A steered molecular dynamics study of binding and translocation processes in the GABA transporter

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A steered molecular dynamics study of binding and translocation processes in the GABA transporter. / Skovstrup, Søren; David, Laurent; Taboureau, Olivier; Jørgensen, Flemming Steen.

In: P L o S One, Vol. 7, No. 6, 2012, p. e39360.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Skovstrup, S, David, L, Taboureau, O & Jørgensen, FS 2012, 'A steered molecular dynamics study of binding and translocation processes in the GABA transporter', P L o S One, vol. 7, no. 6, pp. e39360. https://doi.org/10.1371/journal.pone.0039360

APA

Skovstrup, S., David, L., Taboureau, O., & Jørgensen, F. S. (2012). A steered molecular dynamics study of binding and translocation processes in the GABA transporter. P L o S One, 7(6), e39360. https://doi.org/10.1371/journal.pone.0039360

Vancouver

Skovstrup S, David L, Taboureau O, Jørgensen FS. A steered molecular dynamics study of binding and translocation processes in the GABA transporter. P L o S One. 2012;7(6):e39360. https://doi.org/10.1371/journal.pone.0039360

Author

Skovstrup, Søren ; David, Laurent ; Taboureau, Olivier ; Jørgensen, Flemming Steen. / A steered molecular dynamics study of binding and translocation processes in the GABA transporter. In: P L o S One. 2012 ; Vol. 7, No. 6. pp. e39360.

Bibtex

@article{45e4e63589e948e3ad9cde91a4f4309a,
title = "A steered molecular dynamics study of binding and translocation processes in the GABA transporter",
abstract = "The entire substrate translocation pathway in the human GABA transporter (GAT-1) was explored for the endogenous substrate GABA and the anti-convulsive drug tiagabine. Following a steered molecular dynamics (SMD) approach, in which a harmonic restraining potential is applied to the ligand, dissociation and re-association of ligands were simulated revealing events leading to substrate (GABA) translocation and inhibitor (tiagabine) mechanism of action. We succeeded in turning the transporter from the outward facing occluded to the open-to-out conformation, and also to reorient the transporter to the open-to-in conformation. The simulations are validated by literature data and provide a substrate pathway fingerprint in terms of which, how, and in which sequence specific residues are interacted with. They reveal the essential functional roles of specific residues, e.g. the role of charged residues in the extracellular vestibule including two lysines (K76 (TM1) and K448 (TM10)) and a TM6-triad (D281, E283, and D287) in attracting and relocating substrates towards the secondary/interim substrate-binding site (S2). Likewise, E101 is highlighted as essential for the relocation of the substrate from the primary substrate-binding site (S1) towards the cytoplasm.",
author = "S{\o}ren Skovstrup and Laurent David and Olivier Taboureau and J{\o}rgensen, {Flemming Steen}",
year = "2012",
doi = "10.1371/journal.pone.0039360",
language = "English",
volume = "7",
pages = "e39360",
journal = "PLoS ONE",
issn = "1932-6203",
publisher = "Public Library of Science",
number = "6",

}

RIS

TY - JOUR

T1 - A steered molecular dynamics study of binding and translocation processes in the GABA transporter

AU - Skovstrup, Søren

AU - David, Laurent

AU - Taboureau, Olivier

AU - Jørgensen, Flemming Steen

PY - 2012

Y1 - 2012

N2 - The entire substrate translocation pathway in the human GABA transporter (GAT-1) was explored for the endogenous substrate GABA and the anti-convulsive drug tiagabine. Following a steered molecular dynamics (SMD) approach, in which a harmonic restraining potential is applied to the ligand, dissociation and re-association of ligands were simulated revealing events leading to substrate (GABA) translocation and inhibitor (tiagabine) mechanism of action. We succeeded in turning the transporter from the outward facing occluded to the open-to-out conformation, and also to reorient the transporter to the open-to-in conformation. The simulations are validated by literature data and provide a substrate pathway fingerprint in terms of which, how, and in which sequence specific residues are interacted with. They reveal the essential functional roles of specific residues, e.g. the role of charged residues in the extracellular vestibule including two lysines (K76 (TM1) and K448 (TM10)) and a TM6-triad (D281, E283, and D287) in attracting and relocating substrates towards the secondary/interim substrate-binding site (S2). Likewise, E101 is highlighted as essential for the relocation of the substrate from the primary substrate-binding site (S1) towards the cytoplasm.

AB - The entire substrate translocation pathway in the human GABA transporter (GAT-1) was explored for the endogenous substrate GABA and the anti-convulsive drug tiagabine. Following a steered molecular dynamics (SMD) approach, in which a harmonic restraining potential is applied to the ligand, dissociation and re-association of ligands were simulated revealing events leading to substrate (GABA) translocation and inhibitor (tiagabine) mechanism of action. We succeeded in turning the transporter from the outward facing occluded to the open-to-out conformation, and also to reorient the transporter to the open-to-in conformation. The simulations are validated by literature data and provide a substrate pathway fingerprint in terms of which, how, and in which sequence specific residues are interacted with. They reveal the essential functional roles of specific residues, e.g. the role of charged residues in the extracellular vestibule including two lysines (K76 (TM1) and K448 (TM10)) and a TM6-triad (D281, E283, and D287) in attracting and relocating substrates towards the secondary/interim substrate-binding site (S2). Likewise, E101 is highlighted as essential for the relocation of the substrate from the primary substrate-binding site (S1) towards the cytoplasm.

U2 - 10.1371/journal.pone.0039360

DO - 10.1371/journal.pone.0039360

M3 - Journal article

C2 - 22737235

VL - 7

SP - e39360

JO - PLoS ONE

JF - PLoS ONE

SN - 1932-6203

IS - 6

ER -

ID: 38493513