Yujia Ji scite author profile

Yujia Ji

4Publications

81Citation Statements Received

87Citation Statements Given

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179

Affiliations

Sichuan University, University of Vermont, Voronezh State University of Forestry and Technologies

Publications

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An open-like conformation of the sigma-1 receptor reveals its ligand entry pathway

Meng

Xiao

et al. 2022

Nat Commun

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The sigma-1 receptor (σ1R) is a non-opioid transmembrane receptor which has been implicated in many diseases, including neurodegenerative disorders and cancer. After more than forty years of research, substantial progress has been made in understanding this unique receptor, yet the molecular mechanism of its ligand entry pathway remains uncertain. Published structures of human σ1R reveal its homotrimeric organization of a cupin-fold β-barrel body that contains the ligand binding site, a carboxy-terminal V-shaped two-helix bundle, and a single amino-terminal transmembrane helix, while simulation studies have suggested a ligand entry pathway that is generated by conformational rearrangements of the cupin-fold domain. Here, we present multiple crystal structures, including an open-like conformation, of σ1R from Xenopus laevis. Together with functional binding analysis our data suggest that access to the σ1R ligand binding site is likely achieved by protein conformational changes that involve the carboxy-terminal two-helix bundle, rather than structural changes in the cupin-fold domain.

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Substrate binding in the bile acid transporter ASBT_YffromYersinia frederiksenii

Wang¹,

Lyu²,

Ji³

et al. 2021

Acta Cryst Sect D Struct Biol

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Apical sodium-dependent bile acid transporter (ASBT) retrieves bile acids from the small intestine and plays a pivotal role in enterohepatic circulation. Currently, high-resolution structures are available for two bacterial ASBT homologs (ASBTNM from Neisseria meningitides and ASBTYf from Yersinia frederiksenii), from which an elevator-style alternating-access mechanism has been proposed for substrate transport. A key concept in this model is that the substrate binds to the central cavity of the transporter so that the elevator-like motion can expose the bound substrate alternatingly to either side of the membrane during a transport cycle. However, no structure of an ASBT has been solved with a substrate bound in its central cavity, so how a substrate binds to ASBT remains to be defined. In this study, molecular docking, structure determination and functional analysis were combined to define and validate the details of substrate binding in ASBTYf. The findings provide coherent evidence to provide a clearer picture of how the substrate binds in the central cavity of ASBTYf that fits the alternating-access model.

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Photocatalytic degradation of methylene blue with ZnO@C nanocomposites: Kinetics, mechanism, and the inhibition effect on monoamine oxidase A and B

Yang

Wang

et al. 2019

NanoImpact

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The preparation of a novel iron/manganese binary oxide for the efficient removal of hexavalent chromium [Cr(vi)] from aqueous solutions

Yang

Tiantian²,

Wang

et al. 2020

RSC Adv.

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Yujia Ji

An open-like conformation of the sigma-1 receptor reveals its ligand entry pathway

Substrate binding in the bile acid transporter ASBT_YffromYersinia frederiksenii

Photocatalytic degradation of methylene blue with ZnO@C nanocomposites: Kinetics, mechanism, and the inhibition effect on monoamine oxidase A and B

The preparation of a novel iron/manganese binary oxide for the efficient removal of hexavalent chromium [Cr(vi)] from aqueous solutions

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Yujia Ji

An open-like conformation of the sigma-1 receptor reveals its ligand entry pathway

Substrate binding in the bile acid transporter ASBTYffromYersinia frederiksenii

Photocatalytic degradation of methylene blue with ZnO@C nanocomposites: Kinetics, mechanism, and the inhibition effect on monoamine oxidase A and B

The preparation of a novel iron/manganese binary oxide for the efficient removal of hexavalent chromium [Cr(vi)] from aqueous solutions

Contact Info

Product

Resources

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Substrate binding in the bile acid transporter ASBT_YffromYersinia frederiksenii