How broadly tuned olfactory receptors equally recognize their agonists. Human OR1G1 as a test case

Landry Charlier; Jérémie Topin; Catherine Ronin; Soo Kyung Kim; William A. Goddard; Roman Efremov; Jérôme Golebiowski

doi:10.1007/s00018-012-1116-0

How broadly tuned olfactory receptors equally recognize their agonists. Human OR1G1 as a test case

Landry Charlier
, Jérémie Topin
, Catherine Ronin
, Soo Kyung Kim
, William A. Goddard
, Roman Efremov
, Jérôme Golebiowski

Institut de Chimie de Nice
Institut des Biomolcules Max Mousseron (UMR 5247 CNRS-UM-ENSCM) Campus CNRS
CNRS
California Institute of Technology
Shemyakin-Ovchinnikov Institute of Bioorganic Chemistry of the Russian Academy of Sciences

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

The molecular features that dominate the binding mode of agonists by a broadly tuned olfactory receptor are analyzed through a joint approach combining cell biology, calcium imaging, and molecular modeling. The odorant/receptor affinities, estimated through statistics accrued during molecular dynamics simulations, are in accordance with the experimental ranking. Although in many systems receptors recognize their target through a network of oriented interactions, such as H-bonding, the binding by broadly tuned olfactory receptors is dominated by non-polar terms. We show how such a feature allows chemicals belonging to different chemical families to similarly activate the receptors through compensations of interactions within the binding site.

langue originale	Anglais
Pages (de - à)	4205-4213
Nombre de pages	9
journal	Cellular and Molecular Life Sciences
Volume	69
Numéro de publication	24
Les DOIs	https://doi.org/10.1007/s00018-012-1116-0
état	Publié - 1 déc. 2012
Modification externe	Oui

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abstract = "The molecular features that dominate the binding mode of agonists by a broadly tuned olfactory receptor are analyzed through a joint approach combining cell biology, calcium imaging, and molecular modeling. The odorant/receptor affinities, estimated through statistics accrued during molecular dynamics simulations, are in accordance with the experimental ranking. Although in many systems receptors recognize their target through a network of oriented interactions, such as H-bonding, the binding by broadly tuned olfactory receptors is dominated by non-polar terms. We show how such a feature allows chemicals belonging to different chemical families to similarly activate the receptors through compensations of interactions within the binding site.",

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author = "Landry Charlier and J{\'e}r{\'e}mie Topin and Catherine Ronin and Kim, \{Soo Kyung\} and Goddard, \{William A.\} and Roman Efremov and J{\'e}r{\^o}me Golebiowski",

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AU - Charlier, Landry

AU - Topin, Jérémie

AU - Ronin, Catherine

AU - Kim, Soo Kyung

AU - Goddard, William A.

AU - Efremov, Roman

AU - Golebiowski, Jérôme

PY - 2012/12/1

Y1 - 2012/12/1

N2 - The molecular features that dominate the binding mode of agonists by a broadly tuned olfactory receptor are analyzed through a joint approach combining cell biology, calcium imaging, and molecular modeling. The odorant/receptor affinities, estimated through statistics accrued during molecular dynamics simulations, are in accordance with the experimental ranking. Although in many systems receptors recognize their target through a network of oriented interactions, such as H-bonding, the binding by broadly tuned olfactory receptors is dominated by non-polar terms. We show how such a feature allows chemicals belonging to different chemical families to similarly activate the receptors through compensations of interactions within the binding site.

AB - The molecular features that dominate the binding mode of agonists by a broadly tuned olfactory receptor are analyzed through a joint approach combining cell biology, calcium imaging, and molecular modeling. The odorant/receptor affinities, estimated through statistics accrued during molecular dynamics simulations, are in accordance with the experimental ranking. Although in many systems receptors recognize their target through a network of oriented interactions, such as H-bonding, the binding by broadly tuned olfactory receptors is dominated by non-polar terms. We show how such a feature allows chemicals belonging to different chemical families to similarly activate the receptors through compensations of interactions within the binding site.

KW - Free energy

KW - GPCR

KW - Molecular dynamics

KW - Odorant

KW - Structure

U2 - 10.1007/s00018-012-1116-0

DO - 10.1007/s00018-012-1116-0

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AN - SCOPUS:84870671969

SN - 1420-682X

VL - 69

SP - 4205

EP - 4213

JO - Cellular and Molecular Life Sciences

JF - Cellular and Molecular Life Sciences

IS - 24

ER -

How broadly tuned olfactory receptors equally recognize their agonists. Human OR1G1 as a test case

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