1. Single-base deletion in GmCHR5 increases the genistein-to-daidzein ratio in soybean seed
- Author
-
Satoshi Watanabe, Fumio Hashimoto, Wakana Otsu, Akihiro Suzuki, Toyoaki Anai, and Md. Abdur Rauf Sarkar
- Subjects
0106 biological sciences ,0301 basic medicine ,Genetics ,Mutant ,Daidzein ,food and beverages ,Genistein ,Locus (genetics) ,Plant Science ,Plant disease resistance ,Biology ,01 natural sciences ,Genome ,03 medical and health sciences ,chemistry.chemical_compound ,030104 developmental biology ,chemistry ,Allele ,Agronomy and Crop Science ,Gene ,010606 plant biology & botany - Abstract
Novel mutant alleles related to isoflavone content are useful for breeding programs to improve the disease resistance and nutritional content of soybean. However, identification of mutant alleles from high-density mutant libraries is expensive and time-consuming because soybean has a large, complicated genome. Here, we identified the gene responsible for increased genistein-to-daidzein ratio in seed of the mutant line F333ES017D9. For this purpose, we used a time- and cost-effective approach based on selective genotyping of a small number of F2 plants showing the mutant phenotype with nearest-neighboring-nucleotide substitution-high-resolution melting analysis markers, followed by alignment of short reads obtained by next-generation sequencing analysis with the identified locus. In the mutant line, GmCHR5 harbored a single-base deletion that caused a change in the substrate flow in the isoflavone biosynthetic pathway towards genistein. Mutated GmCHR5 was expressed at a lower level during seed development than wild-type GmCHR5. Ectopic overexpression of GmCHR5 increased the production of daidzein derivatives in both the wild-type and mutant plants. The present strategy will be useful for accelerating identification of mutant alleles responsible for traits of interest in agronomically important crops.
- Published
- 2020
- Full Text
- View/download PDF