基于荧光SSR的宁夏糜子DNA分子身份证的构建

doi:10.3724/SP.J.1006.2024.44036

作物学报 ›› 2024, Vol. 50 ›› Issue (11): 2699-2711.doi: 10.3724/SP.J.1006.2024.44036

• 作物遗传育种·种质资源·分子遗传学 • 上一篇下一篇

基于荧光SSR的宁夏糜子DNA分子身份证的构建

曹越¹^,²(), 张立媛³(), 辛旭霞¹, 冯智尊¹, 郭娟¹, 王晓丹¹, 曹晓宁², SANTRA Dipak K⁴, 陈凌², 乔治军²^,^*(), 王瑞云¹^,²^,^*()

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赤峰市农牧科学研究所, 中国内蒙古赤峰 024031
⁴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

收稿日期:2024-02-29 接受日期:2024-06-19 出版日期:2024-11-12 网络出版日期:2024-07-08
通讯作者: ^*王瑞云, E-mail: wry925@126.com; 乔治军, E-mail: nkypzs@126.com
作者简介:曹越, E-mail: 2394031062@qq.com
张立媛, E-mail: Zhangliyuan-168@163.com第一联系人：^**同等贡献
基金资助:
财政部和农业农村部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专项资金项目(2024CYJSTX03-12);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(2023YCX49);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)

Construction of DNA molecular identity card of proso millet in Ningxia based on fluorescent SSR

CAO Yue¹^,²(), Zhang Li-Yuan³(), XIN Xu-Xia¹, FENG Zhi-Zun¹, GUO Juan¹, WANG Xiao-Dan¹, CAO Xiao-Ning², SANTRA Dipak K⁴, CHEN Ling², QIAO Zhi-Jun²^,^*(), WANG Rui-Yun¹^,²^,^*()

¹Agronomy College, Shanxi Agricultural University, Taigu 030801, Shanxi, China
²Center for Agricultural Genetic Resources Research, Shanxi Agricultural University / Key Laboratory of Crop Gene Resources and Germplasm Enhancement on Loess Plateau, Ministry of Agriculture and Rural Affairs/Shanxi Key Laboratory of Genetic Resources and Genetic Improvement of Minor Crops, Taiyuan 030031, Shanxi, China
³Chifeng Institute of Agriculture and Animal Husbandry Science, Chifeng 024031, Inner Mongolia, China
⁴Panhandle Research & Extension Center, Department of Agronomy and Horticulture, University of Nebraska-Lincoln, Scottsbluff 69361, Nebraska, USA

Received:2024-02-29 Accepted:2024-06-19 Published:2024-11-12 Published online:2024-07-08
Contact: ^*E-mail: wry925@126.com; E-mail: nkypzs@126.com
About author:First author contact:^**Contributed equally to this work
Supported by:
National Crop Germplasm Resources Platform Project(NCGRC-2024-026);China Agriculture Research System of MOF and MARA(CARS-06-14.5-A16);Special Fund for Construction of Modern Agricultural Industrial Technology System of Shanxi Province(2024CYJSTX03-12);Key Research & Development Project of Shanxi Province(2022ZDYF110);Graduate Education Reform and Quality Improvement Project of College of Agronomy, Shanxi Agricultural University(2023YCX33);Graduate Education Reform and Quality Improvement Project of College of Agronomy, Shanxi Agricultural University(2023YCX48);Graduate Education Reform and Quality Improvement Project of College of Agronomy, Shanxi Agricultural University(2023YCX49);Graduate Education Reform and Quality Improvement Project of College of Agronomy, Shanxi Agricultural University(2023YDT05)

摘要/Abstract

摘要：

糜子(Panicum miliaceum L.)种质资源丰富, 在干旱环境中具生产优势, 基于荧光SSR标记构建其DNA分子身份证可为资源的数字化管理提供理论依据和分子检测工具。本文以274份宁夏糜子核心种质为试验材料, 对山西农业大学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), 利用毛细管电泳给出材料的基因型, 采用“0, 1”二进制编码方式记录扩增条带的有无, 使用IDAnalysis 4.0检测材料的区分程度。采用十进制(0~9)统计扩增片段大小以获得材料的字符串分子身份证。使用Popgene、Powermarker、MEGA、NTSYS进行遗传多样性、遗传聚类和主成分分析。利用二维码在线软件(https://cli.im/)给出材料的二维码DNA分子身份证。PCR扩增结果发现, 10个荧光SSR (RYW6、RYW125、RYW43、RYW3、RYW40、RYW37、RYW42、RYW8、RYW28和RYW124)组合在一起可以将274份材料全部区分开。BLAST结果表明, RYW124分布在12号染色体上, 位于7.8 cM处; RYW40分布在4号染色体上, 位于42.64 cM处; RYW42分布在13号染色体上, 位于34.63 cM处, RYW28分布在16号染色体上, 位于2.34 cM处, RYW8分布在3号染色体上, 位于9.90 cM处。274份材料在10个位点共检出125个等位变异, 平均每个位点为12.5个, 变幅为5.0000 (RYW3)~25.0000 (RYW6); 检出的Shannon多样性指数(I)为1.2458 (RYW3)~2.6568 (RYW6), 平均为1.8532; 观测杂合度(Ho)为0.5185 (RYW40)~0.9964 (RYW124), 平均为0.8674; 期望观测杂合度(He)为0.5724 (RYW40)~0.9108 (RYW42), 平均为0.7784; Nei’s基因多样性指数(Nei)为0.5711 (RYW40)~0.9091 (RYW42), 平均为0.7767; 多态性信息含量(PIC)为0.6563 (RYW3)~0.9602 (RYW42), 平均为0.8399。聚类分析和主成分分析均将材料划归4个类群。将电泳条带进行数字编码, 利用10个标记组合, 构建了全部材料的字符串和二维码DNA分子身份证。

关键词: 糜子, 宁夏, 毛细管电泳, 荧光SSR, DNA分子身份证, 染色体定位

Abstract:

Objective proso millet (Panicum miliaceum L.) possesses a rich in germplasm and demonstrates advantages in arid environments..Developing a DNA identification system for proso millet using fluorescent SSR markers can establish a theoretical foundation and provide a molecular detection tool for digital resource management. In this study, 274 core germplasm samples of Ningxia proso millet were selected as an experimental materials, Proso millet specific SSR markers developed by Shanxi Agricultural University were subjected to multiple rounds of PCR screening and optimization.The core markers were then mapped using BLAST sequence comparison based on the reference genome information of proso millet. The SSR primers were labeled with FAM/HEX at the 5' end, and the genotypes of the materials were obtained through capillary electrophoresis..The presence of amplified bands was recorded using “0,1” binary coding, while the differentiation degree of the materials was assessed using IDAnalysis4.0. The size of the amplified fragments was represented in decimal form (0-9) to generate a unique molecular ID for each material. Genetic diversity, genetic clustering and principal component analysis. were conducted using software such as Popgene, Powermarker, MEGA, and NTSYS. The molecular IDs of the materials were obtained by generating QR codes using an online QR code software (https://cli.im/). PCR amplification results showed that a combination of 10 fluorescent SSR markers (RYW6, RYW125, RYW43, RYW3, RYW40, RYW37, RYW42, RYW8, RYW28, and RYW124) could distinguish all 274 materials. BLAST analysis indicated that RYW124 was located at 7.8 cM on chromosome 12, RYW40 was located at 42.64 cM on chromosome 4, RYW42 was positioned at 34.63 cM on chromosome 13, RYW28 was at 2.34 cM on chromosome 16, and RYW8 was found at 9.90 cM on chromosome 3. Across the 10 loci, a total of 125 alleles were detected at 10 loci in the 274 samples, with an average of 12.5 alleles per locus and a range of variation from 5.0000 (RYW3) to 25.0000 (RYW6). The Shannon diversity index (I) ranged from 1.2458 (RYW3) to 2.6568 (RYW6), with an average value of 1.8532. The observed heterozygosity (Ho) ranged from 0.5185 (RYW40) to 0.9964 (RYW124), averaging at 0.8674. The expected heterozygosity (He) varied from 0.5724 (RYW40) to 0.9108 (RYW42), with an average of 0.7784. Nei’s gene diversity index (Nei) ranged from 0.5711 (RYW40) to 0.9091 (RYW42), averaging at 0.7767. The polymorphism information content (PIC) ranged from 0.6563 (RYW3) to 0.9602 (RYW42), with an average of 0.8399. Cluster analysis and principal component analysis classified the materials into four groups. The electrophoretic strip was digitally encoded, and the combination of the 10 markers was used to construct both the string and two-dimensional code DNA molecular IDs for all materials.

Key words: Panicum miliaceum, Ningxia, capillary electrophoresis, fluorescent SSR, DNA molecular ID card, chromosome localization

曹越, 张立媛, 辛旭霞, 冯智尊, 郭娟, 王晓丹, 曹晓宁, SANTRA Dipak K, 陈凌, 乔治军, 王瑞云. 基于荧光SSR的宁夏糜子DNA分子身份证的构建[J]. 作物学报, 2024, 50(11): 2699-2711.

CAO Yue, Zhang Li-Yuan, XIN Xu-Xia, FENG Zhi-Zun, GUO Juan, WANG Xiao-Dan, CAO Xiao-Ning, SANTRA Dipak K, CHEN Ling, QIAO Zhi-Jun, WANG Rui-Yun. Construction of DNA molecular identity card of proso millet in Ningxia based on fluorescent SSR[J]. Acta Agronomica Sinica, 2024, 50(11): 2699-2711.

