Alkyl Galactopyranosides:  Rotational Population Dependence of the Hydroxymethyl Group on the Aglycon and Its Absolute Configuration and on the Anomeric Configuration

Alkyl Galactopyranosides:  Rotational Population Dependence of the Hydroxymethyl Group on the Aglycon and Its Absolute Configuration and on the Anomeric Configuration

The rotational populations of the hydroxymethyl group in chiral and nonchiral alkyl α- and β-galactopyranosides proved, on the basis of circular dichroism (CD) and 1H NMR data, to be dependent on the structure of the aglycon:  the population of the gt and tg rotamers increased and decreased, respectively, as the pKa of the bonded alcohol (aglycon) increased, while the population of the gg rotamer remained practically constant. Furthermore, low-temperature CD measurements proved that the most stable rotamer is the gt, and not the tg. In addition, a clear correlation between the rotational populations and the absolute configuration of the chiral aglycon was observed; namely, higher and smaller gt and tg populations were observed for the (S)-alkyl β-d-galactopyranosides than for their (R)-alkyl β-d-galactopyranoside counterparts, the opposite behavior being observed for the α-anomers. The results point to the exo anomeric effect as being responsible for these rotational dependencies, as well as to nonbonding interactions between the aglycon and the chromophore at C6 for those stereoisomers having in their aglycon a bulky substituent syn to the endocyclic oxygen (O5). In addition, the chemical shift differences (Δδ) of the aglyconic protons of galactosylated chiral alcohols proved to be characteristic of the absolute configuration of the bonded chiral alcohol.

