Identification and molecular marker analysis of PHS resistance of high generation wheat materials

Pre-harvest sprouting (PHS) of wheat will significantly reduce the yield and quality of wheat and threaten the safety of wheat production in China. Screening and utilization of resistant germplasm and functional molecular markers is the fundamental way to reduce the harm of PHS. In this study, 238 h...

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Published in	Scientific reports Vol. 15; no. 1; pp. 7609 - 9
Main Authors	Zhou, Heng, Zhang, Qiqi, Liu, Fangfang, Cao, Wenxin, Li, Yao, Wan, Yingxiu
Format	Journal Article
Language	English
Published	London Nature Publishing Group UK 04.03.2025 Nature Publishing Group Nature Portfolio
Subjects	631/1647 631/208 631/337 631/449 631/61 Alleles Breeding Crop production Genetic Markers Genotype Genotypes Germination - genetics Germplasm Humanities and Social Sciences Molecular marker multidisciplinary Phenotype Phenotypes Plant Breeding Pre-harvest sprouting Science Science (multidisciplinary) Seed germination Seeds - genetics Seeds - growth & development Triticum - genetics Triticum - growth & development Triticum - physiology Wheat Pre-harvest sprouting Genotype Phenotype Molecular marker
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Abstract	Pre-harvest sprouting (PHS) of wheat will significantly reduce the yield and quality of wheat and threaten the safety of wheat production in China. Screening and utilization of resistant germplasm and functional molecular markers is the fundamental way to reduce the harm of PHS. In this study, 238 high generation lines were used to identify and evaluate PHS resistance by grain germination method, and the distribution of PHS function markers Vp1B3 , myb10-D , PM19-A1 and MFT-A2 in resistant germplasm was determined and their breeding effects were evaluated. Phenotypic identification showed that there were significant differences in the relative seed germination index (RSGI) of 238 wheat germplasm resources. The RSGI ranged from 0.03 to 1, and the average RSGI was 0.31. The difference significance analysis showed that the RSGI of the alleles of functional markers Vp1B3 , PM19-A1 and MFT-A2 were significantly different, suggesting that Vp1B3 , PM19-A1 and MFT-A2 could be used for detection of PHS resistance genotypes and marker-assisted breeding. Based on the phenotype and genotype results, three red wheat materials with high PHS resistance (23JD392, 23JD393 and 23JD481) and four white wheat materials with high PHS resistance (23JD025, 23JD085, 23JD541 and 23JD655) were selected. At the same time, the high resistance materials 23JD392 and 23JD393 which amplified TaVp-1Bc / TaPM19-A1a / TaMFT-A2a had the lowest RSGI. These results can be used for genetic breeding and layout of wheat varieties resistant to PHS, indicating that resistance can be significantly improved by using functional markers. This study combined molecular markers and phenotypic identification to screen anti-PHS materials, which is expected to improve the level of wheat PHS resistance.
AbstractList	Pre-harvest sprouting (PHS) of wheat will significantly reduce the yield and quality of wheat and threaten the safety of wheat production in China. Screening and utilization of resistant germplasm and functional molecular markers is the fundamental way to reduce the harm of PHS. In this study, 238 high generation lines were used to identify and evaluate PHS resistance by grain germination method, and the distribution of PHS function markers Vp1B3 , myb10-D , PM19-A1 and MFT-A2 in resistant germplasm was determined and their breeding effects were evaluated. Phenotypic identification showed that there were significant differences in the relative seed germination index (RSGI) of 238 wheat germplasm resources. The RSGI ranged from 0.03 to 1, and the average RSGI was 0.31. The difference significance analysis showed that the RSGI of the alleles of functional markers Vp1B3 , PM19-A1 and MFT-A2 were significantly different, suggesting that Vp1B3 , PM19-A1 and MFT-A2 could be used for detection of PHS resistance genotypes and marker-assisted breeding. Based on the phenotype and genotype results, three red wheat materials with high PHS resistance (23JD392, 23JD393 and 23JD481) and four white wheat materials with high PHS resistance (23JD025, 23JD085, 23JD541 and 23JD655) were selected. At the same time, the high resistance materials 23JD392 and 23JD393 which amplified TaVp-1Bc / TaPM19-A1a / TaMFT-A2a had the lowest RSGI. These results can be used for genetic breeding and layout of wheat varieties resistant to PHS, indicating that resistance can be significantly improved by using functional markers. This study combined molecular markers and phenotypic identification to screen anti-PHS materials, which is expected to improve the level of wheat PHS resistance. Pre-harvest