图/表 13

附表1

参试糜子材料的品种及来源"

统一编号Code	序号Number	品种名称 Name	品种来源 Source
00000702	1	惠农黄粘黍Huinonghuangnianshu	平罗Pingluo
00000703	2	平罗黄粒黍Pingluohuanglishu	平罗Pingluo
00000704	3	活剥皮糜子Huopuopimizi	灵武Lingwu
00000705	4	黄软糜子Huangruanmizi	盐池Yanchi
00000706	5	盐池白软糜Yanchibairuanmi	盐池Yanchi
00000707	6	黑软糜子Heiruanmizi	盐池Yanchi
00000708	7	花软糜子Huaquanmizi	盐池Yanchi
00000709	8	245	宁夏农科院作物所 Crop Institute of Ningxia Academy of Agricultural Sciences
00002508	9	62-474	平罗Pingluo
00002509	10	62-344	平罗Pingluo
00002510	11	66	平罗Pingluo
00002511	12	51-57	平罗Pingluo
00002512	13	51-36	平罗Pingluo
00002513	14	59-283	平罗Pingluo
00002514	15	62-504	平罗Pingluo
00002515	16	平罗二黄Pingluoerhuang	平罗Pingluo
00002516	17	二黄Erhuang	平罗Pingluo
00002517	18	51-578	平罗Pingluo
00002518	19	平罗紫秆Pingluozigan	平罗Pingluo
00002519	20	51-1055	平罗Pingluo
00002520	21	62-316	平罗Pingluo
00002521	22	黄糜子Huangmizi	平罗Pingluo
00002522	23	惠农白糜子Huinongbaimizi	平罗Pingluo
00002523	24	62-351	平罗Pingluo
00002525	25	陶乐大黄Taoledahuang	陶乐Taole
00002526	26	陶乐白糜子Taolebaimizi	陶乐Taole
00002527	27	红糜子Hongmizi	贺兰Helan
00002530	28	贺兰二黄Helanerhuang	贺兰Helan
00002531	29	贺兰大紫秆Helandazigan	贺兰Helan
00002532	30	贺兰小紫秆Helanxiaozigan	贺兰Helan
00002535	31	62-96	贺兰Helan
00002537	32	552	贺兰Helan
00002539	33	贺兰大粟糜子Helandasumizi	贺兰Helan
00002540	34	51-1433	贺兰Helan
00002542	35	66-3-75	永宁Yongning
00002544	36	51-316	永宁Yongning
00002545	37	1077	永宁Yongning
00002546	38	紫白秆Zibaigan	永宁Yongning
00002547	39	白糜子Baimizi	永宁Yongning
00002548	40	66-3-98	永宁Yongning
00002549	41	66-3-10	永宁Yongning
00002550	42	小粟糜Xiaosumi	永宁Yongning
00002551	43	灵武红子Lingwuhongzi	灵武Lingwu
00002552	44	66-3-47	灵武Lingwu
00002553	45	灵武紫秆Lingwuzigan	灵武Lingwu
00002554	46	灵武70天Lingwu70tian	灵武Lingwu
00002555	47	51-199	灵武Lingwu
00002556	48	黄小糜子Huangxiaomizi	青铜峡Qingtongxia
00002558	49	69-119-1	青铜峡Qingtongxia
00002560	50	51-1381	吴忠Wuzhong
00002564	51	51-265	吴忠Wuzhong
00002565	52	51-253	吴忠Wuzhong
00002566	53	金积大黄糜Jinjidahaungmi	吴忠Wuzhong
00002567	54	金积二黄Jinjierhuang	吴忠Wuzhong
00002568	55	69-110-6	吴忠Wuzhong
00002569	56	吴忠大粟Wuzhongdasu	吴忠Wuzhong
00002570	57	51-1439	吴忠Wuzhong
00002571	58	大红袍Dahongpao	盐池Yanchi
00002572	59	红茬糜子Hongchamizi	盐池Yanchi
00002573	60	红糜子Hongmizi	盐池Yanchi
00002574	61	紫秆红Ziganhong	盐池Yanchi
00002575	62	51-238	盐池Yanchi
00002576	63	51-616	盐池Yanchi
00002578	64	盐池二黄Yanchierhuang	盐池Yanchi
00002580	65	盐东山紫秆Yandongshanzigan	盐池Yanchi
00002581	66	池白糜子Chibaimizi	盐池Yanchi
00002582	67	小黑糜子Xiaoheimizi	盐池Yanchi
00002583	68	密穗红Misuihong	中卫Zhongwei
00002584	69	牛卵红Niuluanhong	中卫Zhongwei
00002585	70	小红糜子Xiaohongmizi	中卫Zhongwei
00002587	71	紫秆红Ziganhong	中卫Zhongwei
00002588	72	69-103-1	中卫Zhongwei
00002589	73	69-103-9	中卫Zhongwei
00002590	74	69-109-1	中卫Zhongwei
00002591	75	中卫紫秆Zhongweizigan	中卫Zhongwei
00002593	76	中卫大黄糜Zhongweidahuangmi	中卫Zhongwei
00002594	77	51-665	中卫Zhongwei
00002596	78	新堡红Xinbaohong	中宁Zhongning
00002597	79	黄大糜子Huangdamizi	中宁Zhongning
00002598	80	大黑Dahei	中宁Zhongning
00002599	81	542	中宁Zhongning
00002600	82	疙疸头红糜子Gedantouhongmizi	同心Tongxin
00002601	83	小红糜子Xiaohongmizi	同心Tongxin
00002603	84	同子红糜子Tongzihongmizi	同心Tongxin
00002604	85	黄草红糜子Huangcaohongmizi	同心Tongxin
00002605	86	甘草黄糜子Gancaohuangmizi	同心Tongxin
00002606	87	同心黄糜子Tongxinhaungmizi	同心Tongxin
00002607	88	同心白糜子Tongxinbaomizi	同心Tongxin
00002608	89	同心紫秆黑Tongxinziganhei	同心Tongxin
00002613	90	海夏红糜Haixiahongmi	海原Haiyuan
00002614	91	小黄糜子Xiaohuangmizi	海原Haiyuan
00002616	92	海原黑糜Haiyuanheimi	海原Haiyuan
00002617	93	大青糜子Daqingmizi	海原Haiyuan
00002618	94	大青糜子Daqingmizi	海原Haiyuan
00002619	95	固原红糜子Guyuanhongmizi	固原Guyuan
00002620	96	古城红糜子Guchenghongmizi	固原Guyuan
00002621	97	韩府红燃Hanfuhongran	固原Guyuan
00002622	98	固原大黄糜Guyuandahuangmi	固原Guyuan
00002623	99	固原小黑糜Guyuanxiaoheimi	固原Guyuan
00002624	100	固原黑糜子Guyuanheimizi	固原Guyuan
00002625	101	红河黑糜子Hongheheimizi	固原Guyuan
00002626	102	黑糜子Heimizi	固原Guyuan
00002627	103	蒿店麻糜子Haodianmamizi	固原Guyuan
00002628	104	大红糜子Dahoongmi	固原农科所Guyuan Agricultural Science Institute
00002629	105	红糜子Hongmizi	固原农科所Guyuan Agricultural Science Institute
00002633	106	黑头黄Heitouhuang	固原农科所Guyuan Agricultural Science Institute
00002635	107	小岔沟黄糜子Xiaochagouhuangmizi	固原农科所Guyuan Agricultural Science Institute
00002636	108	紫秆白糜Ziganbaimi	固原农科所Guyuan Agricultural Science Institute
00002637	109	黑糜子Heimizi	固原农科所Guyuan Agricultural Science Institute
00002638	110	60天黑小糜60tianheixiaomi	固原农科所Guyuan Agricultural Science Institute
00002639	111	紫秆花糜Ziganhuami	固原农科所Guyuan Agricultural Science Institute
00002640	112	西吉大黄糜Xijidahaungmi	西吉Xiji
00002641	113	西吉小黄糜Xijixiaohuangmi	西吉Xiji
00002642	114	西吉小金黄Xijixiaojinhuang	西吉Xiji
00002643	115	隆德大金黄Longdedajinhuang	隆德Longde
00002645	116	泾原白糜Jingyuanbaimi	泾源Jingyuan
00002646	117	泾原白Jingyuanbai	泾源Jingyuan
00002647	118	泾原黑糜Jingyuanheimi	泾源Jingyuan
00002648	119	泾原黑Jingyuanhei	泾源Jingyuan
00002649	120	泾原小青Jingyuanxiaoqing	泾源Jingyuan
00002651	121	宁糜6号Ningmi6hao	宁夏农科院Ningxia Academy of Agricultural Sciences
00002652	122	284	宁夏农科院Ningxia Academy of Agricultural Sciences
00002655	123	宁糜2号Ningmi2hao	宁夏农科院Ningxia Academy of Agricultural Sciences
00002656	124	宁糜3号Ningmi3hao	宁夏农科院Ningxia Academy of Agricultural Sciences
00002659	125	290	宁夏农科院作物所 Crop Institute of Ningxia Academy of Agricultural Sciences
00002660	126	宁糜4号Ningmi4hao	宁夏农科院作物所 Crop Institute of Ningxia Academy of Agricultural Sciences
00002661	127	287	宁夏农科院作物所 Crop Institute of Ningxia Academy of Agricultural Sciences
00005945	128	惠农黄粘Huinonghaungnian	固原农科所Guyuan Agricultural Science Institute
00005946	129	白黏糜Bainianmi	固原农科所Guyuan Agricultural Science Institute
00005947	130	韩府红粘Hanfuhongnian	海原Haiyuan
00005948	131	固糜11号(黍)Gumi11(shu)	固原农科所Guyuan Agricultural Science Institute
00005949	132	固糜12号(黍)Gumi12(shu)	固原农科所Guyuan Agricultural Science Institute
00005950	133	固糜10号(黍)Gumi10(shu)	固原农科所Guyuan Agricultural Science Institute
00005951	134	烟熏红黍子Yanxunhongshuzi	固原农科所Guyuan Agricultural Science Institute
00005952	135	黄桔干红黍Huangkuganhongshu	固原农科所Guyuan Agricultural Science Institute
00005953	136	大黄黍Dahaungshu	固原农科所Guyuan Agricultural Science Institute
00005954	137	黄直黍Huangzhishu	固原农科所Guyuan Agricultural Science Institute
00005955	138	黄罗黍Huangluoshu	固原农科所Guyuan Agricultural Science Institute
00005957	139	195黍子195shuzi	固原农科所Guyuan Agricultural Science Institute
00005958	140	瓦灰软黍Wahuiruanshu	固原农科所Guyuan Agricultural Science Institute
00005959	141	金黄黍Jinhuangshu	固原农科所Guyuan Agricultural Science Institute
00005960	142	气死风粘黍Qisifengnianshu	固原农科所Guyuan Agricultural Science Institute
00005961	143	灰脸蛋黍子Huiliandanshuzu	固原农科所Guyuan Agricultural Science Institute
00005962	144	大粒黍(70-1068)Dalishu(70-1068)	固原农科所Guyuan Agricultural Science Institute
00006776	145	海原紫秆红Haiyuanziganhong	固原农科所Guyuan Agricultural Science Institute
00006777	146	64-211	固原农科所Guyuan Agricultural Science Institute
00006778	147	宁糜七号Ningmiqihao	盐池Yanchi
00006779	148	宁夏干草红Ningxiagancaohong	宁夏农科所Ningxia Institute of Agricultural Sciences
00006780	149	黑城小黑糜Heichengxiaoheimi	固原农科所Guyuan Agricultural Science Institute
00006781	150	鼓鼓头-2Gugutou-2	固原农科所Guyuan Agricultural Science Institute
00006782	151	古城黄糜子Guchenghuangmizi	固原古城Guyuangucheng
