Linxiang Yin scite author profile

Resistance-nodulation-cell division efflux pumps are integral membrane proteins that catalyze the export of substrates across cell membranes. Within the hydrophobe-amphiphile efflux subfamily, these resistance-nodulation-cell division proteins largely form trimeric efflux pumps. The drug efflux process has been proposed to entail a synchronized motion between subunits of the trimer to advance the transport cycle, leading to the extrusion of drug molecules. Here we use X-ray crystallography and single-molecule fluorescence resonance energy transfer imaging to elucidate the structures and functional dynamics of the Campylobacter jejuni CmeB multidrug efflux pump. We find that the CmeB trimer displays a very unique conformation. A direct observation of transport dynamics in individual CmeB trimers embedded in membrane vesicles indicates that each CmeB subunit undergoes conformational transitions uncoordinated and independent of each other. On the basis of our findings and analyses, we propose a model for transport mechanism where CmeB protomers function independently within the trimer.

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Small Heat Shock Protein IbpB Acts as a Robust Chaperone in Living Cells by Hierarchically Activating Its Multi-type Substrate-binding Residues

Shi

Yin

et al. 2013

Journal of Biological Chemistry

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Background: Small heat shock proteins are ubiquitous molecular chaperones. Results: A total of 20 and 48 substrate-binding residues in IbpB were identified to function at 30 and 50°C, respectively, in living cells. Conclusion:The substrate-binding residues of IbpB are hierarchically activated in a temperature-dependent manner. Significance: This is the first systematic identification of substrate-binding residues of a small heat shock protein in living cells.

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Emerging enterococcus pore-forming toxins with MHC/HLA-I as receptors

Xiong¹,

Tian²,

Pan³

et al. 2022

Cell

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Complexin splits the membrane-proximal region of a single SNAREpin

Yin

Kim

Shin

2016

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Complexin (Cpx) is thought to be a major regulator of soluble N-ethylmaleimide-sensitive factor-attachment protein receptor (SNARE)-dependent membrane fusion. Although the inhibition of membrane fusion by Cpx has been frequently reported, its structural basis has been elusive and an anticipated disruption of the SNARE core has never been observed. In the present study, to mimic the natural environment, we assembled a single SNAREpin between two nanodisc membrane patches. Single-molecule FRET (smFRET) detects a large conformational change, specifically at the C-terminal half, whereas no conformational change is observed at the N-terminal half. Our results suggest that Cpx splits the C-terminal half of the SNARE core at least 10 Å (1 Å=0.1 nm), whereby inhibiting further progression of SNARE zippering and membrane fusion.

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Characterization of a membrane binding loop leads to engineering botulinum neurotoxin B with improved therapeutic efficacy

et al. 2020

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Linxiang Yin

Structures and transport dynamics of a Campylobacter jejuni multidrug efflux pump

Small Heat Shock Protein IbpB Acts as a Robust Chaperone in Living Cells by Hierarchically Activating Its Multi-type Substrate-binding Residues

Emerging enterococcus pore-forming toxins with MHC/HLA-I as receptors

Complexin splits the membrane-proximal region of a single SNAREpin

Characterization of a membrane binding loop leads to engineering botulinum neurotoxin B with improved therapeutic efficacy

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