Dissecting the genetic basis of maize deep-sowing tolerance by combining association mapping and gene expression analysis
文献类型: 外文期刊
第一作者: Yang Yue
作者: Yang Yue;Ma Yu-ting;Du Wan-li;Yang Yue;Ma Yu-ting;Liu Yang-yang;Lyle, Demar;Li Dong-dong;Wang Ping-xi;Xu Jia-wei;Zhen Si-han;Lu Jia-wen;Cui Yu;Fu Jun-jie;Zhang Hong-wei;Liu Yang-yang;Wang Jian-hua;Peng Yun-ling
作者机构:
关键词: maize; mesocotyl length; association mapping; differentially expressed gene; SNF1 kinase interactor-like protein
期刊名称:JOURNAL OF INTEGRATIVE AGRICULTURE ( 影响因子:4.384; 五年影响因子:4.021 )
ISSN: 2095-3119
年卷期: 2022 年 21 卷 5 期
页码:
收录情况: SCI
摘要: Deep-sowing is an important method for avoiding drought stress in crop species, including maize. Identifying candidate genes is the groundwork for investigating the molecular mechanism underlying maize deep-sowing tolerance. This study evaluated four traits (mesocotyl length at 10 and 20 cm planting depths and seedling emergence rate on days 6 and 12) related to deep-sowing tolerance using a large maize population containing 386 inbred lines genotyped with 0.5 million high-quality single nucleotide polymorphisms (SNPs). The genome-wide association study detected that 273 SNPs were in linkage disequilibrium (LD) with the genetic basis of maize deep-sowing tolerance. The RNA-sequencing analysis identified 1 944 and 2 098 differentially expressed genes (DEGs) in two comparisons, which shared 281 DEGs. By comparing the genomic locations of the 273 SNPs with those of the 281 DEGs, we identified seven candidate genes, of which GRMZM2G119769 encoded a sucrose non-fermenting 1 kinase interactor-like protein. GRMZM2G119769 was selected as the candidate gene because its homologs in other plants were related to organ length, auxin, or light response. Candidate gene association mapping revealed that natural variations in GRMZM2G119769 were related to phenotypic variations in maize mesocotyl length. Gene expression of GRMZM2G119769 was higher in deep-sowing tolerant inbred lines. These results suggest that GRMZM2G119769 is the most likely candidate gene. This study provides information on the deep-sowing tolerance of maize germplasms and identifies candidate genes, which would be useful for further research on maize deep-sowing tolerance.
分类号:
- 相关文献
作者其他论文 更多>>
-
Effects of four drying methods on Ganoderma lucidum volatile organic compounds analyzed via headspace solid-phase microextraction and comprehensive two-dimensional chromatography-time-of-flight mass spectrometry
作者:Liu Yi-jun;Liu Yang-yang;Chen Fei;Lin Li-jing;Liu Yi-jun;Liu Yang-yang;Chen Fei;Lin Li-jing;Qian Yang-yang;Shu Bing;Tu Xing-hao;Ouyang Hong-jun;Li Yahui;Tan Ge;Yu Zi-wei
关键词:Ganoderma lucidum; Two-dimensional chromatography-time-of-flight mass spectrometry; Headspace solid-phase microextraction; Drying methods; Volatile organic compounds
-
Enhancing genomic selection by fitting large-effect SNPs as fixed effects and a genotype-by-environment effect using a maize BC1F3:4 population
作者:Li, Dongdong;Xu, Jialiang;Zhang, Hongwei;Wang, Guogying;Xu, Zhenxiang;Gu, Riliang;Wang, Pingxi;Lyle, Demar;Li, Dongdong
关键词:
-
Genetic relatedness and the ratio of subpopulation-common alleles are related in genomic prediction across structured subpopulations in maize
作者:Li, Dongdong;Wang, Pingxi;Fu, Junjie;Wang, Guoying;Zhang, Hongwei;Gu, Riliang;Xu, Zhenxiang;Lyle, Demar;Peng, Yunling
关键词:genetic relatedness; genomic best linear unbiased prediction; genomic prediction; prediction accuracy; subpopulation-common allele
-
Quantitative trait locus mapping for seed artificial aging traits using an F-2:3 population and a recombinant inbred line population crossed from two highly related maize inbreds
作者:Liu, Yanan;Li, Xuhui;Wang, Feng;Lyle, Demar;Sun, Lianjun;Wang, Jianhua;Li, Li;Gu, Riliang;Zhang, Hongwei;Wang, Guoying
关键词:artificial aging; longevity; maize; quantitative trait locus; seed vigour
-
Bulk pollen pollination in maize for efficient construction of introgression populations with high genome coverage
作者:Wang, Pingxi;Lyle, Demar;Wang, Jianhua;Wang, Pingxi;Zhang, Hongwei;Li, Dongdong;Wang, Guoying;Pan, Qingchun
关键词:bulk pollen pollination; genome coverage; introgression population; quantitative trait locus
-
Mapping of qTGW1.1, a Quantitative Trait Locus for 1000-Grain Weight in Rice (Oryza sativa)
作者:Zhang Hong-wei;Chen Yu-yu;Chen Jun-yu;Zhu Yu-jun;Huang De-run;Fan Ye-yang;Zhuang Jie-yun
关键词:1000-grain weight;minor effect;quantitative trait locus;rice (Oryza sativa L.)
-
Overexpression of a maize SNF-related protein kinase gene, ZmSnRK2.11, reduces salt and drought tolerance in Arabidopsis
作者:Zhang Fan;Wang Jian-Hua;Zhang Fan;Chen Xun-Ji;Zheng Jun;Chen Xun-Ji
关键词:maize;salt and drought stresses;ZmSnRK2.11;SnRK2