00006783	152	60天小黑糜60tianxiaoheimi	固原农科所Guyuan Agricultural Science Institute
00006784	153	小黄糜子Xiaohuangmizi	固原农科所Guyuan Agricultural Science Institute
00006785	154	王太红糜子Wangtaihongmizi	宁夏农科所Ningxia Institute of Agricultural Sciences
00006786	155	六十天糜子Liushitianmizi	固原红河Guyuanhonghe
00006787	156	丰霜-3Fengshuang-3	固原农科所Guyuan Agricultural Science Institute
00006788	157	深紫秆白糜Shengziganbaimi	固原农科所Guyuan Agricultural Science Institute
00006789	158	742-23	固原农科所Guyuan Agricultural Science Institute
00006790	159	泾源小青Jingyuanxiaoqing	泾源Jingyuan
00006791	160	古城黑糜子Guchenghrimizi	固原农科所Guyuan Agricultural Science Institute
00006792	161	六十天黄小糜(8)Liushitianhuangxiaomi(8)	固原红河Guyuanhonghe
00006793	162	炭山黄小糜Tanshanhuangxiaomi	固原农科所Guyuan Agricultural Science Institute
00006794	163	同心青糜子Tongxinqingmizi	同心Tongxin
00006795	164	鼓鼓头-3Gugutou-3	固原农科所Guyuan Agricultural Science Institute
00006796	165	大金黄Dajinhuang	固原农科所Guyuan Agricultural Science Institute
00006797	166	黄大糜子Huangdamizi	固原农科所Guyuan Agricultural Science Institute
00006798	167	宁夏黄糜Ningxiahuangmi	宁夏农科所Ningxia Institute of Agricultural Sciences
00006799	168	大黑糜Daheimi	固原农科所Guyuan Agricultural Science Institute
00006800	169	保安红Baoanhong	宁夏农科所Ningxia Institute of Agricultural Sciences
00006801	170	东山紫秆Dongshanzigan	宁夏农科所Ningxia Institute of Agricultural Sciences
00006802	171	无名单选1号Wumingdanxuan1hao	固原农科所Guyuan Agricultural Science Institute
00006803	172	13号糜子13haomizi	固原农科所Guyuan Agricultural Science Institute
00006804	173	牛旦糜子Niudanmizi	固原农科所Guyuan Agricultural Science Institute
00006805	174	蒿店小黄米(2)Haodianxiaohuangmi(2)	固原农科所Guyuan Agricultural Science Institute
00006806	175	黑糜子(2)Heimizi(2)	固原农科所Guyuan Agricultural Science Institute
00006807	176	鸡蛋白Jidanbai	海原Haiyuan
00006808	177	海原小黄糜Haiyuanxiaohaungmi	海原Haiyuan
00006809	178	黄草红糜子Huangcaohongmizi	固原农科所Guyuan Agricultural Science Institute
00006810	179	泾源黄糜子Jingyuanhaungmizi	泾源Jingyuan
00006811	180	羊眼睛青糜子Yangyanjingqingmizi	固原农科所Guyuan Agricultural Science Institute
00006812	181	套糜子Taomizi	固原农科所Guyuan Agricultural Science Institute
00006813	182	固糜二号Gumierhao	固原农科所Guyuan Agricultural Science Institute
00006814	183	固糜三号Gumisanhao	固原农科所Guyuan Agricultural Science Institute
00006815	184	固糜四号Gumisihao	固原农科所Guyuan Agricultural Science Institute
00006816	185	固糜五号Gumiwuhao	固原农科所Guyuan Agricultural Science Institute
00006817	186	固糜六号Gumiliuhao	固原农科所Guyuan Agricultural Science Institute
00006818	187	固糜七号Gumiqihao	固原农科所Guyuan Agricultural Science Institute
00006819	188	固糜八号Gumibahao	固原农科所Guyuan Agricultural Science Institute
00006820	189	固糜九号Gumijiuhao	固原农科所Guyuan Agricultural Science Institute
00006821	190	固糜13号Gumi13hao	固原农科所Guyuan Agricultural Science Institute
00006822	191	771-2	固原农科所Guyuan Agricultural Science Institute
00006823	192	79038-2	固原农科所Guyuan Agricultural Science Institute
00006824	193	72-60-1	固原农科所Guyuan Agricultural Science Institute
00006826	194	八成米Bachengmi	固原农科所Guyuan Agricultural Science Institute
00006827	195	紫桔糜子Zijiemizi	固原农科所Guyuan Agricultural Science Institute
00006828	196	二黄糜Erhaungmi	固原农科所Guyuan Agricultural Science Institute
00006829	197	三黄糜Sanhuangmi	固原农科所Guyuan Agricultural Science Institute
00006830	198	大直黄Dazhihaung	固原农科所Guyuan Agricultural Science Institute
00006831	199	黄糜子30/79Huangmizi30/79	固原农科所Guyuan Agricultural Science Institute
00006832	200	密穗糜Misuimi	固原农科所Guyuan Agricultural Science Institute
00006833	201	八升半Bashengban	固原农科所Guyuan Agricultural Science Institute
00006834	202	60-333	固原农科所Guyuan Agricultural Science Institute
00006835	203	米仓155Micang155	固原农科所Guyuan Agricultural Science Institute
00006836	204	大粒黍Dalishu	固原农科所Guyuan Agricultural Science Institute
00006837	205	道林斯克Daolinsike	固原农科所Guyuan Agricultural Science Institute
00006838	206	秤锤糜Chengchuimi	固原农科所Guyuan Agricultural Science Institute
00006839	207	牛尾红Niuweihong	固原农科所Guyuan Agricultural Science Institute
00006840	208	紫盖头红糜Zigaitouhongmi	固原农科所Guyuan Agricultural Science Institute
00006841	209	丰收-4Fengshou-4	固原农科所Guyuan Agricultural Science Institute
00006842	210	丰双-4Fengshaung-4	固原农科所Guyuan Agricultural Science Institute
00006843	211	丰双-2Fengshuang-2	固原农科所Guyuan Agricultural Science Institute
00006844	212	二紫秆Erzigan	固原农科所Guyuan Agricultural Science Institute
00006845	213	紫罗带Ziluodai	固原农科所Guyuan Agricultural Science Institute
00006846	214	大紫秆Dazigan	固原农科所Guyuan Agricultural Science Institute
00006847	215	骨都白Gudoubai	固原农科所Guyuan Agricultural Science Institute
00006848	216	白疙旦Baigedan	固原农科所Guyuan Agricultural Science Institute
00006849	217	黑鹅头Heietou	固原农科所Guyuan Agricultural Science Institute
00006850	218	丰收红糜Fengshouhongmi	固原农科所Guyuan Agricultural Science Institute
00006851	219	丰收麻糜Fengshoumami	固原农科所Guyuan Agricultural Science Institute
00007252	220	波多果斯克Boduoguosike	固原农科所Guyuan Agricultural Science Institute
00006853	221	省农场红糜子Shengnongchanghongmizi	固原农科所Guyuan Agricultural Science Institute
00006854	222	红花糜子Honghuamizi	固原农科所Guyuan Agricultural Science Institute
00006855	223	丰红2-2Fenghong2-2	固原农科所Guyuan Agricultural Science Institute
00006856	224	北草原列草黄Beicaoyuanliecaohuang	固原农科所Guyuan Agricultural Science Institute
00006857	225	7835-2-3	固原农科所Guyuan Agricultural Science Institute
00007251	226	中卫大黄糜Zhongweidahaungmi	宁夏Ningxia
00007253	227	小黑糜Xiaoheimi	宁夏Ningxia
00007254	228	宁糜一号Ningmiyihao	宁夏Ningxia
00007255	229	宁糜四号Ningmisihao	宁夏Ningxia
00007287	230	中卫大黄Zhongweidahaung	宁夏Ningxia
00007288	231	贺兰二黄Helandahaung	宁夏Ningxia
00007289	232	平罗紫秆Pingluozigan	宁夏Ningxia
00007290	233	盐池二黄Yanchierhuang	宁夏Ningxia
00007291	234	平罗二黄Pingluoerhuang	宁夏Ningxia
00007292	235	中卫黄糜Zhongweihuangmi	宁夏Ningxia
00007293	236	金积大黄Jinjidahaung	宁夏Ningxia
00007294	237	片朔大黄Piansudahuang	宁夏Ningxia
00007295	238	惠农大黄Huinongdahaung	宁夏Ningxia
00007296	239	惠农大黄Huinongdahuang	宁夏Ningxia
00007297	240	贺兰大红Helandahong	宁夏Ningxia
00007298	241	录武七十天Luwuqishitian	宁夏Ningxia
00007299	242	黄惠糜Huanghuimi	宁夏Ningxia
00007300	243	半片大黄Banpiandahaung	宁夏Ningxia
00007301	244	东山大黄Dongshandahaung	宁夏Ningxia
00007302	245	142	宁夏Ningxia
00007303	246	小红糜Xiaohongmi	宁夏Ningxia
00007304	247	灵武小糜Lingwuxiaomi	宁夏Ningxia
00007305	248	黄糜Huangmi	宁夏Ningxia
00007306	249	武太保灰糜Wutaibaohuimi	宁夏Ningxia
00007307	250	小灰糜Xiaohuimi	宁夏Ningxia
00007308	251	九十天糜Jiushitianmi	宁夏Ningxia
00007309	252	黄糜Huangmi	宁夏Ningxia
00007310	253	903	宁夏Ningxia
00007311	254	王太堡紫秆糜Wangtaibaoziganmi	宁夏Ningxia
00007320	255	金积小黄糜Jinjixiaohaungmi	宁夏Ningxia
00007593	256	C75-7	宁夏Ningxia
00007695	257	A85-24	宁夏Ningxia
00007703	258	A85-32	宁夏Ningxia
00007708	259	A85-37	宁夏Ningxia
00007715	260	A85-44	宁夏Ningxia
00007730	261	A85-59	宁夏Ningxia
00007870	262	B75-31	宁夏Ningxia
00007871	263	B75-32	宁夏Ningxia
00007875	264	E75-16	宁夏Ningxia
00007876	265	E75-17	宁夏Ningxia
00007914	266	A85-67	宁夏Ningxia
00007935	267	A85-88	宁夏Ningxia
00007959	268	A85-112	宁夏Ningxia
00008015	269	古城糜子Guchengmizi	宁夏Ningxia
00008020	270	小红糜子Xiaohongmizi	宁夏Ningxia
00008021	271	陕圪塔红糜Shangetahongmi	宁夏Ningxia
00008335	272	固原9号Guyuan9hao	宁夏Ningxia
00008336	273	固糜12号(引)Guyuan12hao(yin)	宁夏固原Ningxiaguyuan
00008337	274	固糜20Gumi20	宁夏固原Ningxiaguyuan

