利用转录组衍生的微卫星标记揭示栽培孤挺花（Hippeastrum hybridum）的复杂遗传结构。

Revealing the complex genetic structure of cultivated amaryllis (Hippeastrum hybridum) using transcriptome-derived microsatellite markers.

机构信息

Beijing Vegetable Research Center, Beijing Academy of Agriculture and Forestry Sciences, Key Laboratory of Biology and Genetic Improvement of Horticultural Crops, Ministry of Agriculture, Key Laboratory of Urban Agriculture, Ministry of Agriculture, Beijing Engineering Technology Research Center of Functional Floriculture, Beijing, 100097, China.

Department of Ornamental Horticulture, China Agricultural University, Beijing, 100193, China.

出版信息

Sci Rep. 2018 Jul 13;8(1):10645. doi: 10.1038/s41598-018-28809-9.

DOI:10.1038/s41598-018-28809-9

PMID:30006536

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6045658/

Abstract

Although amaryllis (Hippeastrum hybridum) plants are commonly used in physiological and ecological research, the extent of their genomic and genetic resources remains limited. The development of molecular markers is therefore of great importance to accelerate genetic improvements in Hippeastrum species. In this study, a total of 269 unique genes were defined that might regulate the flower spathe development of amaryllis. In addition, 2000 simple sequence repeats (SSRs) were detected based on 171,462 de novo assembled unigenes from transcriptome data, and 66,4091 single nucleotide polymorphisms (SNPs) were also detected as putative molecular markers. Twenty-one SSR markers were screened to evaluate the genetic diversity and population structure of 104 amaryllis accessions. A total of 98 SSR loci were amplified for all accessions. The results reveal that Nei's gene diversity (H) values of these markers ranged between 0.055 and 0.394, whereas the average values of Shannon's Information index (I) ranged between 0.172 and 0.567. Genetic tree analysis further demonstrates that all accessions can be grouped into three main clusters, which can be further divided into two subgroups. STRUCTURE-based analysis revealed that the highest ΔK values were observed when K = 5, K = 6, K = 7 and K = 8. The results of this study enable large-scale transcriptomics and classification of Hippeastrum genetic polymorphisms and will be useful in the future for resource conservation and production.

摘要

尽管孤挺花（Hippeastrum hybridum）植物通常被用于生理和生态研究，但它们的基因组和遗传资源的丰富程度仍然有限。因此，开发分子标记对于加速孤挺花物种的遗传改良非常重要。在这项研究中，总共定义了 269 个可能调节孤挺花花苞发育的特有基因。此外，基于 171462 个从头组装的 unigenes 的转录组数据，检测到了 2000 个简单序列重复（SSR），并检测到了 664091 个单核苷酸多态性（SNP）作为假定的分子标记。筛选了 21 个 SSR 标记，以评估 104 个孤挺花品系的遗传多样性和种群结构。对所有品系进行了 21 个 SSR 标记的筛选。结果表明，这些标记的 Nei 基因多样性（H）值在 0.055 到 0.394 之间，而 Shannon 信息指数（I）的平均值在 0.172 到 0.567 之间。遗传树分析进一步表明，所有品系可以分为三个主要聚类，这三个聚类可以进一步分为两个亚群。基于 STRUCTURE 的分析表明，当 K=5、K=6、K=7 和 K=8 时，观察到最高的 ΔK 值。本研究的结果实现了大规模的转录组学和孤挺花遗传多态性分类，将有助于未来的资源保护和生产。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c0bb/6045658/abe5e71de866/41598_2018_28809_Fig1_HTML.jpg

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Revealing the complex genetic structure of cultivated amaryllis (Hippeastrum hybridum) using transcriptome-derived microsatellite markers.利用转录组衍生的微卫星标记揭示栽培孤挺花（Hippeastrum hybridum）的复杂遗传结构。

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利用转录组衍生的微卫星标记揭示栽培孤挺花（Hippeastrum hybridum）的复杂遗传结构。

Revealing the complex genetic structure of cultivated amaryllis (Hippeastrum hybridum) using transcriptome-derived microsatellite markers.

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