萱草的泛质体基因组揭示了一个具有重要经济价值的食用植物的遗传多样性和栽培历史的新见解。

The pan-plastome of Hemerocallis citrina reveals new insights into the genetic diversity and cultivation history of an economically important food plant.

机构信息

College of Horticulture, Shanxi Agricultural University, Taiyuan, 030031, China.

Shenzhen Branch, Guangdong Laboratory of Lingnan Modern Agriculture, Key Laboratory of Synthetic Biology, Laboratory of the Ministry of Agriculture and Rural Affairs, Agricultural Genomics Institute at Shenzhen, Chinese Academy of Agricultural Sciences, Shenzhen, 518120, China.

出版信息

BMC Plant Biol. 2024 Jan 11;24(1):44. doi: 10.1186/s12870-023-04668-z.

DOI:10.1186/s12870-023-04668-z

PMID:38200455

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10782787/

Abstract

BACKGROUND

Hemerocallis citrina Baroni (Huang hua cai in Chinese) is a perennial herbaceous plant grown for its flower buds that are eaten fresh or dried and is known as the vegetarian three treasures. The nuclear genome of H. citrina has been reported, but the intraspecific variation of the plastome (plastid genome) has not yet been studied. Therefore, the panplastome of this species collected from diverse locations is reported here for the first time.

RESULTS

In this study, 65 H. citrina samples were resequenced, de novo assembled, and aligned with the published plastome of H. citrina to resolve the H. citrina panplastome. The sizes of the 65 newly assembled complete plastomes of H. citrina ranged from 156,048 bp to 156,263 bp, and the total GC content ranged from 37.31 to 37.34%. The structure of the complete plastomes showed a typical tetrameric structure, including a large single copy (LSC), a small single copy (SSC), and a pair of inverted repeat regions (IRA and IRB). Many nucleotide variants were identified between plastomes, among which the variants in the intergenic spacer region were the most abundant, with the highest number of variants concentrated in the LSC region. Based on the phylogenetic tree constructed using the ML method, population structure analysis, and principal component analysis (PCA), the panplastome data were subdivided into five genetic clusters. The C5 genetic cluster was mostly represented by samples from Qidong, Hunan Province, while samples from Shanxi and Shaanxi Provinces were classified into the C4 genetic cluster. The greatest genetic diversity was found in the C1 genetic cluster, and the greatest genetic distance between any two clusters was found between the C4 and C5 clusters.

CONCLUSION

The resolution of the panplastome and the analysis of the population structure of H. citrina plastomes provide important data for future breeding projects and germplasm preservation.

摘要

背景

黄花菜（Huang hua cai 中文）是一种多年生草本植物，因其花蕾可食用而被广泛种植，被誉为素食三珍之一。已报道了黄花菜的核基因组，但尚未研究其质体基因组（质体基因组）的种内变异。因此，本研究首次报道了从不同地点采集的该物种的泛质体。

结果

本研究对 65 个黄花菜样本进行了重测序、从头组装，并与已发表的黄花菜质体基因组进行比对，以解决黄花菜泛质体问题。新组装的 65 个完整黄花菜质体大小范围为 156,048 bp 至 156,263 bp，总 GC 含量范围为 37.31% 至 37.34%。完整质体的结构显示出典型的四联体结构，包括一个大的单拷贝（LSC）、一个小的单拷贝（SSC）和一对反向重复区（IRA 和 IRB）。在质体之间鉴定出许多核苷酸变异，其中基因间间隔区的变异最为丰富，最高数量的变异集中在 LSC 区。基于 ML 法构建的系统发育树、种群结构分析和主成分分析（PCA），将泛质体数据分为五个遗传群。C5 遗传群主要由湖南祁东的样本组成，而山西和陕西的样本则分为 C4 遗传群。C1 遗传群的遗传多样性最大，任何两个群之间的遗传距离最大。

结论

黄花菜泛质体的分辨率和质体基因组的种群结构分析为未来的育种项目和种质保存提供了重要数据。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4cb2/10782787/9fb684eb7d9e/12870_2023_4668_Fig1_HTML.jpg

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萱草的泛质体基因组揭示了一个具有重要经济价值的食用植物的遗传多样性和栽培历史的新见解。

The pan-plastome of Hemerocallis citrina reveals new insights into the genetic diversity and cultivation history of an economically important food plant.

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSION

背景

结果

结论

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