附表1

表1

表2

图1

图2

表3

10对核心引物毛细管电泳结果及带型编码"

引物 Primer	荧光基团 Fluorescent group	电泳条带数目 Polymorphism bands	电泳片段长度及编码 Length and code of electrophoresis fragments (bp)
RYW6	FAM (blue)	70	109(01), 208(02), 242(03), 308(04), 109/133/154/167(05), 109/20(06), 114/133/154/208/282(07), 133/167/208/269/282/308(08), 133/167/208/269/308(09), 133/167/208/275/282/308(10), 133/167/208/282/308(11), 133/208/269/282/308(12), 133/208/282/308(13), 167/208/242/282/327(14), 167/208/269/282(15), 167/242/282/327(16), 188/208/242(17), 188/242(18), 188/242/308/373/426(19), 188/242/308/373/426/472/486(20),
RYW6	FAM (blue)	70	188/242/308/373/426/486(21), 188/242/308/426(22), 188/242/348/373/426/472/486(23), 188/242/348/426(24), 188/242/373(25), 188/242/373/409/426(26), 188/242/373/409/426/472(27), 188/242/373/409/426/472/486(28), 188/242/373/426(29), 188/242/373/426/472(30), 188/242/373/426/472/486(31), 188/242/373/426/486(32), 188/242/426(33), 188/242/426/472(34), 188/242/426/486(35), 188/242/308/373/426(36), 195/242(37), 195/242/426/472/486(38), 208/242/282(39), 242/282(40), 242/282/386(41), 242/308/373/426(42), 242/308/426/472(43), 242/373(44), 242/373/409/426/472/486(45), 242/373/426(46), 242/373/426/486(47), 98/103/242/386(48), 98/109/114(49), 98/109/208/242/253/386(50), 98/109/208/242/386(51), 98/114/133(52), 98/114/133/154(53), 98/114/133/154/173(54), 98/114/133/154/24(55), 98/114/133/208/242(56), 98/114/133/242/282/308(57), 98/114/208/242(58), 98/133/208/242/282/386(59),,98/188/195/242(60), 98/195/242/282/386(61), 98/195/242/386(62), 98/208/242/253/282(63), 98/208/242/282(64), 98/208/242/386(65), 98/242(66), 98/242/253/386(67), 98/242/282(68), 98/242/282/386(69), 98/242/386(70)
RYW125	FAM (blue)	27	229(01), 112/118/136/164/169/188/229/241/251(02), 112/136/164/169/188/229/241(03), 112/136/164/169/188/229/241/251(04), 112/136/164/169/188/229/251(05), 112/136/164/169/188/241(06), 112/136/164/169/209/229/241/251(07), 112/136/164/169/229/241(08), 112/136/164/169/229/241/251(09), 112/136/164/188/229/241/251(10), 112/136/164/229(11), 112/136/164/229/241/251(12), 112/136/169/188/229/241/251(13), 112/136/169/229/241(14), 112/136/169/229/251(15), 112/136/203/229/241/251(16), 112/136/229/241(17), 112/136/229/241/251(18), 112/169/188/229/241/251(19), 118/136/164/229/241/251(20), 136/229(21), 136/229/241/251(22), 136/229/251(23), 229/236/241/251(24), 229/241(25), 229/241/251(26), 229/251(27)
RYW43	HEX (green)	32	111(01), 111/129/183(02), 111/129/183/190/205/304/405/418(03), 111/129/183/190/304(04), 111/129/183/190/304/323(05), 111/129/183/190/304/323/397/418(06), 111/129/183/190/304/323/405/418(07), 111/129/183/190/304/323/405/418/480(08), 111/129/183/190/304/323/418(09), 111/129/183/190/304/397/418(10), 111/129/183/190/304/405(11), 111/129/183/190/304/405/418(12), 111/129/183/190/304/418(13), 111/129/183/190/304/418/480(14), 111/129/183/205/418(15), 111/129/183/294(16), 111/129/183/294/304/418(17), 111/129/183/294/418(18),,111/129/183/294/418/480(19), 111/129/183/304(20), 111/129/183/304/323/405/418(21), 111/129/183/304/397/418(22), 111/129/183/304/405(23), 111/129/183/304/405/418(24), 111/129/183/304/418(25), 111/129/183/304/418/480(26), 111/129/183/315(27), 111/129/183/397/418(28), 111/129/183/405(29), 111/129/183/418(30), 111/183(31), 111/294(32)
RYW3	FAM (blue)	11	84(01), 106(02), 150(03), 106/150(04), 106/150/262/281(05), 84/106(06), 84/106/150(07), 84/106/150/262(08), 84/106/150/262/281(09), 84/106/150/281(10), 84/150(11)
RYW40	FAM (blue)	35	125(01), 379(02), 119/153/240/348/379(03), 125/153(04), 125/153/197/240/326/348/379(05), 125/153/197/240/379(06), 125/153/197/326/342/379(07), 125/153/197/326/348/379(08), 125/153/197/326/379(09), 125/153/240/326/342/348/379(10), 125/153/240/326/342/379(11), 125/153/240/326/348/379(12), 125/153/240/326/379(13), 125/153/240/342/379(14), 125/153/240/348/379(15), 125/153/240/379(16), 125/153/326/342/379(17), 125/153/326/379(18), 125/153/342(19), 125/153/342/348/379(20), 125/153/379(21),,125/197/240/326/379(22), 125/326/342/379(23), 125/326/379(24), 125/379(25), 153/169/197/240/282/314/348/379/472(26), 153/169/197/240/326/348/379/455/488(27), 153/169/379(28), 153/240/342/379(29), 153/326/379(30), 153/342/348/379(31), 326/342/379(32), 326/348/379(33), 326/379(34), 348/379(35)
RYW37	FAM (blue)	15	205(01), 191/200/205/210(02), 200/205/268/287(03), 200/205/268/287/346(04), 205/210(05), 205/210/268(06), 205/210/268/287(07), 205/210/268/287/346(08), 205/210/287(09), 205/268(10), 205/268/287(11), 205/268/287/346(12), 205/287(13), 205/287/332(14), 205/287/346(15)
RYW42	FAM (blue)	59	202/4936(01), 429/436(02), 202(03), 117/173/273/429/436(04), 117/173/429/436(05), 117/183/273/429/436(06), 117/183/429/436(07), 117/190/273/429/436(08), 117/202/273/429/436(09), 117/210/273/429/436(10), 117/210/429/436(11), 117/273/429/436(12), 118/210/429/436(13), 183/273/429/436(14), 202/216/261/334/449/493(15), 202/216/261/334/468/493(16), 202/216/261/334/493(17), 202/216/261/449/493(18), 202/216/261/468/493(19), 202/216/261/493(20), 202/216/334/449/493(21), 202/216/334/468/493(22), 202/216/334/493(23), 202/216/429/493(24), 202/216/449(25), 202/216/449/493(26), 202/216/493(27), 202/229/261/468/493(28), 202/229/261/493(29), 202/229/334/493(30), 202/229/468/493(31), 202/229/493(32), 202/260/493(33), 202/261/429/493(34), 202/261/449/493(35), 202/261/493(36), 202/334/429/493(37), 202/334/468/493(38), 202/334/493(39), 202/429/468/493(40), 202/468/493(41), 210/273/429/436(42), 210/429/436(43), 273/429/436(44), 99/117/273/334/429/436(45), 99/117/273/429/436(46), 99/150/183/273/429/436(47), 99/150/190/273/429/436(48), 99/150/273/429/436(49), 99/168/273/429/436(50), 99/173/273/429/436(51), 99/173/429/436(52), 99/183/273/429/436(53), 99/190/273/429/436(54), 99/202/273/429/436(55), 99/210/273/429/436(56), 99/210/429/436(57), 99/273/429/436(58), 99/429/436(59)
RYW8	FAM (blue)	57	107(01), 112(02), 246(03), 107/112(04), 107/112/143(05), 107/112/143/215(06), 107/112/143/215/246(07), 107/112/143/221/285(08), 107/112/143/246(09), 107/112/143/246/357(10), 107/112/215(11), 107/112/215/238/305/357(12), 107/112/215/238/357(13), 107/112/215/246(14), 107/112/215/246/357(15), 107/112/238(16), 107/112/246/357(17), 107/112/247(18), 112/143/150/184/192/227/246(19), 112/143/150/184/192/246(20), 112/143/150/184/227/246(21), 112/143/150/184/246(22), 112/143/150/227/246(23), 112/143/215/246(24), 112/143/215/246/357(25), 112/163/215/232/357(26), 112/163/215/246/357(27), 112/184/215/238/357(28), 112/184/215/246/357(29), 112/184/215/357(30), 112/184/238/357(31), 112/192(32), 112/192/215/238/305/357(33), 112/192/215/238/357(34), 112/192/215/246(35), 112/192/215/246/357(36), 112/192/215/357(37), 112/192/238(38), 112/192/238/246(39), 112/192/238/305(40), 112/192/238/305/357(41), 112/192/238/357(42), 112/192/246(43), 112/192/246/357(44), 112/192/357(45), 112/215(46), 112/215/238/305/357(47), 112/215/238/357(48), 112/215/246(49), 112/215/246/357(50), 112/215/357(51), 112/238(52), 112/238/305(53), 112/238/305/357(54), 112/238/357(55), 112/246(56), 143/150/246(57)
RYW28	FAM (blue)	19	110(01), 264(02), 274(03), 110/264(04), 110/264/287(05), 110/264/287/388/452(06), 110/264/287/452(07), 110/264/287/452/483(08), 110/264/287/483(09), 110/264/452(10), 110/264/452/483(11), 110/264/483(12), 110/452(13), 160/211(14), 264/287(15), 264/287/388/452(16), 264/287/452(17), 264/452(18), 264/483(19)
RYW124	FAM (blue)	16	233(01), 113/119/233/240/393/413(02), 113/233/240/413/443(03), 119/134/233/240/393/443(04), 119/223/233(05), 119/233/240(06), 119/233/240/393(07), 119/233/240/393/413(08), 119/233/240/393/443(09), 119/233/240/393/455(10), 119/233/240/413/443(11), 119/233/240/443(12), 233/240(13), 233/240/393(14), 233/240/393/443(15), 233/240/443(16)

