FvMAPK6 ‐Mediated FvMYB44s / FvSWEET1 Dual‐Layer Regulation Modulates Sugar Accumulation in Strawberry Fruit, With FvSPS3 Enabling Quality–Yield Balance

生物 磷酸化 成熟 花青素 蔗糖 细胞生物学 生物化学 调节器 生长素 信号转导 转录调控 转录因子 信号 碳水化合物代谢 激酶 蛋白激酶B 基因表达调控 基因 蛋白激酶A 食糖量 磷酸糖
作者
Qianqian Feng,Lingzhi Wei,Ting Liu,Kexin Wang,Xiaojing Li,Chuang Liu,Ronghui Sun,Xia Li,Zhaonan Yin,Yanrong Wei,Huazhao Yuan,Qian Li,Bingbing Li
出处
期刊:Plant Biotechnology Journal [Wiley]
卷期号:24 (6): 4221-4239 被引量:1
标识
DOI:10.1111/pbi.70623
摘要

Sugar content is a key determinant of fruit quality, and sugars also act as signalling molecules that regulate ripening processes, including anthocyanin accumulation. However, the molecular mechanisms underlying sugar accumulation and sugar signal-mediated ripening remain incompletely understood. In this study, we identify FvMAPK6 as an important phosphorylation hub that coordinates both sugar and anthocyanin accumulation in strawberry fruit. FvMAPK6 forms a phosphorylation cascade with FvMAPKK4, which directly phosphorylates the transcription factors FvMYB44.1 and FvMYB44.2. This phosphorylation reduces the stability and transcriptional activity of these proteins, attenuates their repression of downstream target genes such as FvCHI, FvSPS3 and FvSWEET1, thereby coordinating anthocyanin and sugar accumulation. Furthermore, FvMAPK6 increases the protein abundance of the hexose transporter FvSWEET1 in strawberry fruits and alters its transport activity through phosphorylation. We demonstrate that sucrose treatment activates FvMAPK6, reinforcing its regulation of FvMYB44s and FvSWEET1 and thus amplifying sugar and anthocyanin accumulation. These findings establish FvMAPK6 as a key regulator that integrates both sugar accumulation and signalling at both transcriptional and post-transcriptional levels. Although FvMAPK6 promotes sugar accumulation, it significantly reduces fruit yield and vegetative growth. To overcome this limitation, we screen for downstream targets of FvMAPK6 and identify FvSPS3 as a promising breeding target: modulating FvSPS3 improves fruit quality without compromising vegetative growth or yield. Collectively, our findings reveal novel regulatory pathways modulating sugar accumulation and signalling in strawberry while providing a valuable molecular target for the simultaneous improvement of fruit quality and agricultural productivity.
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