The sugar transporter proteins in plants: An elaborate and widespread regulation network-A review.

In higher plants, sugars are the primary products of photosynthesis, where CO is converted into organic carbon within the mesophyll cells of leaves. These sugars serve as a critical source of carbon skeletons for the biosynthesis of essential cellular compounds, energy production, and as osmotic and signaling molecules. Plant sugar transporter proteins play a key role in facilitating the long-distance translocation of sugars from source to sink organs, thereby controlling their distribution and accumulation across the plant. Over the past decade, substantial progress has been achieved in identifying the functions of individual genes linked to sugar transporters; however, the diverse regulatory mechanisms influencing these transporters remain insufficiently explored. This review consolidates current and previous research on the functions of sugar transporter proteins, focusing on their involvement in phloem transport pathways their impact on crop yield, cross-talk with other signals, and plant-microbe interactions. Furthermore, we propose future directions for studying the mechanisms of sugar transporter proteins and their potential applications in agriculture, with the goal of improving sugar utilization efficiency in crops and ultimately increasing crop yield.