François Belzile, Martine Jean, Davoud Torkamaneh, Aurélie Tardivel, Marc-André Lemay, Chiheb Boudhrioua, Geneviève Arsenault-Labrecque, Chloe Dussault-Benoit, Amandine Lebreton, Maxime de Ronne, Vanessa Tremblay, Caroline Labbé, Louise O’Donoughue, Vincent-Thomas Boucher St-Amour, Tanya Copley, Eric Fortier, Dave T. Ste-Croix, Benjamin Mimee, Elroy Cober, Istvan Rajcan, Tom Warkentin, Éric Gagnon, Sylvain Legay, Jérôme Auclair and Richard Bélanger
![The SoyaGen Project: Putting Genomics to Work for Soybean Breeders](/Images_upload/images/New Picture (2)(161).png)
Front. Plant Sci., 26 April 2022 | https://doi.org/10.3389/fpls.2022.887553
The SoyaGen project was a collaborative endeavor involving Canadian soybean researchers and breeders from academia and the private sector as well as international collaborators. Its aims were to develop genomics-derived solutions to real-world challenges faced by breeders. Based on the needs expressed by the stakeholders, the research efforts were focused on maximizing realized yield through optimization of maturity and improved disease resistance. The main deliverables related to molecular breeding in soybean will be reviewed here. These include: (1) SNP datasets capturing the genetic diversity within cultivated soybean (both within a worldwide collection of > 1,000 soybean accessions and a subset of 102 short-season accessions (MG0 and earlier) directly relevant to this group); (2) SNP markers for selecting favorable alleles at key maturity genes as well as loci associated with increased resistance to key pathogens and pests (Phytophthora sojae, Heterodera glycines, Sclerotinia sclerotiorum); (3) diagnostic tools to facilitate the identification and mapping of specific pathotypes of P. sojae; and (4) a genomic prediction approach to identify the most promising combinations of parents. As a result of this fruitful collaboration, breeders have gained new tools and approaches to implement molecular, genomics-informed breeding strategies. We believe these tools and approaches are broadly applicable to soybean breeding efforts around the world.
See https://www.frontiersin.org/articles/10.3389/fpls.2022.887553/full
![The SoyaGen Project: Putting Genomics to Work for Soybean Breeders](/Images_upload/images/New Picture (3)(216).png)
Figure 2. Graphical representation of single nucleotide polymorphism (SNP) haplotypes for 91 early maturing accessions. Each vertical bar corresponds to one individual, each horizontal line corresponds to one SNP marker. Blue represents the allele present in the reference genome (Williams 82) and orange the alternate allele. White is used to indicate an absence of reads mapping in the E3 (GmPhyA3) gene within a 13-kb segment that is deleted in the e3-tr allele. Joint consideration of these polymorphisms allowed the identification of four distinct haplotypes (A–D). Reproduced with permission from Tardivel et al. (2014).
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