Abscisic Acid and Calcium Signals Convergently Regulate Sugar Accumulation by Orchestrating the SRK2A/CIPK6‐ABI5‐TST2 Module in Citrus
Zuolin Mao, Mengdi Li, Siyang Gao, Zeqi Zhao, Xiawan Zhai, Ji‐Hong Liu, Lailiang Cheng, Chunlong Li

TL;DR
The study reveals how abscisic acid and calcium signals work together to increase sugar levels in citrus fruits through a specific molecular pathway.
Contribution
A novel molecular network involving ABA and calcium signaling that regulates sugar accumulation in citrus fruits is uncovered.
Findings
ABA and calcium enhance sugar accumulation in citrus fruits by upregulating CsTST2 expression.
CsABI5 is identified as a core transcription factor that activates CsTST2 for sugar transport.
CsSRK2A and CsCIPK6 phosphorylate CsABI5, forming a positive feedback loop with ABA and calcium signaling.
Abstract
Abscisic acid (ABA) and calcium respectively work as crucial plant hormones and second signalling molecules in the regulation of fruit development and quality formation, including the sugar content and flavour quality. However, the regulatory mechanisms of fruit sugar accumulation arising from the interaction between ABA and calcium have not yet been fully elucidated. Here, we show that the application of ABA or calcium enhances sugar accumulation in sweet orange ( Citrus sinensis ) fruit, accompanied by upregulation of the expression level of tonoplast sugar transporter 2 (CsTST2), which mediates the transport of sugars into the vacuole. Based on molecular and transgenic analyses, we identified CsABI5 as the core transcription factor that positively regulates CsTST2 expression for sugar accumulation. Both CsSRK2A, a key player in ABA signalling, and CsCIPK6, a kinase linked to calcium…
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Taxonomy
TopicsPlant nutrient uptake and metabolism · Plant Molecular Biology Research · Plant Stress Responses and Tolerance
