The transcription factor StMYB113 regulates light-induced greening by modulating steroidal glycoalkaloid biosynthesis in potatoes (Solanum tuberosum L.)

Liu, Shengxuan; Cheng, Yunxia; Zhao, Xijuan; Wang, Enshuang; Liu, Tiantian; Zhang, Huiling; Liu, Tengfei; Botao, Song

doi:10.1007/s44281-023-00025-0

HORTIC. ADV.

2024

DOI: 10.1007/s44281-023-00025-0

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The transcription factor StMYB113 regulates light-induced greening by modulating steroidal glycoalkaloid biosynthesis in potatoes (Solanum tuberosum L.)

Shengxuan Liu,

Yunxia Cheng,

Xijuan Zhao

et al.

Abstract: During harvesting, storage, transportation, and processing, potato (Solanum tuberosum L.) tubers undergo greening after exposure to light, leading to the accumulation of toxic glycoside alkaloids, resulting in quality deterioration and economic losses. However, the underlying mechanisms are unclear. This study compared the transcriptome and proteome differences among four potato cultivars during the light-induced greening process, identifying 3,751 unique proteins (high confidence; ≥91.7%). The levels of enzym… Show more

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Cited by 5 publications

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Genomic identification of the NF-Y gene family in apple and functional analysis of MdNF-YB18 involved in flowering transition

Gao,

Wei,

Xie

et al. 2024

Mol Breeding

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Genomic identification of the NF-Y gene family in apple and functional analysis of MdNF-YB18 involved in flowering transition

Gao,

Wei,

Xie

et al. 2024

Mol Breeding

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Chloroplast elongation factors break the growth–immunity trade-off by simultaneously promoting yield and defence

Qi,

Wu,

Yang

et al. 2024

Nat. Plants

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Dopamine Regulates Its Own Synthesis via MdORG2 to Improve Low‐Nitrogen Tolerance in Apple Plants

Liu,

Li,

Cao

et al. 2024

Plant Cell & Environment

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Nitrogen (N) is crucial for plant growth and development. Exogenous dopamine has been shown to improve the N‐deficiency tolerance of apple. However, the potential regulatory mechanisms by which dopamine mitigates low‐N stress remain unclear. Our data indicated that the dopamine levels in apple (Malus domestica) were elevated by the overexpression (OE) of MdTYDC, which encodes tyrosine decarboxylase, a key enzyme in dopamine biosynthesis. The photosynthetic capacity of the OE lines was enhanced, and the root system was more extensive under low‐N stress compared with the wild‐type (WT) plants. This enhancement contributed to a greater net nitrate influx at the root surface in the OE lines compared with the WT. Transcriptomic and carbohydrate analyses suggested that the OE of MdTYDC in apple enhanced N‐deficiency tolerance by promoting the expression of carbohydrate‐related genes, which increased the content of soluble sugars and sorbitol. Both exogenous dopamine and MdTYDC OE activated the expression of MdORG2 (a bHLH transcription factor), which, in turn, directly binds to the promoter of MdTYDC, activating its expression, increasing dopamine levels, and consequently conferring strong low‐N tolerance in apple. Thus, this reveals the molecular pathways by which dopamine regulates low‐N tolerance in apple through pathways involving MdTYDC and MdORG2.

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The transcription factor StMYB113 regulates light-induced greening by modulating steroidal glycoalkaloid biosynthesis in potatoes (Solanum tuberosum L.)

Cited by 5 publications

References 43 publications

Genomic identification of the NF-Y gene family in apple and functional analysis of MdNF-YB18 involved in flowering transition

Genomic identification of the NF-Y gene family in apple and functional analysis of MdNF-YB18 involved in flowering transition

Chloroplast elongation factors break the growth–immunity trade-off by simultaneously promoting yield and defence

Dopamine Regulates Its Own Synthesis via MdORG2 to Improve Low‐Nitrogen Tolerance in Apple Plants

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