利用玉米-大刍草群体进行QTL定位对三个玉米苞叶性状进行遗传分析。

Genetic analysis of three maize husk traits by QTL mapping in a maize-teosinte population.

作者信息

Zhang Xiaolei, Lu Ming, Xia Aiai, Xu Tao, Cui Zhenhai, Zhang Ruiying, Liu Wenguo, He Yan

机构信息

Quality and Safety Institute of Agricultural Products, Heilongjiang Academy of Agricultural Sciences, Harbin, 150086, China.

Maize Research Institute, Jilin Academy of Agricultural Sciences, Gongzhuling, 136100, China.

出版信息

BMC Genomics. 2021 May 26;22(1):386. doi: 10.1186/s12864-021-07723-x.

DOI:10.1186/s12864-021-07723-x

PMID:34034669

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8152318/

Abstract

BACKGROUND

The maize husk consists of numerous leafy layers and plays vital roles in protecting the ear from pathogen infection and dehydration. Teosinte, the wild ancestor of maize, has about three layers of small husk outer covering the ear. Although several quantitative trait loci (QTL) underlying husk morphology variation have been reported, the genetic basis of husk traits between teosinte and maize remains unclear.

RESULTS

A linkage population including 191 BCF inbred lines generated from the maize line Mo17 and the teosinte line X26-4 was used to identify QTL associated with three husk traits: i.e., husk length (HL), husk width (HW) and the number of husk layers (HN). The best linear unbiased predictor (BLUP) depicted wide phenotypic variation and high heritability of all three traits. The HL exhibited greater correlation with HW than HN. A total of 4 QTLs were identified including 1, 1, 2, which are associated with HL, HW and HN, respectively. The proportion of phenotypic variation explained by these QTLs was 9.6, 8.9 and 8.1% for HL, HN and HW, respectively.

CONCLUSIONS

The QTLs identified in this study will pave a path to explore candidate genes regulating husk growth and development, and benefit the molecular breeding program based on molecular marker-assisted selection to cultivate maize varieties with an ideal husk morphology.

摘要

背景

玉米果穗苞叶由许多叶状层组成，在保护果穗免受病原体感染和脱水方面发挥着至关重要的作用。玉米的野生祖先大刍草，其果穗外约有三层小的苞叶。尽管已经报道了一些控制苞叶形态变异的数量性状位点（QTL），但大刍草和玉米之间苞叶性状的遗传基础仍不清楚。

结果

利用由玉米自交系Mo17和大刍草自交系X26 - 4构建的包含191个回交重组自交系的连锁群体，鉴定与三个苞叶性状相关的QTL，即苞叶长度（HL）、苞叶宽度（HW）和苞叶层数（HN）。最佳线性无偏预测值（BLUP）显示这三个性状均具有广泛的表型变异和高遗传力。HL与HW的相关性大于与HN的相关性。共鉴定出4个QTL，分别与HL、HW和HN相关，数量分别为1个、1个和2个。这些QTL分别解释了HL、HN和HW表型变异的9.6%、8.9%和8.1%。

结论

本研究鉴定出的QTL将为探索调控苞叶生长发育的候选基因铺平道路，并有利于基于分子标记辅助选择的分子育种计划，以培育具有理想苞叶形态的玉米品种。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/763f/8152318/4082d755fca8/12864_2021_7723_Fig1_HTML.jpg

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利用玉米-大刍草群体进行QTL定位对三个玉米苞叶性状进行遗传分析。

Genetic analysis of three maize husk traits by QTL mapping in a maize-teosinte population.

作者信息

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSIONS

背景

结果

结论

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