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A major QTL identification and candidate gene analysis of watermelon fruit cracking using QTL-seq and RNA-seq

Yuanfeng Zhan, Wei Hu, He Huang, Dang Xuanmin, Songbi Chen, Zhilong Bie

2023Frontiers in Plant Science10 citationsDOIOpen Access PDF

Abstract

Fruit cracking decreases the total production and the commercial value of watermelon. The molecular mechanisms of fruit cracking are unknown. In this study, 164 recombinant inbred lines (RILs) of watermelon, derived from the crossing of the WQ1 (cracking-sensitive) and WQ2 (cracking-tolerant) lines, were sequenced using specific length amplified fragment sequencing (SLAF-seq). A high-density genetic linkage map was constructed with 3,335 markers spanning 1,322.74 cM, at an average 0.40 cM across whole-genome flanking markers. The cracking tolerance capacity (CTC), depth of fruit cracking (DFC), rind thickness (RT), and rind hardness (RH) were measured for quantitative trait locus (QTL) analysis. Of the four traits analyzed, one major QTL with high phenotypic variation (41.04%-61.37%) was detected at 76.613-76.919 cM on chromosome 2, which contained 104 annotated genes. Differential gene expression analysis with RNA sequencing (RNA-seq) data between the two parents identified 4,508 differentially expressed genes (DEGs). Comparison of the genes between the QTL region and the DEGs obtained eight coexisting genes. Quantitative real-time PCR (qRT-PCR) analysis revealed that these genes were significant differentially expressed between the two parents. These results provide new insights into the identification of QTLs or genes and marker-assisted breeding in watermelon.

Topics & Concepts

Quantitative trait locusBiologyCandidate geneGeneticsGeneGenetic linkageRNA-SeqLocus (genetics)Gene expressionTranscriptomeGenetic Mapping and Diversity in Plants and AnimalsPlant Disease Resistance and GeneticsPlant nutrient uptake and metabolism