The Bitter Taste Receptor TAS2R16 Achieves High Specificity and Accommodates Diverse Glycoside Ligands by using a Two-faced Binding Pocket

The Bitter Taste Receptor TAS2R16 Achieves High Specificity and Accommodates Diverse Glycoside Ligands by using a Two-faced Binding Pocket

Abstract Although bitter taste receptors (TAS2Rs) are important for human health, little is known of the determinants of ligand specificity. TAS2Rs such as TAS2R16 help define gustatory perception and dietary preferences that ultimately influence human health and disease. Each TAS2R must accommodate...

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Main Authors: Anu Thomas, Chidananda Sulli, Edgar Davidson, Eli Berdougo, Morganne Phillips, Bridget A. Puffer, Cheryl Paes, Benjamin J. Doranz, Joseph B. Rucker
Format: Article
Language:English
Published: Nature Publishing Group 2017-08-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-017-07256-y
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spelling doaj-12f45ce1b6b94a4e81f404c14a6ac2b52020-12-08T03:04:23ZengNature Publishing GroupScientific Reports2045-23222017-08-017111510.1038/s41598-017-07256-yThe Bitter Taste Receptor TAS2R16 Achieves High Specificity and Accommodates Diverse Glycoside Ligands by using a Two-faced Binding PocketAnu Thomas0Chidananda Sulli1Edgar Davidson2Eli Berdougo3Morganne Phillips4Bridget A. Puffer5Cheryl Paes6Benjamin J. Doranz7Joseph B. Rucker8Integral Molecular, Inc.Integral Molecular, Inc.Integral Molecular, Inc.Integral Molecular, Inc.Integral Molecular, Inc.Integral Molecular, Inc.Integral Molecular, Inc.Integral Molecular, Inc.Integral Molecular, Inc.Abstract Although bitter taste receptors (TAS2Rs) are important for human health, little is known of the determinants of ligand specificity. TAS2Rs such as TAS2R16 help define gustatory perception and dietary preferences that ultimately influence human health and disease. Each TAS2R must accommodate a broad diversity of chemical structures while simultaneously achieving high specificity so that diverse bitter toxins can be detected without all foods tasting bitter. However, how these G protein-coupled receptors achieve this balance is poorly understood. Here we used a comprehensive mutation library of human TAS2R16 to map its interactions with existing and novel agonists. We identified 13 TAS2R16 residues that contribute to ligand specificity and 38 residues whose mutation eliminated signal transduction by all ligands, providing a comprehensive assessment of how this GPCR binds and signals. Our data suggest a model in which hydrophobic residues on TM3 and TM7 form a broad ligand-binding pocket that can accommodate the diverse structural features of β-glycoside ligands while still achieving high specificity.https://doi.org/10.1038/s41598-017-07256-y
collection DOAJ
language English
format Article
sources DOAJ
author Anu Thomas
Chidananda Sulli
Edgar Davidson
Eli Berdougo
Morganne Phillips
Bridget A. Puffer
Cheryl Paes
Benjamin J. Doranz
Joseph B. Rucker
spellingShingle Anu Thomas
Chidananda Sulli
Edgar Davidson
Eli Berdougo
Morganne Phillips
Bridget A. Puffer
Cheryl Paes
Benjamin J. Doranz
Joseph B. Rucker
The Bitter Taste Receptor TAS2R16 Achieves High Specificity and Accommodates Diverse Glycoside Ligands by using a Two-faced Binding Pocket
Scientific Reports
author_facet Anu Thomas
Chidananda Sulli
Edgar Davidson
Eli Berdougo
Morganne Phillips
Bridget A. Puffer
Cheryl Paes
Benjamin J. Doranz
Joseph B. Rucker
author_sort Anu Thomas
title The Bitter Taste Receptor TAS2R16 Achieves High Specificity and Accommodates Diverse Glycoside Ligands by using a Two-faced Binding Pocket
title_short The Bitter Taste Receptor TAS2R16 Achieves High Specificity and Accommodates Diverse Glycoside Ligands by using a Two-faced Binding Pocket
title_full The Bitter Taste Receptor TAS2R16 Achieves High Specificity and Accommodates Diverse Glycoside Ligands by using a Two-faced Binding Pocket
title_fullStr The Bitter Taste Receptor TAS2R16 Achieves High Specificity and Accommodates Diverse Glycoside Ligands by using a Two-faced Binding Pocket
title_full_unstemmed The Bitter Taste Receptor TAS2R16 Achieves High Specificity and Accommodates Diverse Glycoside Ligands by using a Two-faced Binding Pocket
title_sort bitter taste receptor tas2r16 achieves high specificity and accommodates diverse glycoside ligands by using a two-faced binding pocket
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2017-08-01
description Abstract Although bitter taste receptors (TAS2Rs) are important for human health, little is known of the determinants of ligand specificity. TAS2Rs such as TAS2R16 help define gustatory perception and dietary preferences that ultimately influence human health and disease. Each TAS2R must accommodate a broad diversity of chemical structures while simultaneously achieving high specificity so that diverse bitter toxins can be detected without all foods tasting bitter. However, how these G protein-coupled receptors achieve this balance is poorly understood. Here we used a comprehensive mutation library of human TAS2R16 to map its interactions with existing and novel agonists. We identified 13 TAS2R16 residues that contribute to ligand specificity and 38 residues whose mutation eliminated signal transduction by all ligands, providing a comprehensive assessment of how this GPCR binds and signals. Our data suggest a model in which hydrophobic residues on TM3 and TM7 form a broad ligand-binding pocket that can accommodate the diverse structural features of β-glycoside ligands while still achieving high specificity.
url https://doi.org/10.1038/s41598-017-07256-y
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