Tomato genomic prediction for good performance under high-temperature and identification of loci involved in thermotolerance response

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Abstract

Many studies showed that few degrees above tomato optimum growth temperature threshold can lead to serious loss in production. Therefore, the development of innovative strategies to obtain tomato cultivars with improved yield under high temperature conditions is a main goal both for basic genetic studies and breeding activities. In this paper, a F4 segregating population was phenotypically evaluated for quantitative and qualitative traits under heat stress conditions. Moreover, a genotyping by sequencing (GBS) approach has been employed for building up genomic selection (GS) models both for yield and soluble solid content (SCC). Several parameters, including training population size, composition and marker quality were tested to predict genotype performance under heat stress conditions. A good prediction accuracy for the two analyzed traits (0.729 for yield production and 0.715 for SCC) was obtained. The predicted models improved the genetic gain of selection in the next breeding cycles, suggesting that GS approach is a promising strategy to accelerate breeding for heat tolerance in tomato. Finally, the annotation of SNPs located in gene body regions combined with QTL analysis allowed the identification of five candidates putatively involved in high temperatures response, and the building up of a GS model based on calibrated panel of SNP markers.

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Cappetta, E., Andolfo, G., Guadagno, A., Di Matteo, A., Barone, A., Frusciante, L., & Ercolano, M. R. (2021). Tomato genomic prediction for good performance under high-temperature and identification of loci involved in thermotolerance response. Horticulture Research, 8(1). https://doi.org/10.1038/s41438-021-00647-3

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