Anthocyanin contents and molecular changes in rose petals during the post-anthesis color transition

Anthocyanin contents and molecular changes in rose petals during the post-anthesis color transition

Flower color transitions during anthesis are taxonomically widespread; however, the mechanisms underlying post-anthesis color transition in roses are unclear. In this study, we collected petals of the butterfly rose (Rosa chinensis 'Mutabilis'), a post-anthesis color change cultivar, at di...

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Bibliographic Details
Main Authors: Ying Kong, Huan Wang, Li Qiu, Xiaoying Dou, Lixin Lang, Jinrong Bai
Format: Article
Language:English
Published: Maximum Academic Press 2024-01-01
Series:Ornamental Plant Research
Subjects:
anthocyanin transport
color change
glutathione s-transferase (gst)
rosa chinensis 'mutabilis'
r. hybirda 'spectra'
Online Access:https://www.maxapress.com/article/doi/10.48130/opr-0024-0019
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Summary:Flower color transitions during anthesis are taxonomically widespread; however, the mechanisms underlying post-anthesis color transition in roses are unclear. In this study, we collected petals of the butterfly rose (Rosa chinensis 'Mutabilis'), a post-anthesis color change cultivar, at different developmental stages and under different treatments. Anthocyanin composition and transcriptome data were analyzed to identify the environmental factors and crucial genes involved in post-anthesis color transition. The results showed that sunlight is a key factor triggering color transition. In butterfly rose flowers, color transition results from an increase in the accumulation of anthocyanins, primarily cyanidin-3-O-glucoside, and cyanidin-3,5-O-diglucoside. A combination of genome-wide identification, RNA-seq analysis, bioinformatics analysis, and quantitative real-time PCR verification revealed that RcUF3GT1 and RcGSTF2 genes were involved in anthocyanin production and anthocyanin transport, respectively. RcMYB114a may play a significant role in anthocyanin biosynthesis during color transition in roses, and RcBBX28 might be a crucial gene involved in this process. These insights contribute to our knowledge of flower color change and have implications for further research on plant genetics and flower color evolution.
ISSN:2769-2094

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