International Journal of Molecular Sciences (Apr 2024)
Natural Allelic Variations of <i>Bch10G006400</i> Controlling Seed Size in Chieh-qua (<i>Benincasa hispida</i> Cogn. var. <i>Chieh-qua</i> How)
Abstract
Seeds are the most important reproductive organs of higher plants, the beginning and end of a plant’s lifecycle. They are very important to plant growth and development, and also an important factor affecting yield. In this study, genetic analysis and BSA-seq of the F2 population crossed with the large-seeded material ‘J16’ and small-seeded material ‘FJ5’ were carried out, and the seed size locus was initially located within the 1.31 Mb region on chr10. In addition, 2281 F2 plants were used to further reduce the candidate interval to 48.8 Kb. This region contains only one gene encoding the N-acetyltransferase (NAT) protein (Bch10G006400). Transcriptome and expression analysis revealed that the gene was significantly more highly expressed in ‘J16’ than in ‘FJ5’. Variation analysis of Bch10G006400 among parents and 50 chieh-qua germplasms revealed that as well as a nonsynonymous mutation (SNP_314) between parents, two mutations (SNP_400 and InDel_551) were detected in other materials. Combining these three mutations completely distinguished the seed size of the chieh-qua. GO and KEGG enrichment analyses revealed that DGEs played the most important roles in carbohydrate metabolism and plant hormone signal transduction, respectively. The results of this study provide important information for molecular marker-assisted breeding and help to reveal the molecular mechanism of seed size.
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