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The patterns of deleterious mutations during the domestication of soybean.

Myung-Shin KimRoberto LozanoJi Hong KimDong Nyuk BaeSang-Tae KimJung-Ho ParkMan Soo ChoiJaehyun KimHyun-Choong OkSoo-Kwon ParkMichael A GoreJung-Kyung MoonSoon-Chun Jeong
Published in: Nature communications (2021)
Globally, soybean is a major protein and oil crop. Enhancing our understanding of the soybean domestication and improvement process helps boost genomics-assisted breeding efforts. Here we present a genome-wide variation map of 10.6 million single-nucleotide polymorphisms and 1.4 million indels for 781 soybean individuals which includes 418 domesticated (Glycine max), 345 wild (Glycine soja), and 18 natural hybrid (G. max/G. soja) accessions. We describe the enhanced detection of 183 domestication-selective sweeps and the patterns of putative deleterious mutations during domestication and improvement. This predominantly selfing species shows 7.1% reduction of overall deleterious mutations in domesticated soybean relative to wild soybean and a further 1.4% reduction from landrace to improved accessions. The detected domestication-selective sweeps also show reduced levels of deleterious alleles. Importantly, genotype imputation with this resource increases the mapping resolution of genome-wide association studies for seed protein and oil traits in a soybean diversity panel.
Keyphrases
  • genome wide
  • genome wide association
  • dna methylation
  • high resolution
  • climate change
  • gene expression
  • fatty acid
  • single molecule
  • mass spectrometry
  • real time pcr