Cellulose Chemistry Meets Click Chemistry: Syntheses and Properties of Cellulose-Based Glycoclusters with High Structural Homogeneity

Cellulose Chemistry Meets Click Chemistry: Syntheses and Properties of Cellulose-Based Glycoclusters with High Structural Homogeneity

b-1,4-Glucans having oligosaccharide appendages (O-/N-linked b-maltoside and O-/N-linked b-lactoside) at 6C positions of all repeating units can be readily prepared from cellulose through a two step strategy composed of: (1) regio-selective and quantitative bromination/azidation to afford 6-azido-6-...

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Main Authors: Teruaki Hasegawa, Atsushi Otsuka, Erika Yamashita, Yoichi Mashiko, Kaori Negishi
Format: Article
Language:English
Published: MDPI AG 2011-02-01
Series:Polymers
Subjects:
cellulose
6-bromo-6-deoxycellulose
6-azide-6-deoxycellulose
glycopolymers
regio-selective modifications
lectins
molecular dynamics
Online Access:http://www.mdpi.com/2073-4360/3/1/489/
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spelling doaj-ab366a0829d44bf293f51b5d03a507502020-11-24T22:38:23ZengMDPI AGPolymers2073-43602011-02-013148950810.3390/polym3010489Cellulose Chemistry Meets Click Chemistry: Syntheses and Properties of Cellulose-Based Glycoclusters with High Structural HomogeneityTeruaki HasegawaAtsushi OtsukaErika YamashitaYoichi MashikoKaori Negishib-1,4-Glucans having oligosaccharide appendages (O-/N-linked b-maltoside and O-/N-linked b-lactoside) at 6C positions of all repeating units can be readily prepared from cellulose through a two step strategy composed of: (1) regio-selective and quantitative bromination/azidation to afford 6-azido-6-deoxycellulose; and (2) the subsequent Cu+-catalyzed coupling with oligosaccharides having terminal alkyne. The resultant cellulose derivatives showed improved water solubility in comparison to native cellulose; they, however, bound to carbohydrate-binding proteins in a rather non-specific manner. Molecular dynamics calculations revealed that these properties are attributable to rigid sheet-like structures of the cellulose derivatives and the subsequent exposure of their hydrophobic moieties to solvents. http://www.mdpi.com/2073-4360/3/1/489/cellulose6-bromo-6-deoxycellulose6-azide-6-deoxycelluloseglycopolymersregio-selective modificationslectinsmolecular dynamics
collection DOAJ
language English
format Article
sources DOAJ
author Teruaki Hasegawa
Atsushi Otsuka
Erika Yamashita
Yoichi Mashiko
Kaori Negishi
spellingShingle Teruaki Hasegawa
Atsushi Otsuka
Erika Yamashita
Yoichi Mashiko
Kaori Negishi
Cellulose Chemistry Meets Click Chemistry: Syntheses and Properties of Cellulose-Based Glycoclusters with High Structural Homogeneity
Polymers
cellulose
6-bromo-6-deoxycellulose
6-azide-6-deoxycellulose
glycopolymers
regio-selective modifications
lectins
molecular dynamics
author_facet Teruaki Hasegawa
Atsushi Otsuka
Erika Yamashita
Yoichi Mashiko
Kaori Negishi
author_sort Teruaki Hasegawa
title Cellulose Chemistry Meets Click Chemistry: Syntheses and Properties of Cellulose-Based Glycoclusters with High Structural Homogeneity
title_short Cellulose Chemistry Meets Click Chemistry: Syntheses and Properties of Cellulose-Based Glycoclusters with High Structural Homogeneity
title_full Cellulose Chemistry Meets Click Chemistry: Syntheses and Properties of Cellulose-Based Glycoclusters with High Structural Homogeneity
title_fullStr Cellulose Chemistry Meets Click Chemistry: Syntheses and Properties of Cellulose-Based Glycoclusters with High Structural Homogeneity
title_full_unstemmed Cellulose Chemistry Meets Click Chemistry: Syntheses and Properties of Cellulose-Based Glycoclusters with High Structural Homogeneity
title_sort cellulose chemistry meets click chemistry: syntheses and properties of cellulose-based glycoclusters with high structural homogeneity
publisher MDPI AG
series Polymers
issn 2073-4360
publishDate 2011-02-01
description b-1,4-Glucans having oligosaccharide appendages (O-/N-linked b-maltoside and O-/N-linked b-lactoside) at 6C positions of all repeating units can be readily prepared from cellulose through a two step strategy composed of: (1) regio-selective and quantitative bromination/azidation to afford 6-azido-6-deoxycellulose; and (2) the subsequent Cu+-catalyzed coupling with oligosaccharides having terminal alkyne. The resultant cellulose derivatives showed improved water solubility in comparison to native cellulose; they, however, bound to carbohydrate-binding proteins in a rather non-specific manner. Molecular dynamics calculations revealed that these properties are attributable to rigid sheet-like structures of the cellulose derivatives and the subsequent exposure of their hydrophobic moieties to solvents.
topic cellulose
6-bromo-6-deoxycellulose
6-azide-6-deoxycellulose
glycopolymers
regio-selective modifications
lectins
molecular dynamics
url http://www.mdpi.com/2073-4360/3/1/489/
work_keys_str_mv AT teruakihasegawa cellulosechemistrymeetsclickchemistrysynthesesandpropertiesofcellulosebasedglycoclusterswithhighstructuralhomogeneity
AT atsushiotsuka cellulosechemistrymeetsclickchemistrysynthesesandpropertiesofcellulosebasedglycoclusterswithhighstructuralhomogeneity
AT erikayamashita cellulosechemistrymeetsclickchemistrysynthesesandpropertiesofcellulosebasedglycoclusterswithhighstructuralhomogeneity
AT yoichimashiko cellulosechemistrymeetsclickchemistrysynthesesandpropertiesofcellulosebasedglycoclusterswithhighstructuralhomogeneity
AT kaorinegishi cellulosechemistrymeetsclickchemistrysynthesesandpropertiesofcellulosebasedglycoclusterswithhighstructuralhomogeneity
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