中国三系杂交稻恢复系资源的遗传多样性

作物学报 ›› 2007, Vol. 33 ›› Issue (10): 1587-1595.

中国三系杂交稻恢复系资源的遗传多样性

丁立^1,3;齐永文²;张洪亮²;张冬玲²;王美兴²;李自超²;汤圣祥^1,*

1 中国水稻研究所国家水稻生物学重点实验室，浙江杭州310006；2 中国农业大学农业部作物基因组学与遗传改良重点实验室/北京市作物遗传改良实验室，北京100094；3 中国农业科学院作物科学研究所，北京100081

收稿日期:2007-01-21 修回日期:1900-01-01 出版日期:2007-10-12 网络出版日期:2007-10-12
通讯作者: 汤圣祥

Genetic Diversity of Restorers of Three-Line Hybrid Rice in China

DING Li ^1,3;QI Yong-Wen ²;ZHANG Dong-Ling ²;Wang Mei-Xing ²;LI Zi-Chao ²;TANG Sheng-Xiang^1,*

1 State Key Laboratory of Rice Biology, China National Rice Research Institute, Hangzhou 310006, Zhejiang; 2 Key Laboratory of Crop Genome and Genetic Improvement/Key Laboratory of Beijing Crop Genetic Improvement, China Agricultural University; 3 Institute of Crop Sciences, Chinese Academy of Agricultural Sciences, Beijing 100081, China

Received:2007-01-21 Revised:1900-01-01 Published:2007-10-12 Published online:2007-10-12
Contact: TANG Sheng-Xiang1

摘要/Abstract

摘要：

以来自全国6个稻区16个省（市、自治区）及外引的128份三系杂交稻恢复系为试验材料，采用均匀分布于水稻12条染色体的36对SSR引物及9个表型性状标记进行遗传多样性分析。根据SSR标记检测结果，基于遗传距离的Neibor-jointing聚类显示128份恢复系可分为6个类群，籼亚种（83.2%）和野败型（82.6%）大多数分布于类群1和类群2，粳亚种（81.5%）和BT型（78.6%）大部分聚在类群3，红莲型（75%）相对集中于类群1。系谱分析显示，含有IR24血缘的材料分布于4个聚类群，而明恢63及其衍生系则分布非常集中。36对SSR引物在128份恢复系中共检测出281个等位变异，平均每个位点8.0个，平均遗传多样性指数(He)为0.6190，其中籼亚种（0.5770）略高于粳亚种（0.5656），但未达显著水平。按恢保类型，BT型(0.5816)>野败型(0.5705)>红莲型(0.4989)，野败型与BT型无显著差异，但二者均显著高于红莲型。按不同地理来源，He呈现南方稻区大于北方稻区，以华中双单季稻稻区(0.6057)最高，与其他稻区差异极显著差异；其次为西南高原单双季稻稻区(0.5326)；华北单季稻稻区(0.3902)最小，与其他稻区也差异极显著。表型性状检测的标记表明，平均Shannon-Weiner多样性指数为1.3980，其中籼、粳亚种分别为1.3746和1.3789，未达显著差异；不同恢保类型表现为BT型(1.4026)>野败型(1.3567)>红莲型(1.1732)。表型性状与SSR标记结果表现出一致性，相关系数分别为0.9981*（按亚种）、0.9418（按恢保类型）和0.8835**（按稻区）。

关键词: 三系杂交稻, 恢复系, 遗传多样性

Abstract:

Restorer line is one of the key factors in hybrid rice production, and the knowledge about its genetic diversity may facilitate rice heterosis application. The restorer resources of three-line hybrid rice in China are rich in quantity, but the overall knowledge of these resources are less, although some results regarding the genetic diversity of restorers with a small quantity of materials have been reported since 1990s. To understand the genetic diversity of the restorers of three-line hybrid rice at a whole resource level, we collected 128 accessions of restorer line from the 6 rice eco-regions and 16 provinces in China in the present study, among which 101 were indica and 27 japonica. The materials could be divided into three types, WA (92), HL (8), and BT (28) types respectively, based on sterile-and-restoring relation. Thirty six pairs of microsatellite (SSR) markers covering the 12 rice chromosomes evenly and 9 phenotypic traits including days of heading, growth duration, plant height, spike weight, spike length, grains per spike, 1 000-grain weight, grain length, and grain length/width ratio were used to reveal the genetic diversity of the materials. The neighbor-jointing cluster diagram based on SSR results showed that the 128 accessions were distributed in 6 clusters, including 44, 42, 28, 3, 7, and 5 accessions in 1 to 6 clusters, respectively. Most of the indica (83.2%) and WA type (82.6%) were distributed in clusters 1 and 2, the japonica (81.5%) and BT type (78.6%) in cluster 3, and HL type (75%) in cluster 1. Materials of IR 24 progeny distributed in 4 clusters, while those of Minghui 63 progeny were all in cluster 1. In the 128 accessions, a total of 281 alleles were found with an average of 8.0 per locus by SSR markers. The alleles were 265 and 186 in indica and japonica subspecies with the average of 7.4 and 5.2 per locus, respectively. The average genetic diversity index (He) of total materials was 0.6190, in which indica (0.5770)>japonica (0.5656) with no significant difference (P>0.05), BT (0.5816)>WA (0.5705)>HL (0.4989) types with no significance (P>0.05) between BT and WA types. The He values lined as eco-region Ⅱ>eco-region Ⅲ>eco-region Ⅵ>eco-region Ⅰ>eco-region Ⅴ> eco-region Ⅳ, in which both eco-regions Ⅱ and Ⅳ were significant (P<0.01) with others. Two Hunan (0.5615) and Sichuan (0.5236), which had comparative sample size, showed significant (P<0.01) difference on He value. Detected by the 9 phenotypic traits, the Shannon-weiner indices (I) were 1.3746 (indica) and 1.3789 (japonica), BT (1.4026)>WA (1.3567)>HL (1.1732) types, rice region Ⅱ (1.3921)>region Ⅲ (1.1209)>region Ⅴ (1.0570)>region Ⅰ (0.9954)>region Ⅵ (0.7818)>region Ⅳ (0.7411). Phenotypic and SSR data showed similar results with the correlation coefficient of 0.9981* (by subspecies), 0.9418 (by sterile-restoring relation), and 0.8835** (by rice eco-regions), respectively, indicating the accordant evolution between genotype and phenotype.

