Single‐grain‐based widely targeted metabolomics profiling of sixty‐four accessions of Japanese wild soybean (Glycin soja Sieb. Et Zucc.)

Summary Soybean (Glycine max L. Merr.) is a major crop worldwide, providing essential dietary proteins and edible oils for agriculture, food, animal feed and biofuel industries. However, its limited genetic variation makes it vulnerable to harsh environmental conditions, and its chemical diversity was strongly reduced after long domestication. Wild soybean (Glycine soja Sieb. et Zucc.), the ancestor of the G. max, possesses a high level of genetic diversity and thus present a precious reservoir for improving cultivated soybean. Characterising metabolomes of different G. soja accessions is crucial in exploring metabolite accumulation patterns for developing metabolic breeding strategies. This study successfully revealed the metabolomes of sixty‐four seed lines of G. soja collected throughout Japan by a widely targeted metabolomics approach, therefore, providing a good source of information for further studies to induce the production of bioactive compounds and the defence mechanism to stress. Single‐grain based widely targeted metabolomics profiling of 64 accessions of Japanese wild soybean.