Abstract
Anthocyanin biosynthesis is one of the most studied pathways in plants due to the important ecological role played by these compounds and the potential health benefits of anthocyanin consumption. Given the interest in identifying new genetic factors underlying anthocyanin content we studied a diverse collection of diploid potatoes by combining a genome-wide association study and pathway-based analyses. By using an expanded SNP dataset, we identified candidate genes that had not been associated with anthocyanin variation in potatoes, namely a Myb transcription factor, a Leucoanthocyanidin dioxygenase gene and a vacuolar membrane protein. Importantly, a genomic region in chromosome 10 harbored the SNPs with strongest associations with anthocyanin content in GWAS. Some of these SNPs were associated with multiple anthocyanin compounds and therefore could underline the existence of pleiotropic genes or anthocyanin biosynthetic clusters. We identified multiple anthocyanin homologs in this genomic region, including four transcription factors and five enzymes that could be governing anthocyanin variation. For instance, a SNP linked to the phenylalanine ammonia-lyase gene, encoding the first enzyme in the phenylpropanoid biosynthetic pathway, was associated with all of the five anthocyanins measured. Finally, we combined a pathway analysis and GWAS of other agronomic traits to identify pathways related to anthocyanin biosynthesis in potatoes. We found that methionine metabolism and the production of sugars and hydroxycinnamic acids are genetically correlated to anthocyanin biosynthesis. The results contribute to the understanding of anthocyanins regulation in potatoes and can be used in future breeding programs focused on nutraceutical food.
Highlights
Potato (Solanum tuberosum L.) is the main non-cereal food consumed worldwide [1] and the vegetable with the highest antioxidant contribution to human diet [2]
Sixteen of these significant Single Nucleotide Polymorphism (SNP) were located in the coding region of annotated genes on the Chromosomes 1, 2, 6, 9, 10 and 11 (Table 1)
Genome wide association studies allow to explore the genetic architecture of complex traits
Summary
Potato (Solanum tuberosum L.) is the main non-cereal food consumed worldwide [1] and the vegetable with the highest antioxidant contribution to human diet [2]. Within the S. tuberosum L. species, the Group Phureja is composed of diploid potatoes (2n = 2x = 24) with short-day. Pathway analysis of anthocyanin diversity in potato between Universidad Nacional de Colombia (https://unal.edu.co/) and Colciencias ( Minciencias, https://minciencias.gov.co/), received by FRF
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