sprouting (PHS) of wheat will significantly reduce the yield and quality of wheat and threaten the safety of wheat production in China. Screening and utilization of resistant germplasm and functional molecular markers is the fundamental way to reduce the harm of PHS. In this study, 238 high generation lines were used to identify and evaluate PHS resistance by grain germination method, and the distribution of PHS function markers Vp1B3, myb10-D, PM19-A1 and MFT-A2 in resistant germplasm was determined and their breeding effects were evaluated. Phenotypic identification showed that there were significant differences in the relative seed germination index (RSGI) of 238 wheat germplasm resources. The RSGI ranged from 0.03 to 1, and the average RSGI was 0.31. The difference significance analysis showed that the RSGI of the alleles of functional markers Vp1B3, PM19-A1 and MFT-A2 were significantly different, suggesting that Vp1B3, PM19-A1 and MFT-A2 could be used for detection of PHS resistance genotypes and marker-assisted breeding. Based on the phenotype and genotype results, three red wheat materials with high PHS resistance (23JD392, 23JD393 and 23JD481) and four white wheat materials with high PHS resistance (23JD025, 23JD085, 23JD541 and 23JD655) were selected. At the same time, the high resistance materials 23JD392 and 23JD393 which amplified TaVp-1Bc/TaPM19-A1a/TaMFT-A2a had the lowest RSGI. These results can be used for genetic breeding and layout of wheat varieties resistant to PHS, indicating that resistance can be significantly improved by using functional markers. This study combined molecular markers and phenotypic identification to screen anti-PHS materials, which is expected to improve the level of wheat PHS resistance.Pre-harvest sprouting (PHS) of wheat will significantly reduce the yield and quality of wheat and threaten the safety of wheat production in China. Screening and utilization of resistant germplasm and functional molecular markers is the fundamental way to reduce the harm of PHS. In this study, 238 high generation lines were used to identify and evaluate PHS resistance by grain germination method, and the distribution of PHS function markers Vp1B3, myb10-D, PM19-A1 and MFT-A2 in resistant germplasm was determined and their breeding effects were evaluated. Phenotypic identification showed that there were significant differences in the relative seed germination index (RSGI) of 238 wheat germplasm resources. The RSGI ranged from 0.03 to 1, and the average RSGI was 0.31. The difference significance analysis showed that the RSGI of the alleles of functional markers Vp1B3, PM19-A1 and MFT-A2 were significantly different, suggesting that Vp1B3, PM19-A1 and MFT-A2 could be used for detection of PHS resistance genotypes and marker-assisted breeding. Based on the phenotype and genotype results, three red wheat materials with high PHS resistance (23JD392, 23JD393 and 23JD481) and four white wheat materials with high PHS resistance (23JD025, 23JD085, 23JD541 and 23JD655) were selected. At the same time, the high resistance materials 23JD392 and 23JD393 which amplified TaVp-1Bc/TaPM19-A1a/TaMFT-A2a had the lowest RSGI. These results can be used for genetic breeding and layout of wheat varieties resistant to PHS, indicating that resistance can be significantly improved by using functional markers. This study combined molecular markers and phenotypic identification to screen anti-PHS materials, which is expected to improve the level of wheat PHS resistance. Pre-harvest sprouting (PHS) of wheat will significantly reduce the yield and quality of wheat and threaten the safety of wheat production in China. Screening and utilization of resistant germplasm and functional molecular markers is the fundamental way to reduce the harm of PHS. In this study, 238 high generation lines were used to identify and evaluate PHS resistance by grain germination method, and the distribution of PHS function markers Vp1B3, myb10-D, PM19-A1 and MFT-A2 in resistant germplasm was determined and their breeding effects were evaluated. Phenotypic identification showed that there were significant differences in the relative seed germination index (RSGI) of 238 wheat germplasm resources. The RSGI ranged from 0.03 to 1, and the average RSGI was 0.31. The difference significance analysis showed that the RSGI of the alleles of functional markers Vp1B3, PM19-A1 and MFT-A2 were significantly different, suggesting that Vp1B3, PM19-A1 and MFT-A2 could be used for detection of PHS resistance genotypes and marker-assisted breeding. Based on the phenotype and genotype results, three red wheat materials with high PHS resistance (23JD392, 23JD393 and 23JD481) and four white wheat materials with high PHS resistance (23JD025, 23JD085, 23JD541 and 23JD655) were selected. At the same time, the high resistance materials 23JD392 and 23JD393 