玉米穗部性状及其一般配合力的关联分析
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河北农业大学农学院

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国家重点研发计划(2018YFD0300501)


Association Mapping of Ear-Related Traits and Their General Combining Ability in Maize
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College of Agronomy, Hebei Agricultural University

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National Key Research and Development Project(2018YFD0300501)

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    摘要:

    穗部性状是影响玉米产量的重要性状,一般配合力是评价玉米自交系利用价值的重要指标。为解析穗部性状及其一般配合力的遗传基础,本研究对248份玉米自交系组成的自然群体和以其中100份自交系为母本按照NCⅡ遗传交配设计与4个测验种(Mo17、昌7-2、E28和郑58)组配的400份F1杂交组合的穗部性状进行研究,并利用分布于全基因组的83057个SNP标记进行穗部性状及其一般配合力的关联分析。结果表明,穗长、穗粗2个穗部性状基因型间、环境间差异达极显著水平,其广义遗传率分别为81.22%和87.70%。母本间、父本间及不同杂交组合间穗长、穗粗差异均达极显著水平,在基因型方差中特殊配合力方差贡献率较大。利用2年2点4个环境下的数据分别进行关联分析,检测到34个性状SNP关联,利用BLUP值检测到7个性状SNP关联。这些性状SNP关联可解释的表型变异为0.01%~19.42%,其中有5个性状SNP关联的表型贡献率大于10%,未检测到穗部性状本身与一般配合力性状的相同SNP位点。基于该群体的LD衰减距离在显著关联SNP位点上下游各120 kb范围内进行候选基因搜素,共发现158个候选基因,推测可能候选基因涉及泛素代谢相关基因(GRMZM2G360374、GRMZM2G049568、GRMZM2G178120),β半乳糖苷酶(GRMZM2G178106),丝氨酸苏氨酸蛋白激酶(GRMZM2G127050),赖氨酸和组氨酸特异性转运体(GRMZM2G116004)。研究结果为解析玉米穗长和穗粗及其一般配合力的遗传基础和分子辅助选择育种提供了参考。

    Abstract:

    Ear-related traits have an important impact on maize yield and general combining ability (GCA) is an important indicator for assessing maize inbred lines. 248 inbred lines of maize and 400 F1 hybrids derived from combinations with 100 lines selected randomly from the 248 inbred lines as the female parents and four elite inbred lines (‘Mo17’, ‘Chang 7-2’, ‘E28’ and ‘Zheng 58’) as the testers according to the NCII genetic mating design were used to study the ear-related traits. The association analysis of ear-related traits and their GCA was performed using 83057 SNP markers. The results indicated that the ear-related traits were significantly different among the genotypes and the environments. The broad-sense heritability of ear length (EL) and ear diameter (ED) were 81.22% and 87.70%, respectively. Combining ability analysis indicated that there were significant differences among females, males and combinations for the two traits. The contribution rate of special combining ability was greater than general combining ability. 34 significant trait-SNP associations were identified using the data of 4 environments (2 locations in 2 years) respectively, and 7 significant trait-SNP associations were identified using the data of best linear unbiased prediction. Each trait-SNP association can explain phenotypic variation ranged from 0.01% to 19.42% and 5 of them had phenotypic variance explained value greater than 10%. The same SNPs of the ear-related traits and GCA were not identified simultaneously. Based on the LD decay distance, candidate genes were identified in the range of the 120 kb upstream and downstream of significantly associated SNP, and 158 genes were obtained. The putative candidate genes were involved in ubiquitin metabolism (GRMZM2G360374, GRMZM2G049568, GRMZM2G178120), β-galactosidase (GRMZM2G178106), serine/threonine-protein kinase (GRMZM2G127050), lysine and histidine specific transporter (GRMZM2G116004). The study provides a reference for the analysis of the genetic basis and molecular-assisted selection breeding of maize ear-related traits and general combining ability.

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引用本文

刘文童,监立强,郭晋杰,等.玉米穗部性状及其一般配合力的关联分析[J].植物遗传资源学报,2020,21(3):706-715.

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  • 收稿日期:2019-08-01
  • 最后修改日期:2020-03-17
  • 录用日期:2019-09-16
  • 在线发布日期: 2020-05-18
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