Natural variant of Rht27, a dwarfing gene, enhances yield potential in wheat

Key message Discovery of Rht27 , a dwarf gene in wheat, showed potential in enhancing grain yield by reducing plant height. Plant height plays a crucial role in crop architecture and grain yield, and semi-dwarf Reduced Height ( Rht ) alleles contribute to lodging resistance and were important in “Gr...

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Veröffentlicht in:	Theoretical and applied genetics 2024-06, Vol.137 (6), p.128, Article 128
Hauptverfasser:	Liu, Xiaolin, Zheng, Shusong, Tian, Shuiquan, Si, Yaoqi, Ma, Shengwei, Ling, Hong-Qing, Niu, Jianqing
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Sprache:	eng
Schlagworte:	Agriculture Alleles Biochemistry Biomedical and Life Sciences Biotechnology Chromosome 3 Chromosome Mapping Coleoptile Crop yield Dwarf gene Edible Grain - genetics Edible Grain - growth & development Genes, Plant Genetic analysis Genomes Genotype & phenotype Haplotypes Life Sciences Lodging Mutagenesis Mutants Mutation Original Article Phenotype Phenotypes Plant Biochemistry Plant Breeding/Biotechnology Plant Genetics and Genomics Side effects Triticum - genetics Triticum - growth & development Triticum aestivum Triticum urartu Wheat
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creator	Liu, Xiaolin Zheng, Shusong Tian, Shuiquan Si, Yaoqi Ma, Shengwei Ling, Hong-Qing Niu, Jianqing
description	Key message Discovery of Rht27 , a dwarf gene in wheat, showed potential in enhancing grain yield by reducing plant height. Plant height plays a crucial role in crop architecture and grain yield, and semi-dwarf Reduced Height ( Rht ) alleles contribute to lodging resistance and were important in “Green Revolution.” However, the use of these alleles is associated with some negative side effects in some environments, such as reduced coleoptile length, low nitrogen use efficiency, and reduced yield. Therefore, novel dwarf gene resources are needed to pave an alternative route to overcome these side effects. In this study, a super-dwarf mutant rht27 was obtained by the mutagenesis of G1812 ( Triticum urartu , the progenitor of the A sub-genome of common wheat). Genetic analysis revealed that the dwarf phenotype was regulated by a single recessive genetic factor. The candidate region for Rht27 was narrowed to a 1.55 Mb region on chromosome 3, within which we found two potential candidate genes that showed polymorphisms between the mutant and non-mutagenized G1812. Furthermore, the natural variants and elite haplotypes of the two candidates were investigated in a natural population of common wheat. The results showed that the natural variants affect grain yield components, and the dwarf haplotypes show the potential in improving agronomic traits and grain yield. Although the mutation in Rht27 results in severe dwarf phenotype in T. urartu , the natural variants in common wheat showed desirable phenotype, which suggests that Rht27 has the potential to improve wheat yield by utilizing its weak allelic mutation or fine-tuning its expression level.
doi_str_mv	10.1007/s00122-024-04636-7
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Plant height plays a crucial role in crop architecture and grain yield, and semi-dwarf Reduced Height ( Rht ) alleles contribute to lodging resistance and were important in “Green Revolution.” However, the use of these alleles is associated with some negative side effects in some environments, such as reduced coleoptile length, low nitrogen use efficiency, and reduced yield. Therefore, novel dwarf gene resources are needed to pave an alternative route to overcome these side effects. In this study, a super-dwarf mutant rht27 was obtained by the mutagenesis of G1812 ( Triticum urartu , the progenitor of the A sub-genome of common wheat). Genetic analysis revealed that the dwarf phenotype was regulated by a single recessive genetic factor. The candidate region for Rht27 was narrowed to a 1.55 Mb region on chromosome 3, within which we found two potential candidate genes that showed polymorphisms between the mutant and non-mutagenized G1812. 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Furthermore, the natural variants and elite haplotypes of the two candidates were investigated in a natural population of common wheat. The results showed that the natural variants affect grain yield components, and the dwarf haplotypes show the potential in improving agronomic traits and grain yield. Although the mutation in Rht27 results in severe dwarf phenotype in T. urartu , the natural variants in common wheat showed desirable phenotype, which suggests that Rht27 has the potential to improve wheat yield by utilizing its weak allelic mutation or fine-tuning its expression level.</abstract><cop>Berlin/Heidelberg</cop><pub>Springer Berlin Heidelberg</pub><pmid>38733405</pmid><doi>10.1007/s00122-024-04636-7</doi><orcidid>https://orcid.org/0000-0002-1449-4318</orcidid></addata></record>
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subjects	Agriculture Alleles Biochemistry Biomedical and Life Sciences Biotechnology Chromosome 3 Chromosome Mapping Coleoptile Crop yield Dwarf gene Edible Grain - genetics Edible Grain - growth & development Genes, Plant Genetic analysis Genomes Genotype & phenotype Haplotypes Life Sciences Lodging Mutagenesis Mutants Mutation Original Article Phenotype Phenotypes Plant Biochemistry Plant Breeding/Biotechnology Plant Genetics and Genomics Side effects Triticum - genetics Triticum - growth & development Triticum aestivum Triticum urartu Wheat
title	Natural variant of Rht27, a dwarfing gene, enhances yield potential in wheat
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