表3

表4

表5

图3

图4

附表2

参试糜子材料的字符串"

序号Number	统一编号Code	字符串Character string
1	00000702	00233107021244460809
2	00000703	00243107021243370809
3	00000704	00243107020752430809
4	00000705	00233107001352031307
5	00000706	00243107020952560409
6	00000707	00243107021211510809
7	00000708	00253104000052320006
8	00000709	00243107020745350809
9	00002508	00233107000145560113
10	00002509	00243107021245430804
11	00002510	00233107020745490809
12	00002511	00233107020745490809
13	00002512	00233107020745491109
14	00002513	00013102000952500207
15	00002514	00253100000551450216
16	00002515	00233107020750270809
17	00002516	00233107021247260702
18	00002517	00013102000553450012
19	00002518	00243107020951440209
20	00002519	00010102000151500007
21	00002520	00010106021353510214
22	00002521	00000100000102000001
23	00002522	00233104020550500009
24	00002523	00013102000152560012
25	00002525	02233107020843490809
26	00002526	06243107020752561709
27	00002527	00243107020553430212
28	00002530	02233107000752491209
29	00002531	06233107021210490809
30	00002532	06233107021209490809
31	00002535	06233107020750490809
32	00002537	01233107021249490809
33	00002539	08233107020647560409
34	00002540	09233107020849490810
35	00002542	10243107021250490810
36	00002544	04243107020807490809
37	00002545	11233107020849490810
38	00002546	13243107021141491109
39	00002547	12243107020042560809
40	00002548	15243107000153030412
41	00002549	07243107020849561109
42	00002550	54243107020552031109
43	00002551	64233107021052031112
44	00002552	52243107020649030809
45	00002553	39240007020646031807
46	00002554	14233107021209030809
47	00002555	16233107021249030809
48	00002556	49233107020807030809
49	00002558	63243107001352000412
50	00002560	52263107000142000009
51	00002564	57243107021252031109
52	00002565	56233104000151031009
53	00002566	54013104000153000209
54	00002567	17243107021207030808
55	00002568	05013107000153000212
56	00002569	55243107020810030810
57	00002570	50253107000553001909
58	00002571	59243107000749031109
59	00002572	51243107020912030512
60	00002573	67010104000153030412
61	00002574	65243107000153030412
62	00002575	65253104000153000412
63	00002576	58253104000148001912
64	00002578	65223107020548001909
65	00002580	70253107001302000409
66	00002581	48013104000514000012
67	00002582	48253104000539030016
68	00002583	48253100000506000316
69	00002584	66243104020102031112
70	00002585	70253107000108030412
71	00002587	66253100000102001015
72	00002588	70243104000138001209
73	00002589	03243107020805220808
74	00002590	03243107021207221109
75	00002591	03243107020707211209
76	00002593	41243107020913571109
77	00002594	40233107020704220808
78	00002596	40243107021207190809
79	00002597	03243107020107221109
80	00002598	40243107021207190810
81	00002599	41233104020107220409
82	00002600	41243107021113221109
83	00002601	40243107020815200809
84	00002603	40243107021207200809
85	00002604	40243107021140210809
86	00002605	40243107021207190809
87	00002606	68243107021249190809
88	00002607	62233107020140001209
89	00002608	62243107021302030909
90	00002613	61243107021115230809
91	00002614	61243107021115221109
92	00002616	61243107020850220809
93	00002617	61243107020112211112
94	00002618	66253103020139000409
95	00002619	69243107001440000409
96	00002620	69243107021107001109
97	00002621	00242704021035430009
98	00002622	00242704020535320009
99	00002623	00242704000135450009
100	00002624	00242704000935450009
101	00002625	00242704241031360009
102	00002626	00242704001135440009
103	00002627	00242704230135320009
104	00002628	00242704000535320009
105	00002629	00252704000135320009
106	00002633	00242704331134430009
107	00002635	00242704011135430012
108	00002636	00252704140832511709
109	00002637	00250704131201300009
110	00002638	00242704291025440009
111	00002639	00252704331131360009
112	00002640	00242704191332301809
113	00002641	00242704071229370009
114	00002642	00242704020935440009
115	00002643	00242704300833301809
116	00002645	00242704191132300009
117	00002646	00242704161132290009
118	00002647	00242704171135430209
119	00002648	00242704170735440209
120	00002649	00242704161233290209
121	00002651	00242704161229290009
122	00002652	00242704160829301709
123	00002655	00242704180829300009
124	00002656	00242704101133370211
125	00002659	00242704170731370009
126	00002660	00242704160731300009
127	00002661	00242704230731300009
128	00005945	00242704171131300009
129	00005946	00242704221129290009
130	00005947	00242704161131300009
131	00005948	00242704161132300009
132	00005949	00252704030833311708
133	00005950	00252704330535420009
134	00005951	00252704160829300009
135	00005952	00252704310001300009
136	00005953	00252704271133301708
137	00005954	00242704221131300009
138	00005955	00242704110832280208
139	00005957	00252704330731340009
140	00005958	00252704281132280009
141	00005959	00252704160701280209
142	00005960	00252704040732280009
143	00005961	00252704160732280009
144	00005962	00242704110332282808
145	00006776	00242704111101390209
146	00006777	00242704121201311609
147	00006778	00242704120126420212
148	00006779	00252704111221421708
149	00006780	00252704331035420009
150	00006781	00252704001132280009
151	00006782	00242704230101420009
152	00006783	00240004171035340209
153	00006784	00240004091226280209
154	00006785	00240004231001420005
155	00006786	00240004111229420209
156	00006787	00240004170535420009
157	00006788	00242704230135420009
158	00006789	00242704051233420608
159	00006790	00250004111233421509
160	00006791	00240004111229420609
161	00006792	00240004111224311711
162	00006793	00240004111221421711
163	00006794	00240004111233311711
164	00006795	00242704110833281811
165	00006796	00242704250833281711
166	00006797	00240004171135340209
167	00006798	00240004110735340211
168	00006799	00240004111221420611
169	00006800	00240004110826310209
170	00006801	00240003110833421711
171	00006802	00242704110825311711
172	00006803	00242704110735420209
173	00006804	00240004110833310208
174	00006805	00240004111233311611
175	00006806	00240004111225311611
176	00006807	00240004110833421611
177	00006808	00240004061225311611
178	00006809	00242704151225311611
179	00006810	00240104100123380012
180	00006811	00242704200835420212
181	00006812	00242704140825310211
182	00006813	00242704110726420211
183	00006814	00242704111233310205
184	00006815	00242704150821421511
185	00006816	00242704110825311611
186	00006817	00242704211126420209
187	00006818	00242704150833420611
188	00006819	00242704110832311609
189	00006820	00242704111222421511
190	00006821	00242704111523311509
191	00006822	00242704111222421509
192	00006823	00243104181222420709
193	00006824	47041009330828170009
194	00006826	32041109020819041709
195	00006827	60080401000730560009
196	00006828	35031205331219040208
197	00006829	35040509331219040009
198	00006830	32040909331219040211
199	00006831	32040701330719001711
200	00006832	32040609020828101509
201	00006833	32040710330720180211
202	00006834	32040709330820051711
203	00006835	37213010000301020009
204	00006836	32061200330920091811
205	00006837	32041210020819040211
206	00006838	32032107331119041703
207	00006839	32042310021219010208
208	00006840	25022007001127150009
209	00006841	03182009000831070009
210	00006842	32040700030928140009
211	00006843	32042109020820070208
212	00006844	00251910001203020012
213	00006845	33122009020820040009
214	00006846	29122410021219040211
215	00006847	32042107330719040211
216	00006848	32092006021219060211
217	00006849	32042109331219080211
218	00006850	03012808000803020012
219	00006851	32040804331119110211
220	00007252	44091400000530240011
221	00006853	19040902020819500011
222	00006854	32042908020820460211
223	00006855	21042107331119510211
224	00006856	21050907330819250211
225	00006857	30041309020820120211
226	00007251	38041210320819471811
227	00007253	37172507000737520011
228	00007254	03011807000703520012
229	00007255	21081200330519541211
230	00007287	43042307020719550211
231	00007288	19042411020700551511
232	00007289	42041208330719471711
233	00007290	46041309330819471511
234	00007291	27041008020816531511
235	00007292	43090207020719480209
236	00007293	36132407020819130208
237	00007294	00010207000837380012
238	00007295	03122607021225520211
239	00007296	22032507021219480211
240	00007297	20042507021219470210
241	00007298	28041307310319470211
242	00007299	45041307021219471511
243	00007300	28051207330719521511
244	00007301	25032007021119120011
245	00007302	18042501020720130211
246	00007303	44092007021126130009
247	00007304	31042407330719521711
248	00007305	24091307330820480209
249	00007306	03092006020831470009
250	00007307	23041308330219470211
251	00007308	03172504001103520009
252	00007309	28142500021119480208
253	00007310	03162000001137520009
254	00007311	03170500001303160009
255	00007320	26042500021116521511
256	00007593	29042006330820481511
257	00007695	20041207020821470211
258	00007703	30041204331121470211
259	00007708	03212507000701520012
260	00007715	03162004021137550012
261	00007730	03122500001101480012
262	00007870	00212804001101520012
263	00007871	03162500000736470011
264	00007875	03092204021137120009
265	00007876	30100307020818330211
266	00007914	03201607001101380012
267	00007935	34041200020026480211
268	00007959	03171600020001340012
269	00008015	03191800000001380012
270	00008020	03111700000003380012
271	00008021	44151800000001381412
272	00008335	03182000020034380012
273	00008336	29071509250817411511
274	00008337	44042209260434400212

