评估镇南菲比种群的遗传结构和多样性及其驱动因素。

IF 4.3 2区 生物学 Q1 PLANT SCIENCES BMC Plant Biology Pub Date : 2024-11-18 DOI:10.1186/s12870-024-05810-1
Jian Peng, Jiaxin Xie, Yunjie Gu, Hongying Guo, Shuaiying Zhang, Xin Huang, Xiandan Luo, Jianghong Qian, Minhao Liu, Xueqin Wan, Lianghua Chen, Xiong Huang, Fan Zhang, Fang He, Peng Zhu, Yu Zhong, Hanbo Yang
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A relative high level of genetic diversity was observed in the P. zhennan population evidenced by high Shannon's information index (I) of 0.671 and 2.294 based on cpSSR and nSSR datasets. The low value of fixation index (F) observed from the nSSR dataset indicated low breeding within the population. The genetic differentiation was mainly detected within populations (only 28% and 13% of the variance being between populations according to the nSSR and cpSSR datasets). Among them, the HNSZX (H = 0.469) and SCSZZ (I = 1.943) populations exhibited the highest level of genetic diversity, while the HNXXT (H = 0.041) and SCLJS (I = 0.943) populations exhibited the lowest level of genetic diversity. The average genetic differentiation coefficient (Fst) and gene flow (Nm) were 0.022-0.128 and 1.698-11.373, respectively, which indicated a moderate level of genetic differentiation and a high level of gene flow. 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引用次数: 0

摘要

背景:楠木俗称 "金丝楠木",是我国珍贵的保护树种之一。准确了解楠木种群遗传结构及其环境因子对楠木新品种的保护和选育具有重要意义:结果:利用 16 个 nSSR 标记和 6 个 cpSSR 标记测定了浙楠的遗传多样性和种群结构,以及环境因素对遗传结构的影响。nSSR 标记共鉴定出 451 个等位基因(Na),而 cpSSR 标记则检测到 20 个等位基因(Na)。基于 cpSSR 和 nSSR 数据集的香农信息指数(I)分别为 0.671 和 2.294,表明浙南猪种群的遗传多样性水平相对较高。从 nSSR 数据集观察到的固定指数(F)值较低,表明种群内的繁殖率较低。遗传分化主要发生在种群内部(根据 nSSR 和 cpSSR 数据集,种群间的变异分别只占 28% 和 13%)。其中,HNSZX(H = 0.469)和 SCSZZ(I = 1.943)种群的遗传多样性水平最高,而 HNXXT(H = 0.041)和 SCLJS(I = 0.943)种群的遗传多样性水平最低。平均遗传分化系数(Fst)和基因流(Nm)分别为 0.022-0.128 和 1.698-11.373,表明遗传分化水平中等,基因流水平较高。STRUCTURE、邻接聚类和主坐标分析根据 nSSR 或 cpSSR 数据集将 543 个个体分为两类或三类。结果表明,4 个温度变量、3 个降水变量、5 个化学变量、5 个物理变量和 1 个土壤质地变量对镇南球藻种群的遗传结构和分布有显著影响。与 nSSR 相比,基于 cpSSR 数据集的种群间遗传分化符合地理隔离模型,表明在进一步的遗传保护和育种利用中应考虑地理和遗传距离。应强调原位保护单位的重要性,如具有高度遗传多样性、更多私有等位基因和单倍型的种群(如 SCGTS、SCYFS 和 YNYJX 种群)。此外,育种以及人工辅助的种群再生和恢复也应仔细规划,同时考虑到气候和土壤特性:总之,本研究为浙楠的遗传保护、管理和利用提供了遗传背景信息。
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Assessing population genetic structure and diversity and their driving factors in Phoebe zhennan populations.

Background: Phoebe zhennan, commonly known as "golden-thread nanmu," is one of the most valuable and protected tree species in China. An accurate understanding of the population genetic structure and its environmental factors is of significance for the protection and selection of new P. zhennan varieties.

Results: Sixteen nSSR and six cpSSR markers were used to determine the genetic diversity and population structure of P. zhennan and the effect of environmental factors on the genetic structure. The nSSR markers identified a total of 451 number of alleles (Na), while cpSSR markers detected 20 Na. A relative high level of genetic diversity was observed in the P. zhennan population evidenced by high Shannon's information index (I) of 0.671 and 2.294 based on cpSSR and nSSR datasets. The low value of fixation index (F) observed from the nSSR dataset indicated low breeding within the population. The genetic differentiation was mainly detected within populations (only 28% and 13% of the variance being between populations according to the nSSR and cpSSR datasets). Among them, the HNSZX (H = 0.469) and SCSZZ (I = 1.943) populations exhibited the highest level of genetic diversity, while the HNXXT (H = 0.041) and SCLJS (I = 0.943) populations exhibited the lowest level of genetic diversity. The average genetic differentiation coefficient (Fst) and gene flow (Nm) were 0.022-0.128 and 1.698-11.373, respectively, which indicated a moderate level of genetic differentiation and a high level of gene flow. STRUCTURE, neighbor-joining clustering, and principal coordinate analysis divided 543 individuals into two or three categories based on the nSSR or cpSSR datasets. Four temperature, three precipitation, five chemical, five physical, and one soil texture variable showed significant effects on the genetic structure and distribution of P. zhennan populations. Compared to nSSR, the genetic differentiation among populations based on cpSSR datasets conformed to the geographic isolation model, suggesting that geographic and genetic distances should be considered for further genetic conservation and breeding utilization. The importance of in situ conservation units, such as populations with a high level of genetic diversity, more private alleles, and haplotypes (e.g., population SCGTS, SCYFS, and YNYJX), should be emphasized. Additionally, breeding, along with artificially assisted population regeneration and restoration, should also be carefully planned, taking into account climate and soil properties at the same time.

Conclusions: In conclusion, this study provided genetic background information for the genetic conservation, management, and utilization of P. zhennan.

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来源期刊
BMC Plant Biology
BMC Plant Biology 生物-植物科学
CiteScore
8.40
自引率
3.80%
发文量
539
审稿时长
3.8 months
期刊介绍: BMC Plant Biology is an open access, peer-reviewed journal that considers articles on all aspects of plant biology, including molecular, cellular, tissue, organ and whole organism research.
期刊最新文献
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