Structure-Taste Correlations in Sweet Dihydrochalcone, Sweet Dihydroisocoumarin, and Bitter Flavone Compounds

The dihydrochalcone derivatives of the bitter flavonoids naringin and neohesperedin are intensely sweet. Phyllodulcin is as sweet as the dihydrochalcones with similar taste properties although its structure apparently resembles that of bitter flavanone or flavone. Multifaceted approaches, including...

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Published in:Journal of medicinal chemistry 1995-10, Vol.38 (21), p.4325-4331
Main Authors: Shin, Whanchul, Kim, Seung Jun, Shin, Jung Mi, Kim, Sung-Hou
Format: Article
Language:English
Subjects:
Chalcone - analogs & derivatives
Chalcone - chemistry
Chalcones
Chemical Phenomena
Chemistry
Chemistry, Physical
Condensed benzenic and aromatic compounds
Condensed matter: structure, mechanical and thermal properties
Coumarins - chemistry
Crystallization
Crystallography, X-Ray
Exact sciences and technology
Flavones
Flavonoids - chemistry
Heterocyclic compounds
Isocoumarins
Magnetic Resonance Spectroscopy
Models, Molecular
Molecular Conformation
Molecular Structure
Organic chemistry
Organic compounds
Physics
Preparations and properties
Structure of solids and liquids
crystallography
Structure of specific crystalline solids
Structure-Activity Relationship
Sweetening Agents - chemistry
Taste
Thermodynamics
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creator Shin, Whanchul
Kim, Seung Jun
Shin, Jung Mi
Kim, Sung-Hou
description The dihydrochalcone derivatives of the bitter flavonoids naringin and neohesperedin are intensely sweet. Phyllodulcin is as sweet as the dihydrochalcones with similar taste properties although its structure apparently resembles that of bitter flavanone or flavone. Multifaceted approaches, including X-ray crystal structure analysis, energy calculation, and structure comparison, have been employed to clarify the structure-taste correlations in these classes of compounds. In the crystal, naringin dihydrochalcone assumes a 'J'-shaped conformation with a fully-extended dihydrochalcone moiety while neohesperidin dihydrochalcone assumes the same overall conformation but with a partially-extended moiety. A 2D conformational energy map of dihydrochalcone obtained using molecular mechanics revealed nine local minima. The pseudoequatorial and pseudoaxial forms of phyllodulcin have the same AM1 energies with a low energy barrier between them. The partially-extended form of dihydrochalcone and the pseudoequatorial form of phyllodulcin which are the maximally superposable conformers are proposed to be the active conformers. The major difference between the structures of flavone and phyllodulcin is not in the overall planarity but in the relative orientation of the pyrone and phenyl ring systems.
doi_str_mv 10.1021/jm00021a022
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Phyllodulcin is as sweet as the dihydrochalcones with similar taste properties although its structure apparently resembles that of bitter flavanone or flavone. Multifaceted approaches, including X-ray crystal structure analysis, energy calculation, and structure comparison, have been employed to clarify the structure-taste correlations in these classes of compounds. In the crystal, naringin dihydrochalcone assumes a 'J'-shaped conformation with a fully-extended dihydrochalcone moiety while neohesperidin dihydrochalcone assumes the same overall conformation but with a partially-extended moiety. A 2D conformational energy map of dihydrochalcone obtained using molecular mechanics revealed nine local minima. The pseudoequatorial and pseudoaxial forms of phyllodulcin have the same AM1 energies with a low energy barrier between them. The partially-extended form of dihydrochalcone and the pseudoequatorial form of phyllodulcin which are the maximally superposable conformers are proposed to be the active conformers. 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Med. Chem</addtitle><description>The dihydrochalcone derivatives of the bitter flavonoids naringin and neohesperedin are intensely sweet. Phyllodulcin is as sweet as the dihydrochalcones with similar taste properties although its structure apparently resembles that of bitter flavanone or flavone. Multifaceted approaches, including X-ray crystal structure analysis, energy calculation, and structure comparison, have been employed to clarify the structure-taste correlations in these classes of compounds. In the crystal, naringin dihydrochalcone assumes a 'J'-shaped conformation with a fully-extended dihydrochalcone moiety while neohesperidin dihydrochalcone assumes the same overall conformation but with a partially-extended moiety. A 2D conformational energy map of dihydrochalcone obtained using molecular mechanics revealed nine local minima. The pseudoequatorial and pseudoaxial forms of phyllodulcin have the same AM1 energies with a low energy barrier between them. 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A 2D conformational energy map of dihydrochalcone obtained using molecular mechanics revealed nine local minima. The pseudoequatorial and pseudoaxial forms of phyllodulcin have the same AM1 energies with a low energy barrier between them. The partially-extended form of dihydrochalcone and the pseudoequatorial form of phyllodulcin which are the maximally superposable conformers are proposed to be the active conformers. The major difference between the structures of flavone and phyllodulcin is not in the overall planarity but in the relative orientation of the pyrone and phenyl ring systems.</abstract><cop>Washington, DC</cop><pub>American Chemical Society</pub><pmid>7473560</pmid><doi>10.1021/jm00021a022</doi><tpages>7</tpages></addata></record>
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source ACS CRKN Legacy Archives
subjects Chalcone - analogs & derivatives
Chalcone - chemistry
Chalcones
Chemical Phenomena
Chemistry
Chemistry, Physical
Condensed benzenic and aromatic compounds
Condensed matter: structure, mechanical and thermal properties
Coumarins - chemistry
Crystallization
Crystallography, X-Ray
Exact sciences and technology
Flavones
Flavonoids - chemistry
Heterocyclic compounds
Isocoumarins
Magnetic Resonance Spectroscopy
Models, Molecular
Molecular Conformation
Molecular Structure
Organic chemistry
Organic compounds
Physics
Preparations and properties
Structure of solids and liquids
crystallography
Structure of specific crystalline solids
Structure-Activity Relationship
Sweetening Agents - chemistry
Taste
Thermodynamics
title Structure-Taste Correlations in Sweet Dihydrochalcone, Sweet Dihydroisocoumarin, and Bitter Flavone Compounds
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