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Molecular mechanism of the sweet taste enhancers
Molecular mechanism of the sweet taste enhancers
by Klebansky, Boris , Zoller, Mark , Servant, Guy , Xu, Hong , Li, Xiaodong , Tachdjian, Catherine , Fine, Richard M , Liu, Haitian , Zhang, Feng
in Allosteric Regulation / Amino Acid Sequence / Animals / Binding Sites - genetics / Biological Sciences / Calcium / Cell Line / Cell lines / chimerism / Diet / Dionaea muscipula / Dose response relationship / Dose-Response Relationship, Drug / Electrostatics / Humans / Imaging / Models, Molecular / molecular models / Molecular Sequence Data / Molecules / Mutagenesis / Mutation / Protein Binding - drug effects / Protein Structure, Tertiary / Rats / Receptors / Receptors, G-Protein-Coupled - chemistry / Receptors, G-Protein-Coupled - genetics / Receptors, G-Protein-Coupled - metabolism / Sequence Homology, Amino Acid / Sucrose - analogs & derivatives / Sucrose - chemistry / Sucrose - metabolism / Sugar / sugars / Sweeteners / Sweetening Agents - chemistry / Sweetening Agents - metabolism / Sweetening Agents - pharmacology / Taste / taste receptors / Transfection / Umami
2010
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Molecular mechanism of the sweet taste enhancers
by Klebansky, Boris , Zoller, Mark , Servant, Guy , Xu, Hong , Li, Xiaodong , Tachdjian, Catherine , Fine, Richard M , Liu, Haitian , Zhang, Feng
in Allosteric Regulation / Amino Acid Sequence / Animals / Binding Sites - genetics / Biological Sciences / Calcium / Cell Line / Cell lines / chimerism / Diet / Dionaea muscipula / Dose response relationship / Dose-Response Relationship, Drug / Electrostatics / Humans / Imaging / Models, Molecular / molecular models / Molecular Sequence Data / Molecules / Mutagenesis / Mutation / Protein Binding - drug effects / Protein Structure, Tertiary / Rats / Receptors / Receptors, G-Protein-Coupled - chemistry / Receptors, G-Protein-Coupled - genetics / Receptors, G-Protein-Coupled - metabolism / Sequence Homology, Amino Acid / Sucrose - analogs & derivatives / Sucrose - chemistry / Sucrose - metabolism / Sugar / sugars / Sweeteners / Sweetening Agents - chemistry / Sweetening Agents - metabolism / Sweetening Agents - pharmacology / Taste / taste receptors / Transfection / Umami
2010
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Molecular mechanism of the sweet taste enhancers
Molecular mechanism of the sweet taste enhancers
by Klebansky, Boris , Zoller, Mark , Servant, Guy , Xu, Hong , Li, Xiaodong , Tachdjian, Catherine , Fine, Richard M , Liu, Haitian , Zhang, Feng
in Allosteric Regulation / Amino Acid Sequence / Animals / Binding Sites - genetics / Biological Sciences / Calcium / Cell Line / Cell lines / chimerism / Diet / Dionaea muscipula / Dose response relationship / Dose-Response Relationship, Drug / Electrostatics / Humans / Imaging / Models, Molecular / molecular models / Molecular Sequence Data / Molecules / Mutagenesis / Mutation / Protein Binding - drug effects / Protein Structure, Tertiary / Rats / Receptors / Receptors, G-Protein-Coupled - chemistry / Receptors, G-Protein-Coupled - genetics / Receptors, G-Protein-Coupled - metabolism / Sequence Homology, Amino Acid / Sucrose - analogs & derivatives / Sucrose - chemistry / Sucrose - metabolism / Sugar / sugars / Sweeteners / Sweetening Agents - chemistry / Sweetening Agents - metabolism / Sweetening Agents - pharmacology / Taste / taste receptors / Transfection / Umami
2010

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Molecular mechanism of the sweet taste enhancers
Molecular mechanism of the sweet taste enhancers
Journal Article

Molecular mechanism of the sweet taste enhancers

Klebansky, Boris,
Zoller, Mark,
Servant, Guy,
Xu, Hong,
Li, Xiaodong,
Tachdjian, Catherine,
Fine, Richard M,
Liu, Haitian,
Zhang, Feng
2010
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Overview
Positive allosteric modulators of the human sweet taste receptor have been developed as a new way of reducing dietary sugar intake. Besides their potential health benefit, the sweet taste enhancers are also valuable tool molecules to study the general mechanism of positive allosteric modulations of T1R taste receptors. Using chimeric receptors, mutagenesis, and molecular modeling, we reveal how these sweet enhancers work at the molecular level. Our data argue that the sweet enhancers follow a similar mechanism as the natural umami taste enhancer molecules. Whereas the sweeteners bind to the hinge region and induce the closure of the Venus flytrap domain of T1R2, the enhancers bind close to the opening and further stabilize the closed and active conformation of the receptor.
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Publisher
National Academy of Sciences,National Acad Sciences
Subject

Allosteric Regulation

/ Amino Acid Sequence

/ Animals

/ Binding Sites - genetics

/ Biological Sciences

/ Calcium

/ Cell Line

/ Cell lines

/ chimerism

/ Diet

/ Dionaea muscipula

/ Dose response relationship

/ Dose-Response Relationship, Drug

/ Electrostatics

/ Humans

/ Imaging

/ Models, Molecular

/ molecular models

/ Molecular Sequence Data

/ Molecules

/ Mutagenesis

/ Mutation

/ Protein Binding - drug effects

/ Protein Structure, Tertiary

/ Rats

/ Receptors

/ Receptors, G-Protein-Coupled - chemistry

/ Receptors, G-Protein-Coupled - genetics

/ Receptors, G-Protein-Coupled - metabolism

/ Sequence Homology, Amino Acid

/ Sucrose - analogs & derivatives

/ Sucrose - chemistry

/ Sucrose - metabolism

/ Sugar

/ sugars

/ Sweeteners

/ Sweetening Agents - chemistry

/ Sweetening Agents - metabolism

/ Sweetening Agents - pharmacology

/ Taste

/ taste receptors

/ Transfection

/ Umami

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