Jason D. Gillman, Won-Seok Kim, Bo Song, Nathan W. Oehrle, Nilesh R. Tawari, Shanshan Liu and Hari B. Krishnan

G3: Genes, Genomes, Genetics July 1, 2017 vol. 7 no. 7 2345-2352; https://doi.org/10.1534/g3.117.039347

Abstract

During ongoing proteomic analysis of the soybean (Glycine max (L.) Merr) germplasm collection, PI 603408 was identified as a landrace whose seeds lack accumulation of one of the major seed storage glycinin protein subunits. Whole genomic resequencing was used to identify a two-base deletion affecting glycinin 5. The newly discovered deletion was confirmed to be causative through immunological, genetic, and proteomic analysis, and no significant differences in total seed protein content were found to be due to the glycinin 5 loss-of-function mutation per se. In addition to focused studies on this one specific glycinin subunit-encoding gene, a total of 1,858,185 nucleotide variants were identified, of which 39,344 were predicted to affect protein coding regions. In order to semiautomate analysis of a large number of soybean gene variants, a new SIFT 4G (Sorting Intolerant From Tolerated 4 Genomes) database was designed to predict the impact of nonsynonymous single nucleotide soybean gene variants, potentially enabling more rapid analysis of soybean resequencing data in the future.

See: http://www.g3journal.org/content/7/7/2345

Figure 1

SDS-PAGE analysis of mature seed from lines Patriot and PI 603408. (A) SDS-PAGE analysis of total seed proteins (samples 1 and 2) or calcium carbonate enrichment of seed storage proteins (samples 3 and 4), and (B) immunoblot analysis of total seed proteins (samples 1 and 2) or calcium carbonate enrichment of seed storage proteins (samples 3 and 4) with anti-glycinin 4/5 antibodies. Samples 1 and 3 are from seed of cultivar Patriot and samples 2 and 4 are from seed of PI 603408. Arrow indicates protein band polymorphism between genotypes. SDS-PAGE, sodium dodecyl sulfate polyacrylamide gel electrophoresis.