Key words: Three-line hybrid rice, Restorer line, Genetic diversity

丁立;齐永文;张洪亮;张冬玲;王美兴;李自超;汤圣祥. 中国三系杂交稻恢复系资源的遗传多样性[J]. 作物学报, 2007, 33(10): 1587-1595.

DING Li ;QI Yong-Wen ;ZHANG Dong-Ling ;Wang Mei-Xing ;LI Zi-Chao ;TANG Sheng-Xiang;. Genetic Diversity of Restorers of Three-Line Hybrid Rice in China[J]. Acta Agron Sin, 2007, 33(10): 1587-1595.

参考文献

相关文章 15

[1]	肖颖妮, 于永涛, 谢利华, 祁喜涛, 李春艳, 文天祥, 李高科, 胡建广. 基于SNP标记揭示中国鲜食玉米品种的遗传多样性[J]. 作物学报, 2022, 48(6): 1301-1311.
[2]	王琰琰, 王俊, 刘国祥, 钟秋, 张华述, 骆铮珍, 陈志华, 戴培刚, 佟英, 李媛, 蒋勋, 张兴伟, 杨爱国. 基于SSR标记的雪茄烟种质资源指纹图谱库的构建及遗传多样性分析[J]. 作物学报, 2021, 47(7): 1259-1274.
[3]	李倩, Nadil Shah, 周元委, 侯照科, 龚建芳, 刘珏, 尚政伟, 张磊, 战宗祥, 常海滨, 傅廷栋, 朴钟云, 张椿雨. 抗根肿病甘蓝型油菜新品种华油杂62R的选育[J]. 作物学报, 2021, 47(2): 210-223.
[4]	刘少荣, 杨扬, 田红丽, 易红梅, 王璐, 康定明, 范亚明, 任洁, 江彬, 葛建镕, 成广雷, 王凤格. 基于农艺及品质性状与SSR标记的青贮玉米品种遗传多样性分析[J]. 作物学报, 2021, 47(12): 2362-2370.
[5]	孙倩, 邹枚伶, 张辰笈, 江思容, Eder Jorge de Oliveira, 张圣奎, 夏志强, 王文泉, 李有志. 基于SNP和InDel标记的巴西木薯遗传多样性与群体遗传结构分析[J]. 作物学报, 2021, 47(1): 42-49.
[6]	赵孟良,王丽慧,任延靖,孙雪梅,侯志强,杨世鹏,李莉,钟启文. 257份菊芋种质资源表型性状的遗传多样性[J]. 作物学报, 2020, 46(5): 712-724.
[7]	张红岩,杨涛,刘荣,晋芳,张力科,于海天,胡锦国,杨峰,王栋,何玉华,宗绪晓. 利用EST-SSR标记评价羽扇豆属(Lupinus L.)遗传多样性[J]. 作物学报, 2020, 46(3): 330-340.
[8]	刘易科,朱展望,陈泠,邹娟,佟汉文,朱光,何伟杰,张宇庆,高春保. 基于SNP标记揭示我国小麦品种(系)的遗传多样性[J]. 作物学报, 2020, 46(02): 307-314.
[9]	叶卫军,陈圣男,杨勇,张丽亚,田东丰,张磊,周斌. 绿豆SSR标记的开发及遗传多样性分析[J]. 作物学报, 2019, 45(8): 1176-1188.
[10]	吴迷,汪念,沈超,黄聪,温天旺,林忠旭. 基于重测序的陆地棉InDel标记开发与评价[J]. 作物学报, 2019, 45(2): 196-203.
[11]	卢媛,艾为大,韩晴,王义发,李宏杨,瞿玉玑,施标,沈雪芳. 糯玉米自交系SSR标记遗传多样性及群体遗传结构分析[J]. 作物学报, 2019, 45(2): 214-224.
[12]	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[J]. 作物学报, 2019, 45(10): 1511-1521.
[13]	刘洪,徐振江,饶得花,鲁清,李少雄,刘海燕,陈小平,梁炫强,洪彦彬. 基于形态学性状和SSR标记的花生品种遗传多样性分析和特异性鉴定[J]. 作物学报, 2019, 45(1): 26-36.
[14]	白冬梅,薛云云,赵姣姣,黄莉,田跃霞,权宝全,姜慧芳. 山西花生地方品种芽期耐寒性鉴定及SSR遗传多样性[J]. 作物学报, 2018, 44(10): 1459-1467.
[15]	魏中艳, 李慧慧, 李骏, YasirA.Gamar, 马岩松, 邱丽娟. 应用SNP精准鉴定大豆种质及构建可扫描身份证[J]. 作物学报, 2018, 44(03): 315-323.

Metrics

Viewed

Full text

Abstract

Cited

Shared

Discussed