基于SSR的陕西糜子种质资源的分子鉴定

Molecular identification of broomcorn millet germplasm resources in Shaanxi based on SSR

郭娟 ¹辛旭霞 ¹冯智尊 ¹曹越 ¹王晓丹 ¹曹晓宁 ²SANTRA Dipak K ³陈凌 ²乔治军 ²王瑞云⁴

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作者信息

1. 山西农业大学农学院,中国山西太谷 030801
2. 山西农业大学农业基因资源研究中心/农业农村部黄土高原作物基因资源与种质创制重点实验室/杂粮种质资源发掘与遗传改良山西省重点实验室,中国山西太原 030031
3. 内布拉斯加大学林肯分校农艺系小宗粮豆研究与推广中心,美国内布拉斯加州斯克茨布拉夫 69361
4. 山西农业大学农学院,中国山西太谷 030801;山西农业大学农业基因资源研究中心/农业农村部黄土高原作物基因资源与种质创制重点实验室/杂粮种质资源发掘与遗传改良山西省重点实验室,中国山西太原 030031
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摘要

为构建糜子(Panicum miliaceum L.)DNA分子身份证,试验以 181 份陕西糜子核心种质为材料,对课题组前期开发的糜子特异性 SSR 标记进行多次 PCR筛选和优化后获取核心引物.基于糜子参考基因组信息,经过 BLAST序列比对后将核心标记进行染色体定位.在SSR引物的 5′端标注荧光(FAM/HEX),根据毛细管电泳检测的片段有无采用"0/1"表示,利用ID Analysis4.0 进行区分,十进制(0～9)统计扩增片段大小构建材料字符串,用Pop Gene、Power Marker、MEGA、Structure和NTSYS进行遗传多样性分析.试验结果表明,7 个荧光SSR(RYW3、RYW6、RYW37、RYW40、RYW43、RYW125 和RYW146)组合可区分 181 份材料,不均匀的分布在 5 条染色体上,共检测出 77 个等位变异,平均为11;检出Shannon多样性指数(I)为0.8145(RYW146)～7.8254(RYW125),平均5.9076;观测杂合度(Ho)为 0.2627(RYW146)～0.9506(RYW3);期望观测杂合度(He)为 0.3329(RYW146)～0.8747(RYW125);Nei's基因多样性指数(Nei)为0.3315(RYW146)～0.8722(RYW125);多态性信息含量(PIC)为0.5923(RYW146)～0.9445(RYW125),平均为 0.8419.基于UPGMA将 181 份资源划分为 3 个群组.基于主成分分析将材料分为 10 个类群,与地理来源一致.利用在线二维码技术(https://cli.im/)构建 181 份陕西糜子核心种质的DNA分子身份证.

Abstract

To construct the DNA molecular identity card of broomcorn millet(Panicum miliaceum L.),we conducted an experi-ment using 181 core germplasm samples of Shaanxi millets.The core primers were obtained through several rounds of PCR screening and optimization of millet-specific SSR markers developed in the preliminary stage of our research group.Chromoso-mal localization of the core markers was performed by comparing their sequences with the reference genome information of broomcorn millet using BLAST.FAM/HEX labels were added the 5'end of SSR primers,and the presence or absence of frag-ments detected by capillary electrophoresis was represented as"0/1".The differentiation of fragments was carried out using ID Analysis 4.0,and the size of the amplified fragments was recorded in format(0-9)to construct unique material strings.These strings were then subjected to genetic diversity analysis using software tools such as Pop Gene,Power Marker,MEGA,Structure,and NTSYS.Our test results showed that seven combinations of fluorescent SSRs(RYW3,RYW6,RYW37,RYW40,RYW43,RYW125,and RYW146)could distinguish the 181 materials.These markers were unevenly distributed across five chromosomes,and a total of 77 allelic variants were detected,with an average of 11 variants per marker.The observed Shannon's diversity index(I)ranged from 0.8145(RYW146)to 7.8254(RYW125),with an average of 5.9076.The observed heterozygosity(Ho)ranged from 0.2627(RYW146)to 0.9506(RYW3),while the expected heterozygosity(He)ranged from 0.3329(RYW146)to 0.8747(RYW125).Nei's gene diversity index(Nei)varied from 0.3315(RYW146)to 0.8722(RYW125).The Polymorphism Information Content(PIC)ranged from 0.5923(RYW146)to 0.9445(RYW125),with an average of 0.8419.Using the UPGMA clustering method,we categorized the 181 resources into three clusters.Principal component analysis resulted in the classification of the materials into ten taxa,which were consistent with their geographic sources.To provide convenient access to the DNA molecular identity cards,we utilized online QR code technology(https://cli.im/)for the 181 Shaanxi broomcorn millet core germplasm samples.

关键词

糜子/陕西/荧光SSR/毛细管电泳/DNA分子身份证

Key words

broomcorn millet/Shaanxi province/fluorescent SSR/capillary electrophoresis/DNA molecular identity card

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基金项目

国家农作物种质资源平台项目(NCGRC-2024-026)

财政部和农业农村部国家现代农业产业技术体系建设专项(CARS-06-14.5-A16)

山西省现代农业产业技术体系建设(杂粮)项目(2024CYJSTX0312)

山西省重点研发项目(2022ZDYF110)

山西农业大学农学院研究生教育改革与质量提升工程项目(2023YCX33)

山西农业大学农学院研究生教育改革与质量提升工程项目(2023YCX48)

山西农业大学农学院研究生教育改革与质量提升工程项目(2023YCX51)

山西农业大学农学院研究生教育改革与质量提升工程项目(2023YDT05)

出版年

2024

作物学报

中国作物学会　中国农业科学院作物科学研究所

作物学报

CSTPCD北大核心

影响因子：1.803

ISSN：0496-3490

参考文献量30

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