附表2

图5

附图1

参考文献 41

[1]	Bhat S, Nandini C, Srinathareddy S, Jayarame G. Proso millet (Panicum miliaceum L.): a climate resilient crop for food and nutritional security: a review. Environ Conserv J, 2019, 20: 113-124.
[2]	Flajsman M, Stajner N, Acko D K. Genetic diversity and agronomic performance of Slovenian landraces of proso millet (Panicum miliaceum L.). Turk J Bot, 2019, 43: 185-195. doi: 10.3906/bot-1807-83
[3]	Calamai A, Masoni A, Marini L, Dell’acqua M, Ganugi P, Boukail S, Benedettelli S, Palchetti E. Evaluation of the agronomic traits of 80 accessions of proso millet (Panicum miliaceum L.) under Mediterranean pedoclimatic conditions. Agriculture, 2020, 10: 578.
[4]	Ghimire B K, Yu C Y, Kim S H, Chung I M. Diversity in accessions of Panicum miliaceum L. based on agro-morphological, antioxidative, and genetic traits. Molecules, 2019, 24: 1012.
[5]	Gomashe S S. Millets and Sorghum: Biology and Genetic Improvement. John Wiley & Sons Ltd, 2017. pp 150-169.
[6]	Habiyaremye C, Matanguihan J B, D’Alpoim Guedes J, Ganjyal G M, Whiteman M R, Kidwell K K, Murphy K M. Proso millet (Panicum miliaceum L.) and its potential for cultivation in the Pacific Northwest, US: a review. Front Plant Sci, 2017, 7: 1961.
[7]	Hou S Y, Sun Z X, Li Y S, Wang Y J, Ling H B, Xing G F, Han Y H, Li H Y. Transcriptomic analysis, genic SSR development, and genetic diversity of proso millet (Panicum miliaceum; Poaceae). Appl Plant Sci, 2017, 5: 160-137.
[8]	Hunt H V, Campana M G, Lawes M C, Park Y J, Bower M A, Howe C J, Jones M K. Genetic diversity and phylogeography of broomcorn millet (Panicum miliaceum L.) across Eurasia. Mol Ecol, 2011, 20: 4756-4771.
[9]	Kalinová J. Nutritionally important components of proso millet (Panicum miliaceum L.). Food, 2007, 1: 91-100.
[10]	Wang R Y, Hunt H V, Qiao Z J, Wang L, Han Y H. Diversity and cultivation of broomcorn millet (Panicum miliaceum L.) in China: a review. Econ Bot, 2016, 70: 332-342.
[11]	Vetriventhan M, Azevedo V C, Upadhyaya H, Nirmalakumari A, Kane-Potaka J, Anitha S. Genetic and genomic resources, and breeding for accelerating improvement of small millets: current status and future interventions. Nucleus, 2020, 63: 217-239.
[12]	He Q, Wang C C, Zhang J, Liang H K, Lu Z F, Xie K, Tang S, Zhou Y H, Liu B, Zhi H, Jia G Q, Guo G G, Du H L, Diao X M. A complete reference genome assembly for foxtail millet and Setaria-DB, a comprehensive database for Setaria . Mol Plant, 2024, 17: 219-222.
[13]	Uddin M S, Azam M G, Bagum S A, Hakim M A. Genetic diversity analysis of proso millet (Panicum miliaceum L.) in relation to phenotypic characters. J Agric Sci Engin Innov, 2020, 1: 18-22.
[14]	Trivedi A, Arya L, Verma M, Verma S, Tyagi R, Hemantaranjan A. Genetic variability in proso millet (Panicum miliaceum) germplasm of Central Himalayan Region based on morpho- physiological traits and molecular markers. Acta Physiol Plant, 2015, 37: 1-16.
[15]	Rajput S G, Plyler-Harveson T, Santra D K. Development and characterization of SSR markers in proso millet based on switchgrass genomics. Am J Plant Sci, 2014, 3: 56-76.
[16]	Krishna T A, Maharajan T, David R H A, Ramakrishnan M, Ceasar S A, Duraipandiyan V. Microsatellite markers of finger millet (Eleusine coracana (L.) Gaertn) and foxtail millet (Setaria italica (L.) Beauv) provide resources for cross-genome transferability and genetic diversity analyses in other millets. Biocatal Agric Biotechnol, 2018, 16: 493-501.
[17]	Kalinova J, Moudry J. Content and quality of protein in proso millet (Panicum miliaceum L.) varieties. Plant Food Hum Nutr, 2006, 61: 43-47.
[18]	连帅, 陆平, 乔治军, 张琦, 张茜, 刘敏轩, 王瑞云. 利用SSR分子标记研究国内外黍稷地方品种和野生资源的遗传多样性. 中国农业科学, 2016, 49: 3264-3275. doi: 10.3864/j.issn.0578-1752.2016.17.002
	Lian S, Lu P, Qiao Z J, Zhang Q, Zhang Q, Liu M X, Wang R Y. Genetic diversity in broomcorn millet (Panicum miliaceum L.) from China and abroad by using SSR markers. Sci Agric Sin, 2016, 49: 3264-3275 (in Chinese with English abstract).
[19]	寇淑君, 霍阿红, 付国庆, 纪军建, 王瑶, 左振兴, 刘敏轩, 陆平. 利用荧光 SSR分析中国糜子的遗传多样性和群体遗传结构. 中国农业科学, 2019, 52: 1475-1487. doi: 10.3864/j.issn.0578-1752.2019.09.001
	Kou S J, Huo A H, Fu G Q, Ji J J, Wang Y, Zuo Z X, Liu M X, Lu P. Genetic diversity and population structure of broomcorn millet in China based on fluorescently labeled SSR. Sci Agric Sin, 2019, 52: 1475-1487 (in Chinese with English abstract). doi: 10.3864/j.issn.0578-1752.2019.09.001
[20]	薛亚鹏, 丁艺冰, 王宇卓, 王晓丹, 曹晓宁, Santra D K, 陈凌, 乔治军, 王瑞云. 基于荧光SSR构建中国糜子核心种质DNA分子身份证. 中国农业科学, 2023, 56: 2249-2261. doi: 10.3864/j.issn.0578-1752.2023.12.002
	Xue Y P, Ding Y B, Wang Y Z, Wang X D, Cao X N, Santra D K, Chen L, Qiao Z J, Wang R Y. Construction of DNA molecular identity card of core germplasm of broomcorn millet in China based on fluorescence SSR. Sci Agric Sin, 2023, 56: 2249-2261 (in Chinese with English abstract). doi: 10.3864/j.issn.0578-1752.2023.12.002
[21]	徐雷锋, 葛亮, 袁素霞, 任君芳, 袁迎迎, 李雅男, 刘春, 明军. 利用荧光标记SSR构建百合种质资源分子身份证. 园艺学报, 2014, 41: 2055-2064.
	Xu L F, Ge L, Yuan S X, Ren J F, Yuan Y Y, Li Y N, Liu C, Ming J. Using the fluorescent labeled SSR markers to establish molecular identity of Lily germplasms. Acta Hortic Sin, 2014, 41: 2055-2064 (in Chinese with English abstract).
[22]	石甜甜, 何杰丽, 高志军, 陈凌, 王海岗, 乔治军, 王瑞云. 利用EST-SSR评估糜子资源遗传差异. 中国农业科学, 2019, 52: 4100-4109. doi: 10.3864/j.issn.0578-1752.2019.22.014
	Shi T T, He J L, Gao Z J, Chen L, Wang H G, Qiao Z J, Wang R Y. Genetic diversity of common millet resources assessed with EST- SSR markers. Sci Agric Sin, 2019, 52: 4100-4109 (in Chinese with English abstract).
[23]	何杰丽, 石甜甜, 陈凌, 王海岗, 高志军, 杨美红, 王瑞云, 乔治军. 糜子EST-SSR分子标记的开发及种质资源遗传多样性分析. 植物学报, 2019, 54: 723-732. doi: 10.11983/CBB19037
