A sucrose-binding protein and β-conglycinins regulate soybean seed protein content and control multiple seed traits

Plant Physiol. 2024 Oct 1;196(2):1298-1321. doi: 10.1093/plphys/kiae380.

Abstract

Expanded agriculture production is required to support the world's population but can impose substantial environmental and climate change costs, particularly with intensifying animal production and protein demand. Shifting from an animal- to a plant-based protein diet has numerous health benefits. Soybean (Glycine max [L.] Merr.) is a major source of protein for human food and animal feed; improved soybean protein content and amino acid composition could provide high-quality soymeal for animal feed, healthier human foods, and a reduced carbon footprint. Nonetheless, during the soybean genome evolution, a balance was established between the amount of seed protein, oil, and carbohydrate content, burdening the development of soybean cultivars with high proteins (HPs). We isolated 2 high-seed protein soybean mutants, HP1 and HP2, with improved seed amino acid composition and stachyose content, pointing to their involvement in controlling seed rebalancing phenomenon. HP1 encodes β-conglycinin (GmCG-1) and HP2 encodes sucrose-binding protein (GmSBP-1), which are both highly expressed in soybean seeds. Mutations in GmSBP-1, GmCG-1, and the paralog GmCG-2 resulted in increased protein levels, confirming their role as general regulators of seed protein content, amino acid seed composition, and seed vigor. Biodiversity analysis of GmCG and GmSBP across 108 soybean accessions revealed haplotypes correlated with protein and seed carbohydrate content. Furthermore, our data revealed an unprecedented role of GmCG and GmSBP proteins in improving seed vigor, crude protein, and amino acid digestibility. Since GmSBP and GmCG are present in most seed plants analyzed, these genes could be targeted to improve multiple seed traits.

MeSH terms

  • Amino Acids / metabolism
  • Antigens, Plant* / genetics
  • Antigens, Plant* / metabolism
  • Gene Expression Regulation, Plant
  • Globulins* / genetics
  • Globulins* / metabolism
  • Glycine max* / genetics
  • Glycine max* / metabolism
  • Grain Proteins / metabolism
  • Mutation / genetics
  • Plant Proteins / genetics
  • Plant Proteins / metabolism
  • Seed Storage Proteins* / genetics
  • Seed Storage Proteins* / metabolism
  • Seeds* / genetics
  • Seeds* / metabolism
  • Soybean Proteins* / genetics
  • Soybean Proteins* / metabolism
  • Sucrose / metabolism

Substances

  • Seed Storage Proteins
  • Globulins
  • Soybean Proteins
  • beta-conglycinin protein, Glycine max
  • Antigens, Plant
  • Grain Proteins
  • Amino Acids
  • Plant Proteins
  • Sucrose