Archive/MutMap Reveals a Structural Deletion at the Chalcone Synthase Locus Controlling Black Seed Coat in a Gamma-Irradiated Vietnamese Soybean Mutant
MutMap Reveals a Structural Deletion at the Chalcone Synthase Locus Controlling Black Seed Coat in a Gamma-Irradiated Vietnamese Soybean Mutant
Chung Thi Bao Pham, Lieu Thi Le, Manh Van Nguyen et al.
17 juillet 2026
en

Abstract

Black soybean is an important functional crop valued for its high anthocyanin content and associated health benefits, attracting increasing interest in plant breeding and mutation-based approaches to enhance its nutritional and agronomic traits. Here, we investigated a DT26 black seed-coat mutant (DT26BS) derived from the Vietnamese cultivar DT26 following gamma irradiation. Genetic analysis of F2 populations indicated that the phenotype is controlled by a single recessive mutation, with additional epistatic interactions observed in other genetic backgrounds. MutMap analysis based on whole-genome sequencing of pooled F2 individuals identified a candidate region on chromosome 8 corresponding to the I locus. A large deletion (~176 kb) was identified in this region, affecting multiple Chalcone Synthase (CHS) gene repeats, and which may disrupt RNAi-mediated silencing of CHS, thereby triggering anthocyanin restoration in the seed coat. PCR-based markers confirmed tight linkage between this deletion and the black seed-coat phenotype. Crosses with elite lines and further selection until F7 generations showed that the mutation has no adverse effects on major agronomic traits and is useful as a donor for developing improved lines with black seed coat, shorter maturity, high yield, and enhanced anthocyanin content for nutritional improvement. These results demonstrate the utility of MutMap for detecting irradiation-induced structural variants and extend its application to a non-reference elite tropical soybean background, providing a useful genetic resource for black soybean breeding.

IPC Classification

A01

Keywords

mutmaprevealsstructuraldeletionchalconesynthaselocuscontrollingblackseedcoatgamma-irradiatedvietnamesesoybeanmutantgenesimportantfunctionalcropvaluedhighanthocyanincontentassociated
Citer cette publication

€ 4.00