Development of the 4TREE SNP array, a forest multispecies array to enhance European Breeding and conservation programs in pine, poplar and ash.
Guilbaud, R.; Bagnoli, F.; Ben-Sadoun, S.; Biselli, C.; Buret, C.; Buiteveld, J.; Cativelli, L.; Copini, P.; Drouaud, J.; Esselink, D.; Fricano, A.; Benoit, V.; Kelly, L. J.; Kodde, L.; Metheringham, C. L.; Pinosio, S.; Rogier, O.; Segura, V.; Spanu, I.; Tumino, G.; Buggs, R. J.; Gonzalez-Martinez, S. C.; Vietto, L.; Nervo, G.; Jorge, V.; Dowkiw, A.; Smulders, M. J.; Sanchez, L.; Vendramin, G. G.; Bastien, C.; Faivre Rampant, P.
Show abstract
Within the framework of the European Adaptive BREEDING for Better FORESTs project (B4EST, https://b4est.eu/), we have developed genotyping tools for Poplar, Ash, and Pine forest tree species. SNP arrays are attractive genotyping tools because of the user-friendly genotype calling system and the robust transferability among laboratories. Here we describe the development of an Axiom SNP array for Pinus pinaster (13,407 SNPs), Pinus pinea (5,671 SNPs), Poplar spp. (13,408 SNPs), and Fraxinus spp. (13,407 SNPs) based on a two-step process. We first assembled a high-density (>100,000 SNPs/species) screening array that served to test a large panel of candidate SNPs on a diversity panel involving at least 120 individual trees per species or species group. In the second step, we selected and combined the most informative SNPs to build the final 50,000 SNP 4TREE array. This approach resulted in high genotyping success rates, including for species lacking previously validated high-quality SNP resources. The 4TREE SNP array provides a valuable and transferable genomic tool to support genomic prediction, breeding, and adaptive management of forest tree species.
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