主根
甜菜
蔗糖
生物
共转运蛋白
运输机
生物化学
糖
藜科
生物物理学
植物
园艺
基因
作者
Antonella Reyer,Nadia Bazihizina,Justyna Jaślan,Sönke Scherzer,Nadine Schäfer,Dawid Jaślan,Dirk Becker,T. Müller,Benjamin Pommerrenig,H. Ekkehard Neuhaus,Irene Marten,Rainer Hedrich
出处
期刊:Plant Journal
[Wiley]
日期:2024-04-11
卷期号:118 (6): 2219-2232
被引量:7
摘要
Sugar beet (Beta vulgaris) is the major sugar-producing crop in Europe and Northern America, as the taproot stores sucrose at a concentration of around 20%. Genome sequence analysis together with biochemical and electrophysiological approaches led to the identification and characterization of the TST sucrose transporter driving vacuolar sugar accumulation in the taproot. However, the sugar transporters mediating sucrose uptake across the plasma membrane of taproot parenchyma cells remained unknown. As with glucose, sucrose stimulation of taproot parenchyma cells caused inward proton fluxes and plasma membrane depolarization, indicating a sugar/proton symport mechanism. To decipher the nature of the corresponding proton-driven sugar transporters, we performed taproot transcriptomic profiling and identified the cold-induced PMT5a and STP13 transporters. When expressed in Xenopus laevis oocytes, BvPMT5a was characterized as a voltage- and H
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