Genome-Wide Association Study Reveals Marker-Trait Associations for Heat-Stress Tolerance in Sweet Corn
文献类型: 外文期刊
第一作者: Yang, Quannv
作者: Yang, Quannv;Nian, Hai;Yang, Quannv;Wang, Yunbo;Guo, Zifeng;Xu, Yunbi;Zhang, Jianan;Xu, Yunbi;Xu, Yunbi
作者机构:
关键词: heat resistance; GWAS; associated SNPs; candidate genes; hsp
期刊名称:AGRONOMY-BASEL ( 影响因子:3.4; 五年影响因子:3.8 )
ISSN:
年卷期: 2024 年 14 卷 9 期
页码:
收录情况: SCI
摘要: Sweet corn (Zea mays var. rugosa Bonaf.) is a crop with a high economic benefit in tropical and subtropical regions. Heat tolerance analysis and heat-tolerant gene mining are of great significance for breeding heat-resistant varieties. By combining improved genotyping using targeted sequencing (GBTS) with liquid chip (LC) technology, a high-density marker array containing 40 K multiple single polynucleotide polymorphisms (mSNPs) was used to genotype 376 sweet corn inbred lines and their heat-stress tolerance was evaluated in the spring and summer of 2019. In general, plant height, ear height and the number of lateral branches at the first level of the male flowers were reduced by 24.0%, 36.3%, and 19.8%, respectively. High temperatures in the summer accelerated the growth process of the sweet corn, shortening the days to shedding pollen by an average of 21.6% compared to the spring. A genome-wide association study (GWAS) identified 85 significant SNPs distributed on 10 chromosomes. Phenotypes in the spring and summer were associated with the 21 and 15 loci, respectively, and significant phenotypic differences between the two seasons caused by the temperature change were associated with the 49 SNP loci. The seed setting rate (SSR) was more susceptible to heat stress. An annotation analysis identified six candidate genes, which are either heat shock transcription factors (Hsfs) or heat shock proteins (Hsps) in Arabidopsis and rice (Oryza sativa), and these candidate genes were directly and indirectly involved in the heat-resistant response in the sweet corn. The current findings provide genetic resources for improving the heat-stress tolerance of sweet corn by molecular breeding.
分类号:
- 相关文献
作者其他论文 更多>>
-
Genetic diversity and population structure of sweet corn in China as revealed by mSNP
作者:Yang, Quannv;Wang, Yunbo;Guo, Zifeng;Xu, Yunbi;Xu, Yunbi;Xu, Yunbi
关键词:Sweet corn; Genetic diversity; Population structure; Genotyping by target sequencing
-
Precipitation-driven biomass reallocation in a desert steppe: Unraveling adaptive strategies through a 6-year manipulative experiment
作者:Cui, Yuanyuan;Bai, Liu;Hou, Dongjie;Wang, Zhongwu;Wang, Jing;Qu, Zhiqiang;Wang, Yunbo;Han, Guodong;Li, Zhiguo;Ren, Haiyan;Wang, Haiming
关键词:Precipitation amount; Adaptive strategies of plants; Biomass allocation; Plant diversity; Soil physical properties; Soil available nutrients
-
Optimization of commercial SNP arrays and the generation of a high-efficiency GenoBaits Peanut 10K panel
作者:Zhao, Yaran;Adedze, Y. M. Nevame;Dong, Jiahui;Zhang, Renxu;Zheng, Songan;Lan, Haofa;Liu, Song;Xu, Yanfen;Zhang, Jianan;Li, Yurong
关键词:SNP panels; Genotyping; Polymorphism; Genetic analysis; Peanut
-
QTL mapping of Fusarium ear rot resistance using genotyping by target sequencing (GBTS) in maize
作者:Meng, Bing;Tang, Jihua;Meng, Bing;Wang, Shanhong;Li, Wen-Xue;Guo, Zifeng
关键词:Maize; Fusarium ear rot; GBTS; QTL mapping
-
Leveraging Automated Machine Learning for Environmental Data-Driven Genetic Analysis and Genomic Prediction in Maize Hybrids
作者:He, Kunhui;Yu, Tingxi;Gao, Shang;Chen, Shoukun;Li, Liang;Zhang, Xuecai;Huang, Changling;Xu, Yunbi;Wang, Jiankang;Li, Xinhai;Li, Huihui;He, Kunhui;Yu, Tingxi;Gao, Shang;Chen, Shoukun;Zhang, Xuecai;Huang, Changling;Wang, Jiankang;Li, Huihui;Zhang, Xuecai;Hearne, Sarah;Prasanna, Boddupalli M.
关键词:environmental data; genetic analysis; genomic selection; genotype-by-environment interactions; machine learning
-
Development of a FER0.4K SNP array for genomic predication of Fusarium ear rot resistance in maize
作者:Zhang, Haoqiang;Ye, Wenchao;Han, Yuchen;Li, Huan;Zhou, Zijian;Chen, Jiafa;Wu, Jianyu;Wang, Zhao;Chen, Jiafa;Wu, Jianyu;Wang, Zhao;Li, Chunhui;Zhang, Xuecai;Zhang, Jianan
关键词:Phenotype prediction; Molecular breeding; Genomic selection; Maize
-
Dissection of genomic drivers of spike morphology changes in wheat by high-throughput phenotyping
作者:Shen, Kuocheng;Ye, Botao;Yu, Xuchang;Wang, Ziying;Wu, He;Zang, Yiming;Li, Jiaxin;Guo, Zifeng;Xu, Xiaowan;He, Zhonghu;Zhang, Xueyong;Hao, Chenyang;Hao, Yuanfeng;Yu, Rui;Shen, Peng;Wu, Tingting;Yin, Changbin;Zhang, Zhiliang;Kang, Lipeng;Xu, Song;Lu, Fei;Dong, Jing;Peng, Yanchun;Li, Junming;Lu, Fei;Shen, Kuocheng;Ye, Botao;Yu, Xuchang;Wang, Ziying;Wu, He;Zang, Yiming;Li, Jiaxin;Zhang, Zhiliang;Kang, Lipeng;Xu, Song;Lu, Fei;Guo, Zifeng;Han, Dejun;Wu, Jianhui;He, Zhonghu;Guo, Zifeng
关键词:
