Abstract
Basic helix-loop-helix proteins (bHLHs) play very important roles in the anthocyanin biosynthesis of many plant species. However, the reports on blueberry anthocyanin biosynthesis-related bHLHs were very limited. In this study, six anthocyanin biosynthesis-related bHLHs were identified from blueberry genome data through homologous protein sequence alignment. Among these blueberry bHLHs, VcAN1, VcbHLH42-1, VcbHLH42-2 and VcbHLH42-3 were clustered into one group, while VcbHLH1-1 and VcbHLH1-2 were clustered into the other group. All these bHLHs were of the bHLH-MYC_N domain, had DNA binding sites and reported conserved amino acids in the bHLH domain, indicating that they were all G-box binding proteins. Protein subcellular location prediction result revealed that all these bHLHs were nucleus-located. Gene structure analysis showed that VcAN1 gDNA contained eight introns, while all the others contained seven introns. Many light-, phytohormone-, stress- and plant growth and development-related cis-acting elements and transcription factor binding sites (TFBSs) were identified in their promoters, but the types and numbers of cis-elements and TFBSs varied greatly between the two bHLH groups. Quantitative real-time PCR results showed that VcAN1 expressed highly in old leaf, stem and blue fruit, and its expression increased as the blueberry fruit ripened. Its expression in purple podetium and old leaf was respectively significantly higher than in green podetium and young leaf, indicating that VcAN1 plays roles in anthocyanin biosynthesis regulation not only in fruit but also in podetium and leaf. VcbHLH1-1 expressed the highest in young leaf and stem, and the lowest in green fruit. The expression of VcbHLH1-1 also increased as the fruit ripened, and its expression in blue fruit was significantly higher than in green fruit. VcbHLH1-2 showed high expression in stem but low expression in fruit, especially in red fruit. Our study indicated that the anthocyanin biosynthesis regulatory functions of these bHLHs showed certain spatiotemporal specificity. Additionally, VcAN1 might be a key gene controlling the anthocyanin biosynthesis in blueberry, whose function is worth exploring further for its potential applications in plant high anthocyanin breeding.
Highlights
Anthocyanins, a kind of natural polyphenols widely exist in many plants, are known to have great health-promoting effects mostly due to their high antioxidant activity
Six candidate blueberry anthocyanin biosynthesis-related Basic helix-loop-helix proteins (bHLHs) proteins were identified from blueberry genome data through homologous protein sequence alignment using reported anthocyanin biosynthesis-related bHLHs from Arabidopsis, apple, kiwifruit, and some other plant species [11,13,14,15,16,17,18,33,34,35,36,37,38,39]
By analyzing their protein similarities, it was found that similarities among VcAN1, VcbHLH42-1, VcbHLH42-2 and VcbHLH42-3 were all very high (>93%), but their protein similarities with VcbHLH1-1 and VcbHLH1-2 were all less than 32%
Summary
Anthocyanins, a kind of natural polyphenols widely exist in many plants, are known to have great health-promoting effects mostly due to their high antioxidant activity. The MBW complex, composed of R2R3-MYB protein, bHLH protein of MYC family and transcription factors of the WD40 protein family, is believed to play a key role in regulating tissue specific expression of typical anthocyanins [3,4]. They can bind to the promoter regions of one or more anthocyanin biosynthesis structural genes, and lead to the activation or inhibition of the expression of their corresponding targets [5,6]
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