Bolaamphiphiles Derived from Alkenyl L-Rhamnosides and Alkenyl D-Xylosides: Importance of the Hydrophilic Head
The two step synthesis of a new bolaamphiphile derived from alkenyl l-rhamnosides was described. The general synthetic strategy of bolaamphiphiles derived from l-rhamnose was based on a previous work describing the synthesis of bolaamphiphiles derived from d-xylose. The conformational properties of...
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| Language: | English |
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MDPI AG
2013-05-01
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| Series: | Molecules |
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| Online Access: | http://www.mdpi.com/1420-3049/18/5/6101 |
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doaj-f27b604b998d400fb67de5626702ac932020-11-24T21:04:34ZengMDPI AGMolecules1420-30492013-05-011856101611210.3390/molecules18056101Bolaamphiphiles Derived from Alkenyl L-Rhamnosides and Alkenyl D-Xylosides: Importance of the Hydrophilic HeadSandrine BouquillonVincent LegrandNadia KlaiMagali DeleuMehmet Nail NasirSylvain GatardThe two step synthesis of a new bolaamphiphile derived from alkenyl l-rhamnosides was described. The general synthetic strategy of bolaamphiphiles derived from l-rhamnose was based on a previous work describing the synthesis of bolaamphiphiles derived from d-xylose. The conformational properties of this new compound were investigated by FTIR spectroscopy in an aqueous film in order to obtain a reference for further studies about the membrane-interacting properties. Moreover, the surface activity of this new bolaamphiphile was analyzed by Langmuir balance technology and was compared with that of the analogous bolaamphiphile derived from alkenyl D-xylosides. The findings indicate that the rhamnoside-based bolaform has an increased surface activity and a better ability to form aggregates than xyloside-based one.http://www.mdpi.com/1420-3049/18/5/6101rhamnoseglycosylationmetathesissurfactantbolaforminterfacial properties |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Sandrine Bouquillon Vincent Legrand Nadia Klai Magali Deleu Mehmet Nail Nasir Sylvain Gatard |
| spellingShingle |
Sandrine Bouquillon Vincent Legrand Nadia Klai Magali Deleu Mehmet Nail Nasir Sylvain Gatard Bolaamphiphiles Derived from Alkenyl L-Rhamnosides and Alkenyl D-Xylosides: Importance of the Hydrophilic Head Molecules rhamnose glycosylation metathesis surfactant bolaform interfacial properties |
| author_facet |
Sandrine Bouquillon Vincent Legrand Nadia Klai Magali Deleu Mehmet Nail Nasir Sylvain Gatard |
| author_sort |
Sandrine Bouquillon |
| title |
Bolaamphiphiles Derived from Alkenyl L-Rhamnosides and Alkenyl D-Xylosides: Importance of the Hydrophilic Head |
| title_short |
Bolaamphiphiles Derived from Alkenyl L-Rhamnosides and Alkenyl D-Xylosides: Importance of the Hydrophilic Head |
| title_full |
Bolaamphiphiles Derived from Alkenyl L-Rhamnosides and Alkenyl D-Xylosides: Importance of the Hydrophilic Head |
| title_fullStr |
Bolaamphiphiles Derived from Alkenyl L-Rhamnosides and Alkenyl D-Xylosides: Importance of the Hydrophilic Head |
| title_full_unstemmed |
Bolaamphiphiles Derived from Alkenyl L-Rhamnosides and Alkenyl D-Xylosides: Importance of the Hydrophilic Head |
| title_sort |
bolaamphiphiles derived from alkenyl l-rhamnosides and alkenyl d-xylosides: importance of the hydrophilic head |
| publisher |
MDPI AG |
| series |
Molecules |
| issn |
1420-3049 |
| publishDate |
2013-05-01 |
| description |
The two step synthesis of a new bolaamphiphile derived from alkenyl l-rhamnosides was described. The general synthetic strategy of bolaamphiphiles derived from l-rhamnose was based on a previous work describing the synthesis of bolaamphiphiles derived from d-xylose. The conformational properties of this new compound were investigated by FTIR spectroscopy in an aqueous film in order to obtain a reference for further studies about the membrane-interacting properties. Moreover, the surface activity of this new bolaamphiphile was analyzed by Langmuir balance technology and was compared with that of the analogous bolaamphiphile derived from alkenyl D-xylosides. The findings indicate that the rhamnoside-based bolaform has an increased surface activity and a better ability to form aggregates than xyloside-based one. |
| topic |
rhamnose glycosylation metathesis surfactant bolaform interfacial properties |
| url |
http://www.mdpi.com/1420-3049/18/5/6101 |
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