	He J L, Shi T T, Chen L, Wang H G, Gao Z J, Yang M H, Wang R Y, Qiao Z J. The genetic diversity of common millet (Panicum miliaceum) germplasm resources based on the EST-SSR markers. Chin Bull Bot, 2019, 54: 723-732 (in Chinese with English abstract).
[24]	Chen J F, Liu Y, Liu M X, Guo W L, Wang Y Q, He Q, Chen W Y, Liao Y, Zhang W, Gao Y Z, Dong K J, Ren R Y, Yang T Y, Zhang L Y, Qi M Y, Li Z G, Zhao M, Wang H G, Wang J J, Qiao Z J, Li H Q, Jiang Y M, Liu G Q, Song X Q, Deng Y R, Li H, Yan F, Dong Y, Li Q Q, Li T, Yang W Y, Cu J H, Wang H R, Zhou Y F, Zhang X M, Jia G Q, Lu P, Zhi H, Tang S, Diao X M. Pangenome analysis reveals genomic variations associated with domestication traits in broomcorn millet. Nat Genet, 2023, 55: 2243-2254.
[25]	王瑞云, 刘笑瑜, 王海岗, 陆平, 刘敏轩, 陈凌, 乔治军. 用高基元微卫星标记分析中国糜子遗传多样性. 中国农业科学, 2017, 50: 3848-3870. doi: 10.3864/j.issn.0578-1752.2017.20.002
	Wang R Y, Liu X Y, Wang H G, Lu P, Liu M X, Chen L, Qiao Z J. Evaluation of genetic diversity of common millet (Panicum miliaceum) germplasm available in China using high motif nucleotide repeat SSR markers. Sci Agric Sin, 2017, 50: 3848-3870 (in Chinese with English abstract).
[26]	Murray M G, Thompson W F. Rapid isolation of high molecular weight plant DNA. Nucleic Acids Res, 1980, 8: 4321-4325. doi: 10.1093/nar/8.19.4321 pmid: 7433111
[27]	Tamura K, Peterson D, Peterson N, Stecher G, Nei M, Kumar S. MEGA5: Molecular evolutionary genetics analysis using maximum likelihood, evolutionary distance, and maximum parsimony methods. Mol Biol Evol, 2011, 28: 2731-2739. doi: 10.1093/molbev/msr121 pmid: 21546353
[28]	Liu K J, Muse S V. PowerMarker: an integrated analysis environment for genetic marker analysis. Bioinformatics, 2005, 21: 2128-2129. doi: 10.1093/bioinformatics/bti282 pmid: 15705655
[29]	Yeh F C, Boyle T J B. Population genetic analysis of co-dominant and dominant markers and quantitative traits. Belg J Bot, 1997, 129-157.
[30]	王舒婷, 何杰丽, 石甜甜, 陈凌, 王海岗, 王瑞云, 乔治军. 利用微卫星标记分析山西糜子的遗传多样性. 植物遗传资源学报, 2019, 20: 69-78. doi: 10.13430/j.cnki.jpgr.20180718001
	Wang S T, He J L, Shi T T, Chen L, Wang H G, Wang R Y, Qiao Z J. Genetic diversity analysis of broomcorn millet (Panicum miliaceum L.) of Shanxi province using microsatellite markers. J Plant Genet Resour, 2019, 20: 69-78 (in Chinese with English abstract).
[31]	Schuelke M. An economic method for the fluorescent labeling of PCR fragments. Nat Biotechnol, 2000, 18: 233-234. doi: 10.1038/72708 pmid: 10657137
[32]	郝晨阳, 王兰芬, 贾继增, 董玉琛, 张学勇. SSR 荧光标记和银染技术的比较分析. 作物学报, 2005, 31: 144-149.
	Hao C Y, Wang L F, Jia J Z, Dong Y C, Zhang X Y. Comparison of fluorescence and silver-staining detection systems of microsatellite markers. Acta Agron Sin, 2005, 31: 144-149 (in Chinese with English abstract).
[33]	陈小红, 何杰丽, 石甜甜, 邵欢欢, 王海岗, 陈凌, 高志军, 王瑞云, 乔治军. 基于转录组测序开发糜子SSR标记. 中国农业科学, 2020, 53: 1940-1949. doi: 10.3864/j.issn.0578-1752.2020.10.002
	Chen X H, He J L, Shi T T, Shao H H, Wang H G, Chen L, Gao Z J, Wang R Y, Qiao Z J. Developing SSR markers of proso millet based on transcriptome sequencing. Sci Agric Sin, 2020, 53: 1940-1949 (in Chinese with English abstract). doi: 10.3864/j.issn.0578-1752.2020.10.002
[34]	王宇卓, 林元香, 薛亚鹏, 段政勇, 王晓丹, 陈凌, 曹晓宁, 王瑞云, 乔治军. 山西糜子核心种质分子身份证构建. 植物学报, 2023, 58: 159-168. doi: 10.11983/CBB22188
	Wang Y Z, Lin Y X, Xue Y P, Duan Z Y, Wang X D, Chen L, Cao X N, Wang R Y, Qiao Z J. Construction of molecular ID card of core germplasm of hog millet (Panicum miliaceum) in Shanxi. Bull Bot, 2023, 58: 159-168 (in Chinese with English abstract).
[35]	薛延桃, 陆平, 乔治军, 刘敏轩, 王瑞云. 基于SSR标记的黍稷种质资源遗传多样性及亲缘关系研究. 中国农业科学, 2018, 51: 2846-2859. doi: 10.3864/j.issn.0578-1752.2018.15.002
	Xue Y T, Lu P, Qiao Z J, Liu M X, Wang R Y. Genetic diversity and genetic relationship of broomcorn millet (Panicum miliaceum L.) germplasm based on SSR markers. Sci Agric Sin, 2018, 51: 2846-2859 (in Chinese with English abstract).
[36]	陈小红, 林元香, 王倩, 丁敏, 王海岗, 陈凌, 高志军, 王瑞云, 乔治军. 基于高基元SSR构建黍稷种质资源的分子身份证. 作物学报, 2022, 48: 908-919. doi: 10.3724/SP.J.1006.2022.14034
	Chen X H, Lin Y X, Wang Q, Ding M, Wang H G, Chen L, Wang R Y, Qiao Z J. Development of DNA molecular ID card in hog millet germplasm based on high motif SSR. Acta Agron Sin, 2022, 48: 908-919 (in Chinese with English abstract).
[37]	薛延桃, 陆平, 史梦莎, 孙昊月, 刘敏轩, 王瑞云. 新疆、甘肃黍稷资源的遗传多样性与群体遗传结构研究. 作物学报, 2019, 45: 1511-1521. doi: 10.3724/SP.J.1006.2019.84174
	Xue Y T, Lu P, Shi M S, Sun H Y, Liu M X, Wang R Y. Genetic diversity and population genetic structure of broomcorn millet accessions in Xinjiang and Gansu. Acta Agron Sin, 2019, 45: 1511-1521 (in Chinese with English abstract).
[38]	王倩, 张立媛, 许月, 李海, 刘少雄, 薛亚鹏, 陆平, 王瑞云, 刘敏轩. 黍稷高基元EST-SSR标记开发及200份核心种质资源遗传多样性分析. 作物学报, 2023, 49: 2308-2318. doi: 10.3724/SP.J.1006.2023.24201
	Wang Q, Zhang L Y, Xu Y, Li H, Liu S X, Xue Y P, Lu P, Wang R Y, Liu M X. High motif EST-SSR markers development and genetic diversity evaluation for 200 core germplasms in proso millet. Acta Agron Sin, 2023, 49: 2308-2318 (in Chinese with English abstract). doi: 10.3724/SP.J.1006.2023.24201
[39]	Shi J P, Ma X X, Zhang J H, Zhou Y S, Liu M X, Huang L L, Sun S L, Zhang X B, Gao X, Zhan W, Li P H, Wang L, Zhao H M. Chromosome conformation capture resolved near complete genome assembly of broomcorn millet. Nat Commun, 2019, 10: 464. doi: 10.1038/s41467-018-07876-6 pmid: 30683940
[40]	Zou C S, Li L T, Miki D, Li D L, Tang Q M, Xiao L H, Rajput S, Deng P, Peng L, Jia W, Huang R, Zhang M L, Sun Y D, Hu J M, Fu X, Schnable P S, Chang Y X, Li F, Zhang H, Feng B L, Zhu X G, Liu R Y, Schnable J C, Zhu J K, Zhang H. The genome of broomcorn millet. Nat Commun, 2019, 10: 436. doi: 10.1038/s41467-019-08409-5 pmid: 30683860
[41]	王瑞云. 糜子遗传多样性及进化研究进展. 北京: 中国农业出版社, 2017.
	Wang R Y. Genetic Diversity and Evolution Advancement in Common Millet (Panicum miliaceum L.). Beijing: China Agriculture Press, 2017 (in Chinese with English abstract).

