Genetic Diversity and Population Structure Analysis of Wild Cymbidium tortisepalum Based on Chloroplast DNA in Yunnan Province of China

遗传多样性 生物 分子方差分析 遗传变异 人口 索引 遗传结构 叶绿体DNA 基因间区 植物 进化生物学 遗传学 叶绿体 基因型 基因 基因组 人口学 单核苷酸多态性 社会学
作者
Xiangli Ma,Min Tang,Yufen Bi,Junbo Yang
出处
期刊:Journal of the American Society for Horticultural Science 卷期号:146 (6): 424-434 被引量:4
标识
DOI:10.21273/jashs05046-21
摘要

Cymbidium tortisepalum is a primary orchid species in Yunnan Province, China, and has an extremely high ornamental and economic value. To reveal the levels and distribution of genetic variation and structure of wild C. tortisepalum resources, sequence variations of six chloroplast DNA intergenic spacers (psbM-trnD, trnV-trnA, accD-psal, rrn23, trnk-rps16, and ycf1) were analyzed in 404 wild individuals from 28 populations in the three river area in Yunnan Province, China. The results showed that the six chloroplast DNA sequences were aligned with 61 polymorphic sites, including 50 indels and 11 haplotypes in 404 individuals, which revealed a low level of genetic diversity (total genetic diversity = 0.240, and the average value of nucleotide diversity = 0.00024). In addition, a fairly low genetic differentiation [coefficients for genetic differentiation among populations ( G ST ) = 0.099, number of substitution ( N ST ) = 0.081] was found among the studied populations, and N ST value was less than G ST , which indicated that no significant phylogeographic structure existed in those populations. Furthermore, analysis of molecular variance revealed that great genetic variance (91%) came from individuals within the populations, which indicated that there was no clear genetic differentiation among populations. On the basis of these findings, a conservation plan was proposed to sample or preserve fewer populations but with more individuals from each population.
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