# Metabolome and transcriptome integration reveals insights into petals coloration mechanism of three species in Sect. Chrysantha chang

**Authors:** Yadan Yan, Ye Wang, Yafeng Wen, Yu Huang, Minhuan Zhang, Jiadi Huang, Xinyu Li, Chuncheng Wang, Dangqing Xu

PMC · DOI: 10.7717/peerj.17275 · 2024-04-19

## TL;DR

This study explores how petal color varies in three yellow-flowered Camellia species by combining metabolome and transcriptome data.

## Contribution

The study identifies key genes and metabolites involved in yellow petal coloration in Sect. Chrysantha Chang.

## Key findings

- 356 flavonoid metabolites were detected, with 295 identified as differentially expressed.
- Six key structural genes and five transcription factors were linked to flavonoid regulation and petal coloration.
- Flavonoid compounds were found to influence the intensity of yellow petal color in the studied species.

## Abstract

Sect. Chrysantha Chang, belonging to the Camellia genus, is one of the rare and precious ornamental plants distinguished by a distinctive array of yellow-toned petals. However, the variation mechanisms of petal color in Sect. Chrysantha Chang remains largely unclear.

We conducted an integrated analysis of metabolome and transcriptome to reveal petal coloration mechanism in three species, which have different yellow tones petals, including C. chuongtsoensis (CZ, golden yellow), C. achrysantha (ZD, light yellow), and C. parvipetala (XB, milk white).

A total of 356 flavonoid metabolites were detected, and 295 differential metabolites were screened. The contents of 74 differential metabolites showed an upward trend and 19 metabolites showed a downward trend, among which 11 metabolites were annotated to the KEGG pathway database. We speculated that 10 metabolites were closely related to the deepening of the yellowness. Transcriptome analysis indicated that there were 2,948, 14,018 and 13,366 differentially expressed genes (DEGs) between CZ vs. ZD, CZ vs. XB and ZD vs. XB, respectively. Six key structural genes (CcCHI, CcFLS, CcDFR1, CcDFR2, CcDFR3, and CcCYP75B1) and five candidate transcription factors (MYB22, MYB28, MYB17, EREBP9, and EREBP13) were involved in the regulation of flavonoid metabolites. The findings indicate that flavonoid compounds influence the color intensity of yellow-toned petals in Sect. Chrysantha Chang. Our results provide a new perspective on the molecular mechanisms underlying flower color variation and present potential candidate genes for Camellia breeding.

## Linked entities

- **Genes:** MYB22 (myb domain protein 22) [NCBI Gene 834041], MYB28 (myb domain protein 28) [NCBI Gene 836263], MYB17 (myb domain protein 17) [NCBI Gene 825297]
- **Chemicals:** flavonoid (PubChem CID 10251)
- **Species:** Camellia chuongtsoensis (taxon 1904051), Camellia achrysantha (taxon 147911), Camellia parvipetala (taxon 147927)

## Full-text entities

- **Diseases:** Chrysantha Chang (MESH:D009402)
- **Species:** Camellia parvipetala (species) [taxon 147927], Camellia (genus) [taxon 4441], Camellia chuongtsoensis (species) [taxon 1904051], Camellia achrysantha (species) [taxon 147911]

## Figures

8 figures with captions in the complete paper: https://tomesphere.com/paper/PMC11034495/full.md

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Source: https://tomesphere.com/paper/PMC11034495