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Structures of human glucose-6-phosphate transporter reveal reciprocal antiport mechanism driving glucose-6-phosphate and inorganic phosphate exchange

Nature Communications. 2023-01; 
Qian Wang; Ningjie Guo; Yunxiang Du; Junwu Liu; Wanting Ai; Fengyi Yang; Yuanzai Zhu; Yuanyuan Zhao; Di Wu; Lei Liu; Xia Yao; Shuai Gao
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摘要

Glucose-6-phosphate transporter 1 (G6PT1) is essential for systemic glucose homeostasis, and its deficiency causes glycogen storage disease type 1b (GSD1b). G6PT1 functions as a sugar-phosphate/inorganic phosphate (Pi) antiporter, orchestrating G6P transport into the endoplasmic reticulum lumen driven by a Pi gradient. Despite its physiological significance, the molecular mechanisms underlying substrate recognition and antiport activity remain poorly characterized. Here, we present cryo-electron microscopy structures of human G6PT1 in apo, Pi-bound, and GlcN6P-bound (a G6P analogue) states, all captured in cytosol-open conformations. Combined with molecular docking and functional assays, these structures elucid... More

关键词

Cryoelectron microscopy, Membrane proteins