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Bibliographic Details
Main Authors: Padrón, Juan I., Quintana Morales, Ezequiel, Vázquez, Jesús T.
Other Authors: Ministerio de Educación y Cultura (España)
Format: artículo biblioteca
Language:English
Published: American Chemical Society 1998-10-29
Subjects:Alcohols, Reaction products, Absolute configuration, Molecular structure, Alkyls,
Online Access:http://hdl.handle.net/10261/212342
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spelling dig-ipna-es-10261-2123422020-05-28T01:11:23Z Alkyl Galactopyranosides:  Rotational Population Dependence of the Hydroxymethyl Group on the Aglycon and Its Absolute Configuration and on the Anomeric Configuration Padrón, Juan I. Quintana Morales, Ezequiel Vázquez, Jesús T. Ministerio de Educación y Cultura (España) Alcohols Reaction products Absolute configuration Molecular structure Alkyls The rotational populations of the hydroxymethyl group in chiral and nonchiral alkyl α- and β-galactopyranosides proved, on the basis of circular dichroism (CD) and 1H NMR data, to be dependent on the structure of the aglycon:  the population of the gt and tg rotamers increased and decreased, respectively, as the pKa of the bonded alcohol (aglycon) increased, while the population of the gg rotamer remained practically constant. Furthermore, low-temperature CD measurements proved that the most stable rotamer is the gt, and not the tg. In addition, a clear correlation between the rotational populations and the absolute configuration of the chiral aglycon was observed; namely, higher and smaller gt and tg populations were observed for the (S)-alkyl β-d-galactopyranosides than for their (R)-alkyl β-d-galactopyranoside counterparts, the opposite behavior being observed for the α-anomers. The results point to the exo anomeric effect as being responsible for these rotational dependencies, as well as to nonbonding interactions between the aglycon and the chromophore at C6 for those stereoisomers having in their aglycon a bulky substituent syn to the endocyclic oxygen (O5). In addition, the chemical shift differences (Δδ) of the aglyconic protons of galactosylated chiral alcohols proved to be characteristic of the absolute configuration of the bonded chiral alcohol. Peer reviewed 2020-05-27T10:52:39Z 2020-05-27T10:52:39Z 1998-10-29 artículo http://purl.org/coar/resource_type/c_6501 Journal of Organic Chemistry 63(23): 8247–8258 (1998) 0022-3263 http://hdl.handle.net/10261/212342 10.1021/jo981002t 1520-6904 en Postprint https://doi.org/10.1021/jo981002t No none American Chemical Society
institution IPNA ES
collection DSpace
country España
countrycode ES
component Bibliográfico
access En linea
databasecode dig-ipna-es
tag biblioteca
region Europa del Sur
libraryname Biblioteca del IPNA España
language English
topic Alcohols
Reaction products
Absolute configuration
Molecular structure
Alkyls
Alcohols
Reaction products
Absolute configuration
Molecular structure
Alkyls
spellingShingle Alcohols
Reaction products
Absolute configuration
Molecular structure
Alkyls
Alcohols
Reaction products
Absolute configuration
Molecular structure
Alkyls
Padrón, Juan I.
Quintana Morales, Ezequiel
Vázquez, Jesús T.
Alkyl Galactopyranosides:  Rotational Population Dependence of the Hydroxymethyl Group on the Aglycon and Its Absolute Configuration and on the Anomeric Configuration
description The rotational populations of the hydroxymethyl group in chiral and nonchiral alkyl α- and β-galactopyranosides proved, on the basis of circular dichroism (CD) and 1H NMR data, to be dependent on the structure of the aglycon:  the population of the gt and tg rotamers increased and decreased, respectively, as the pKa of the bonded alcohol (aglycon) increased, while the population of the gg rotamer remained practically constant. Furthermore, low-temperature CD measurements proved that the most stable rotamer is the gt, and not the tg. In addition, a clear correlation between the rotational populations and the absolute configuration of the chiral aglycon was observed; namely, higher and smaller gt and tg populations were observed for the (S)-alkyl β-d-galactopyranosides than for their (R)-alkyl β-d-galactopyranoside counterparts, the opposite behavior being observed for the α-anomers. The results point to the exo anomeric effect as being responsible for these rotational dependencies, as well as to nonbonding interactions between the aglycon and the chromophore at C6 for those stereoisomers having in their aglycon a bulky substituent syn to the endocyclic oxygen (O5). In addition, the chemical shift differences (Δδ) of the aglyconic protons of galactosylated chiral alcohols proved to be characteristic of the absolute configuration of the bonded chiral alcohol.
author2 Ministerio de Educación y Cultura (España)
author_facet Ministerio de Educación y Cultura (España)
Padrón, Juan I.
Quintana Morales, Ezequiel
Vázquez, Jesús T.
format artículo
topic_facet Alcohols
Reaction products
Absolute configuration
Molecular structure
Alkyls
author Padrón, Juan I.
Quintana Morales, Ezequiel
Vázquez, Jesús T.
author_sort Padrón, Juan I.
title Alkyl Galactopyranosides:  Rotational Population Dependence of the Hydroxymethyl Group on the Aglycon and Its Absolute Configuration and on the Anomeric Configuration
title_short Alkyl Galactopyranosides:  Rotational Population Dependence of the Hydroxymethyl Group on the Aglycon and Its Absolute Configuration and on the Anomeric Configuration
title_full Alkyl Galactopyranosides:  Rotational Population Dependence of the Hydroxymethyl Group on the Aglycon and Its Absolute Configuration and on the Anomeric Configuration
title_fullStr Alkyl Galactopyranosides:  Rotational Population Dependence of the Hydroxymethyl Group on the Aglycon and Its Absolute Configuration and on the Anomeric Configuration
title_full_unstemmed Alkyl Galactopyranosides:  Rotational Population Dependence of the Hydroxymethyl Group on the Aglycon and Its Absolute Configuration and on the Anomeric Configuration
title_sort alkyl galactopyranosides:  rotational population dependence of the hydroxymethyl group on the aglycon and its absolute configuration and on the anomeric configuration
publisher American Chemical Society
publishDate 1998-10-29
url http://hdl.handle.net/10261/212342
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AT quintanamoralesezequiel alkylgalactopyranosidesrotationalpopulationdependenceofthehydroxymethylgroupontheaglyconanditsabsoluteconfigurationandontheanomericconfiguration
AT vazquezjesust alkylgalactopyranosidesrotationalpopulationdependenceofthehydroxymethylgroupontheaglyconanditsabsoluteconfigurationandontheanomericconfiguration
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