Your search keyword '"Deng, Yuan‐Jie"' showing total 2 results

1. DcGST1, encoding a glutathione S‐transferase activated by DcMYB7, is the main contributor to anthocyanin pigmentation in purple carrot.

Author

Duan, Ao‐Qi, Deng, Yuan‐Jie, Tan, Shan‐Shan, Liu, Shan‐Shan, Liu, Hui, Xu, Zhi‐Sheng, Shu, Sheng, and Xiong, Ai‐Sheng

Abstract

SUMMARY: The color of purple carrot taproots mainly depends on the anthocyanins sequestered in the vacuoles. Glutathione S‐transferases (GSTs) are key enzymes involved in anthocyanin transport. However, the precise mechanism of anthocyanin transport from the cytosolic surface of the endoplasmic reticulum (ER) to the vacuoles in carrots remains unclear. In this study, we conducted a comprehensive analysis of the carrot genome, leading to the identification of a total of 41 DcGST genes. Among these, DcGST1 emerged as a prominent candidate, displaying a strong positive correlation with anthocyanin pigmentation in carrot taproots. It was highly expressed in the purple taproot tissues of purple carrot cultivars, while it was virtually inactive in the non‐purple taproot tissues of purple and non‐purple carrot cultivars. DcGST1, a homolog of Arabidopsis thaliana TRANSPARENT TESTA 19 (TT19), belongs to the GSTF clade and plays a crucial role in anthocyanin transport. Using the CRISPR/Cas9 system, we successfully knocked out DcGST1 in the solid purple carrot cultivar 'Deep Purple' ('DPP'), resulting in carrots with orange taproots. Additionally, DcMYB7, an anthocyanin activator, binds to the DcGST1 promoter, activating its expression. Compared with the expression DcMYB7 alone, co‐expression of DcGST1 and DcMYB7 significantly increased anthocyanin accumulation in carrot calli. However, overexpression of DcGST1 in the two purple carrot cultivars did not change the anthocyanin accumulation pattern or significantly increase the anthocyanin content. These findings improve our understanding of anthocyanin transport mechanisms in plants, providing a molecular foundation for improving and enhancing carrot germplasm. Significance Statement: These findings improve our understanding of anthocyanin transport mechanisms in plants, providing a molecular foundation for improving and enhancing carrot germplasm. [ABSTRACT FROM AUTHOR]

Published

2024

2. A MYB activator, DcMYB11c, regulates carrot anthocyanins accumulation in petiole but not taproot.

Author

Duan, Ao‐Qi, Deng, Yuan‐Jie, Tan, Shan‐Shan, Xu, Zhi‐Sheng, and Xiong, Ai‐Sheng

Subjects

*CARROTS, *ANTHOCYANINS, *MYB gene, *PETIOLES, *USEFUL plants, *GENOME editing

Abstract

The first domesticated carrots were thought to be purple carrots rich in anthocyanins. The anthocyanins biosynthesis in solid purple carrot taproot was regulated by DcMYB7 within P3 region containing a gene cluster of six DcMYBs. Here, we described a MYB gene within the same region, DcMYB11c, which was highly expressed in the purple pigmented petioles. Overexpression of DcMYB11c in 'Kurodagosun' (KRDG, orange taproot carrot with green petioles) and 'Qitouhuang' (QTHG, yellow taproot carrot with green petioles) resulted in deep purple phenotype in the whole carrot plants indicating anthocyanins accumulation. Knockout of DcMYB11c in 'Deep Purple' (DPPP, purple taproot carrot with purple petioles) through CRISPR/Cas9‐based genome editing resulted in pale purple phenotype due to the dramatic decrease of anthocyanins content. DcMYB11c could induce the expression of DcbHLH3 and anthocyanins biosynthesis genes to jointly promote anthocyanins biosynthesis. Yeast one‐hybrid assay (Y1H) and dual‐luciferase reporter assay (LUC) revealed that DcMYB11c bound to the promoters of DcUCGXT1 and DcSAT1 and directly activated the expression of DcUCGXT1 and DcSAT1 responsible for anthocyanins glycosylation and acylation, respectively. Three transposons were present in the carrot cultivars with purple petioles but not in the carrot cultivars with green petioles. We revealed the core factor, DcMYB11c, involved in anthocyanins pigmentation in carrot purple petioles. This study provides new insights into precise regulation mechanism underlying anthocyanins biosynthesis in carrot. The orchestrated regulation mechanism in carrot might be conserved across the plant kingdom and useful for other researchers working on anthocyanins accumulation in different tissues. Summary statement: Here, we described a MYB gene, DcMYB11c, which was highly expressed in the purple pigmented petioles. The orchestrated regulation mechanism in carrot might be conserved across the plant kingdom and useful for other researchers working on anthocyanins accumulation in different tissues. [ABSTRACT FROM AUTHOR]

Published

2023