Metrics

Viewed

Full text

Abstract

Cited

Shared

Discussed

标记名称 Name	正向引物 Forward primer (5′-3′)	反向引物 Reverse primer (5′-3′)	退火温度 T_m (℃)	重复基元 Repeat motif
RYW3	GGAGGCGTGACAATAAAAC	GGCGTGAGGTGTTGTTTTT	48.90	(CTGCAA)5
RYW6	AGCCGATTTGCTGTGGAGT	CTGCCTCCGATGAGTTGGT	52.15	(ACACC)5
RYW8	GGGTCAGAGAATACACAGCG	GTAGGGAAGGAGAAGTGGGT	55.90	(AATAG)5
RYW28	CCAAGGCTGAGCAGAAAGAT	ACAAGGTGAAACCCGAAGC	55.40	(AGGC)5
RYW37	CATTCCGTTCCTTGTCTTCC	CAGTCTCACTCCTGCGATGT	52.80	(GCGAT)5
RYW40	TGCTCTTCGGCTCTTCTCC	ATCAGCTCATCGTGACCCC	53.20	(CAGC)6
RYW42	AGACACCCTGGGCAACATC	CTGGACTGGGCTTCGTTCT	57.80	(GGCT)5
RYW43	GGAGATGCTTGCTTGGTTG	CAGGAATCGCAAGGAACAG	54.00	(GGAG)5
RYW124	CCACAAAGCGAAAGAACC	GAGTCCAAGCCCTCATCC	53.65	(TCG)6
RYW125	TTGACGACGACTGTGTGC	TGTTGGTGGAGTTGAGGAC	55.10	(GGC)5

引物 Primer	观测等位变异 Observed number of alleles (Na)	有效等位基因 Ne	Shannon 多样性指数 Shannon’s diversity index (I)	观测杂合度 Observed heterozygosity (Ho)	期望杂合度 Expected heterozygosity (He)	Nei’s 基因多样性指数 Nei’s expected heterozygosity (Nei)	多态性信息含量 Polymorphism information content (PIC)
RYW3	5.0000	3.0718	1.2458	0.9646	0.6758	0.6745	0.6563
RYW40	11.0000	2.3316	1.3271	0.5185	0.5724	0.5711	0.7759
RYW37	8.0000	4.3333	1.5838	0.8906	0.7707	0.7692	0.8884
RYW8	14.0000	7.9590	2.2267	0.9055	0.8761	0.8744	0.9590
RYW124	10.0000	5.8493	1.8208	0.9964	0.8306	0.8290	0.9019
RYW42	19.0000	11.0071	2.6113	0.9780	0.9108	0.9091	0.9602
RYW28	9.0000	3.0417	1.4129	0.6579	0.6730	0.6712	0.8030
RYW6	25.0000	8.6906	2.6568	0.8267	0.8879	0.8849	0.7794
RYW125	11.0000	4.3093	1.6811	0.9560	0.7694	0.7679	0.8245
RYW43	13.0000	5.4167	1.9652	0.9802	0.8170	0.8154	0.8504
平均Mean	12.5000	5.6010	1.8532	0.8674	0.7784	0.7767	0.8399
St.Dev	5.7783	2.8154	0.5072	0.1592	0.1093	0.1090	—

引物/组合 Primer/combination	区分种质数 Number of germplasm distinguished	区分率 Rate of discrimination (%)
RYW6	43	15.69
RYW125	14	5.11
RYW43	13	4.74
RYW3	3	1.09
RYW40	21	7.66
RYW37	5	1.82
RYW42	15	5.47
RYW8	25	9.12
RYW124	8	2.92
RYW28	4	1.46
RYW6+RYW125	91	33.21
RYW6+RYW125+RYW43	115	41.97
RYW6+RYW125+RYW43+RYW3	131	47.81
RYW6+RYW125+RYW43+RYW3+RYW40	159	58.03
RYW6+RYW125+RYW43+RYW3+RYW40+RYW37	211	77.00
RYW6+RYW125+RYW43+RYW3+RYW40+RYW37+RYW42	251	91.61
RYW6+RYW125+RYW43+RYW3+RYW40+RYW37+RYW42+RYW8	265	96.72
RYW6+RYW125+RYW43+RYW3+RYW40+RYW37+RYW42+RYW8+RYW124	266	97.08
RYW6+RYW125+RYW43+RYW3+RYW40+RYW37+RYW42+RYW8+RYW124+RYW28	274	100.00

基于荧光SSR的宁夏糜子DNA分子身份证的构建

Construction of DNA molecular identity card of proso millet in Ningxia based on fluorescent SSR

RichHTML

PDF

摘要/Abstract

引用本文

使用本文

图/表 13

参考文献 41

相关文章 15

Metrics

本文评价

推荐阅读 0

关于本刊

在线期刊

作者中心

相关单位

联系我们

材料编号 Serial number	统一编号 Unicode	名称 Name	来源 Source	备注 Remark
1	7252	红糜子Hongmeizi	宁夏Ningxia	地方品种 Landrace
2	0703	平罗黄粒黍Pingluohuanglishu	宁夏平罗Pingluo, Ningxia
3	2545	1077	宁夏贺兰Helan, Ningxia
4	0708	花软糜子Huaruanmeizi	宁夏盐池Yanchi, Ningxia
5	6807	鸡蛋白Jidanbai	宁夏海原Haiyuan, Ningxia
6	2620	古城红糜子Guchenggongmeizi	宁夏固原Guyuan, Ningxia

[1]	丁艺冰, 辛旭霞, 冯智尊, 郭娟, 曹越, 陈喜明, 王晓丹, 曹晓宁, SANTRA Dipak K, 陈凌, 乔治军, 王瑞云. 东北春播区糜子核心种质的荧光微卫星标记鉴定[J]. 作物学报, 2024, 50(7): 1728-1739.
[2]	丁艺冰, 辛旭霞, 冯智尊, 曹越, 郭娟, Dipak K SANTRA, 王瑞云, 陈喜明. 东北春播区糜子核心种质及其DNA分子身份证构建[J]. 作物学报, 2024, 50(5): 1181-1192.
[3]	郭娟, 辛旭霞, 冯智尊, 曹越, 王晓丹, 曹晓宁, 陈凌, 乔治军, 王瑞云. 基于SSR的陕西糜子种质资源的分子鉴定[J]. 作物学报, 2024, 50(10): 2643-2653.
[4]	丁敏, 段政勇, 王宇卓, 薛亚鹏, 王海岗, 陈凌, 王瑞云, 乔治军. 糜子GBSSI基因功能标记的开发与验证[J]. 作物学报, 2023, 49(3): 703-718.
[5]	谢呈辉, 马海曌, 许宏伟, 徐郗阳, 阮国兵, 郭峥岩, 宁永培, 冯永忠, 杨改河, 任广鑫. 施氮量对宁夏引黄灌区麦后复种糜子生长、产量及氮素利用的影响[J]. 作物学报, 2022, 48(2): 463-477.
[6]	郭艳春, 张力岚, 陈思远, 祁建民, 方平平, 陶爱芬, 张列梅, 张立武. 黄麻应用核心种质的DNA分子身份证构建[J]. 作物学报, 2021, 47(1): 80-93.
[7]	周向阳,赵亮,狄佳春,陈旭升. 2个抗虫棉的外源Bt基因分子鉴定及其染色体定位[J]. 作物学报, 2019, 45(9): 1440-1445.
[8]	党科,宫香伟,陈光华,赵冠,刘龙,王洪露,杨璞,冯佰利. 糜子绿豆带状种植下糜子的氮素积累、代谢及产量变化[J]. 作物学报, 2019, 45(12): 1880-1890.
[9]	杨文娟,张艳欣,王林海,魏鑫,黎冬华,高媛,刘盼,张秀荣. 一个芝麻应用核心种质的DNA分子身份证构建[J]. 作物学报, 2018, 44(7): 1010-1020.
[10]	陈旭升,狄佳春,周向阳,赵亮. 陆地棉高秆突变体的激素变化与Tp基因的染色体定位[J]. 作物学报, 2017, 43(06): 935-939.
[11]	王瑞云,季煦,陆平,刘敏轩,许月,王纶,王海岗,乔治军. 利用荧光SSR分析中国糜子遗传多样性[J]. 作物学报, 2017, 43(04): 530-548.
[12]	周瑜,苏旺,王舰,屈洋,高小丽,杨璞,冯佰利. 不同覆盖方式和施氮量对糜子光合特性及产量性状的影响[J]. 作物学报, 2016, 42(06): 873-885.
[13]	丁检，吴双，蔡彩平，郭旺珍*. 棉花溶血磷酸酯酰转移酶(LPAT)家族基因的发掘和表达分析[J]. 作物学报, 2015, 41(03): 378-385.
[14]	乔麟轶,李欣,畅志坚,张晓军,詹海仙,郭慧娟,李建波,常建忠,郑军. 粗山羊草全基因组Aux/IAA基因家族的分离、染色体定位及序列分析[J]. 作物学报, 2014, 40(12): 2059-2069.
[15]	陆徐忠,倪金龙,李莉,汪秀峰,马卉,张小娟,杨剑波. 利用SSR分子指纹和商品信息构建水稻品种身份证[J]. 作物学报, 2014, 40(05): 823-829.