which amplified TaVp-1Bc/TaPM19-A1a/TaMFT-A2a had the lowest RSGI. These results can be used for genetic breeding and layout of wheat varieties resistant to PHS, indicating that resistance can be significantly improved by using functional markers. This study combined molecular markers and phenotypic identification to screen anti-PHS materials, which is expected to improve the level of wheat PHS resistance. Abstract Pre-harvest sprouting (PHS) of wheat will significantly reduce the yield and quality of wheat and threaten the safety of wheat production in China. Screening and utilization of resistant germplasm and functional molecular markers is the fundamental way to reduce the harm of PHS. In this study, 238 high generation lines were used to identify and evaluate PHS resistance by grain germination method, and the distribution of PHS function markers Vp1B3, myb10-D, PM19-A1 and MFT-A2 in resistant germplasm was determined and their breeding effects were evaluated. Phenotypic identification showed that there were significant differences in the relative seed germination index (RSGI) of 238 wheat germplasm resources. The RSGI ranged from 0.03 to 1, and the average RSGI was 0.31. The difference significance analysis showed that the RSGI of the alleles of functional markers Vp1B3, PM19-A1 and MFT-A2 were significantly different, suggesting that Vp1B3, PM19-A1 and MFT-A2 could be used for detection of PHS resistance genotypes and marker-assisted breeding. Based on the phenotype and genotype results, three red wheat materials with high PHS resistance (23JD392, 23JD393 and 23JD481) and four white wheat materials with high PHS resistance (23JD025, 23JD085, 23JD541 and 23JD655) were selected. At the same time, the high resistance materials 23JD392 and 23JD393 which amplified TaVp-1Bc/TaPM19-A1a/TaMFT-A2a had the lowest RSGI. These results can be used for genetic breeding and layout of wheat varieties resistant to PHS, indicating that resistance can be significantly improved by using functional markers. This study combined molecular markers and phenotypic identification to screen anti-PHS materials, which is expected to improve the level of wheat PHS resistance.
ArticleNumber	7609
Author	Liu, Fangfang Zhou, Heng Li, Yao Zhang, Qiqi Cao, Wenxin Wan, Yingxiu
Author_xml	– sequence: 1 givenname: Heng surname: Zhou fullname: Zhou, Heng organization: Crop Research Institute, Anhui Academy of Agricultural Sciences/Anhui Key Laboratory of Crop Quality Improvement – sequence: 2 givenname: Qiqi surname: Zhang fullname: Zhang, Qiqi organization: Crop Research Institute, Anhui Academy of Agricultural Sciences/Anhui Key Laboratory of Crop Quality Improvement, School of Agronomy, Anhui Agricultural University/Key Laboratory of Wheat Biology and Genetic Improvement on South Yellow & Huai River Valley, Ministry of Agriculture and Rural Affairs – sequence: 3 givenname: Fangfang surname: Liu fullname: Liu, Fangfang organization: Crop Research Institute, Anhui Academy of Agricultural Sciences/Anhui Key Laboratory of Crop Quality Improvement – sequence: 4 givenname: Wenxin surname: Cao fullname: Cao, Wenxin organization: Crop Research Institute, Anhui Academy of Agricultural Sciences/Anhui Key Laboratory of Crop Quality Improvement – sequence: 5 givenname: Yao surname: Li fullname: Li, Yao organization: Crop Research Institute, Anhui Academy of Agricultural Sciences/Anhui Key Laboratory of Crop Quality Improvement – sequence: 6 givenname: Yingxiu surname: Wan fullname: Wan, Yingxiu email: wanyingxiu@163.com organization: Crop Research Institute, Anhui Academy of Agricultural Sciences/Anhui Key Laboratory of Crop Quality Improvement
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Keywords	Pre-harvest sprouting Genotype Phenotype Molecular marker
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Snippet	Pre-harvest sprouting (PHS) of wheat will significantly reduce the yield and quality of wheat and threaten the safety of wheat production in China. Screening... Abstract Pre-harvest sprouting (PHS) of wheat will significantly reduce the yield and quality of wheat and threaten the safety of wheat production in China....
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SubjectTerms	631/1647 631/208 631/337 631/449 631/61 Alleles Breeding Crop production Genetic Markers Genotype Genotypes Germination - genetics Germplasm Humanities and Social Sciences Molecular marker multidisciplinary Phenotype Phenotypes Plant Breeding Pre-harvest sprouting Science Science (multidisciplinary) Seed germination Seeds - genetics Seeds - growth & development Triticum - genetics Triticum - growth & development Triticum - physiology Wheat
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Title	Identification and molecular marker analysis of PHS resistance of high generation wheat materials
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