genetic resources that may be useful in future tea breeding programs.
Plant DiversityAgricultural and Biological Sciences-Ecology, Evolution, Behavior and Systematics
CiteScore
8.30
自引率
6.20%
发文量
1863
审稿时长
35 days
期刊介绍:
Plant Diversity (formerly Plant Diversity and Resources) is an international plant science journal that publishes substantial original research and review papers that
advance our understanding of the past and current distribution of plants,
contribute to the development of more phylogenetically accurate taxonomic classifications,
present new findings on or insights into evolutionary processes and mechanisms that are of interest to the community of plant systematic and evolutionary biologists.
While the focus of the journal is on biodiversity, ecology and evolution of East Asian flora, it is not limited to these topics. Applied evolutionary issues, such as climate change and conservation biology, are welcome, especially if they address conceptual problems. Theoretical papers are equally welcome. Preference is given to concise, clearly written papers focusing on precisely framed questions or hypotheses. Papers that are purely descriptive have a low chance of acceptance.
Fields covered by the journal include:
plant systematics and taxonomy-
evolutionary developmental biology-
reproductive biology-
phylo- and biogeography-
evolutionary ecology-
population biology-
conservation biology-
palaeobotany-
molecular evolution-
comparative and evolutionary genomics-
physiology-
biochemistry
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