作    者：李钧敏（通讯）
影响因子：0.988
刊物名称：Biochemical Systematics and Ecology
出版年卷：2017，72 (2017) 40e46

文章摘要：Structural and regulatory genes control fruit colors in plants. Real-time quantitative PCR results showed significantly higher expression levels of structural genes (FpCHS, FpDFR, FpANS, and FpUFGT) as well as of the regulatory gene MYB10 in red fruits of Fragaria pentaphylla compared to white fruits. These genes were strongly associated with anthocyanin accumulation within fruits. The full-length sequence of the FpDFR gene in red fruits of F. pentaphylla had a length of 2080 bp, was separated by five introns, and shared 95% homology with the F. vesca DFR sequence. Twenty-seven SNPs were detected in the FpDFR gDNA sequences between red and white fruits. Among these, transition substitutions were more frequent than transversions (66.7% vs. 33.3%), and a larger number of nucleotide variants existed in introns compared to exons (70.4% vs. 29.6%). A Chi-square test showed only three SNPs significantly associated with fruit color. Combined with structural analyses of the FpDFR protein and an expression analysis of the anthocyanin pathway genes, these results indicate that trans-regulation might contribute to color control in F. pentaphylla.

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