6-Deoxyhexoses from l-Rhamnose in the Search for Inducers of the Rhamnose Operon: Synergy of Chemistry and Biotechnology

In the search for alternative non‐metabolizable inducers in the l‐rhamnose promoter system, the synthesis of fifteen 6‐deoxyhexoses from l‐rhamnose demonstrates the value of synergy between biotechnology and chemistry. The readily available 2,3‐acetonide of rhamnonolactone allows inversion of config...

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Veröffentlicht in:	Chemistry : a European journal 2016-08, Vol.22 (35), p.12557-12565
Hauptverfasser:	Liu, Zilei, Yoshihara, Akihide, Kelly, Ciarán, Heap, John T., Marqvorsen, Mikkel H. S., Jenkinson, Sarah F., Wormald, Mark R., Otero, José M., Estévez, Amalia, Kato, Atsushi, Fleet, George W. J., Estévez, Ramón J., Izumori, Ken
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Sprache:	eng
Schlagworte:	6-deoxyhexoses Analogue Biotechnology carbohydrates Chemistry Chiron Crystal structure Deoxy Sugars - chemistry Deoxyglucose - analogs & derivatives Deoxyglucose - chemistry Fructose - chemistry gene expression Glucose - chemistry Hexoses - chemistry Inducers Inversions Operon rhamnonolactone Rhamnose - chemistry rhamnose operon Searching Synthesis (chemistry)
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creator	Liu, Zilei Yoshihara, Akihide Kelly, Ciarán Heap, John T. Marqvorsen, Mikkel H. S. Jenkinson, Sarah F. Wormald, Mark R. Otero, José M. Estévez, Amalia Kato, Atsushi Fleet, George W. J. Estévez, Ramón J. Izumori, Ken
description	In the search for alternative non‐metabolizable inducers in the l‐rhamnose promoter system, the synthesis of fifteen 6‐deoxyhexoses from l‐rhamnose demonstrates the value of synergy between biotechnology and chemistry. The readily available 2,3‐acetonide of rhamnonolactone allows inversion of configuration at C4 and/or C5 of rhamnose to give 6‐deoxy‐d‐allose, 6‐deoxy‐d‐gulose and 6‐deoxy‐l‐talose. Highly crystalline 3,5‐benzylidene rhamnonolactone gives easy access to l‐quinovose (6‐deoxy‐l‐glucose), l‐olivose and rhamnose analogue with C2 azido, amino and acetamido substituents. Electrophilic fluorination of rhamnal gives a mixture of 2‐deoxy‐2‐fluoro‐l‐rhamnose and 2‐deoxy‐2‐fluoro‐l‐quinovose. Biotechnology provides access to 6‐deoxy‐l‐altrose and 1‐deoxy‐l‐fructose. Rhamnonolactone chiron perfection: The efficient production of fifteen 6‐deoxy‐sugars from l‐rhamnose by a synergy of chemical synthesis and biotechnology to find alternative non‐metabolizable inducers to rhamnose for the l‐rhamnose operon is described. Several inducers with different levels of activity were identified.
doi_str_mv	10.1002/chem.201602482
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Highly crystalline 3,5‐benzylidene rhamnonolactone gives easy access to l‐quinovose (6‐deoxy‐l‐glucose), l‐olivose and rhamnose analogue with C2 azido, amino and acetamido substituents. Electrophilic fluorination of rhamnal gives a mixture of 2‐deoxy‐2‐fluoro‐l‐rhamnose and 2‐deoxy‐2‐fluoro‐l‐quinovose. Biotechnology provides access to 6‐deoxy‐l‐altrose and 1‐deoxy‐l‐fructose. Rhamnonolactone chiron perfection: The efficient production of fifteen 6‐deoxy‐sugars from l‐rhamnose by a synergy of chemical synthesis and biotechnology to find alternative non‐metabolizable inducers to rhamnose for the l‐rhamnose operon is described. 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The readily available 2,3‐acetonide of rhamnonolactone allows inversion of configuration at C4 and/or C5 of rhamnose to give 6‐deoxy‐d‐allose, 6‐deoxy‐d‐gulose and 6‐deoxy‐l‐talose. Highly crystalline 3,5‐benzylidene rhamnonolactone gives easy access to l‐quinovose (6‐deoxy‐l‐glucose), l‐olivose and rhamnose analogue with C2 azido, amino and acetamido substituents. Electrophilic fluorination of rhamnal gives a mixture of 2‐deoxy‐2‐fluoro‐l‐rhamnose and 2‐deoxy‐2‐fluoro‐l‐quinovose. Biotechnology provides access to 6‐deoxy‐l‐altrose and 1‐deoxy‐l‐fructose. Rhamnonolactone chiron perfection: The efficient production of fifteen 6‐deoxy‐sugars from l‐rhamnose by a synergy of chemical synthesis and biotechnology to find alternative non‐metabolizable inducers to rhamnose for the l‐rhamnose operon is described. 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S.</au><au>Jenkinson, Sarah F.</au><au>Wormald, Mark R.</au><au>Otero, José M.</au><au>Estévez, Amalia</au><au>Kato, Atsushi</au><au>Fleet, George W. J.</au><au>Estévez, Ramón J.</au><au>Izumori, Ken</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>6-Deoxyhexoses from l-Rhamnose in the Search for Inducers of the Rhamnose Operon: Synergy of Chemistry and Biotechnology</atitle><jtitle>Chemistry : a European journal</jtitle><addtitle>Chem. Eur. J</addtitle><date>2016-08-22</date><risdate>2016</risdate><volume>22</volume><issue>35</issue><spage>12557</spage><epage>12565</epage><pages>12557-12565</pages><issn>0947-6539</issn><eissn>1521-3765</eissn><coden>CEUJED</coden><abstract>In the search for alternative non‐metabolizable inducers in the l‐rhamnose promoter system, the synthesis of fifteen 6‐deoxyhexoses from l‐rhamnose demonstrates the value of synergy between biotechnology and chemistry. 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subjects	6-deoxyhexoses Analogue Biotechnology carbohydrates Chemistry Chiron Crystal structure Deoxy Sugars - chemistry Deoxyglucose - analogs & derivatives Deoxyglucose - chemistry Fructose - chemistry gene expression Glucose - chemistry Hexoses - chemistry Inducers Inversions Operon rhamnonolactone Rhamnose - chemistry rhamnose operon Searching Synthesis (chemistry)
title	6-Deoxyhexoses from l-Rhamnose in the Search for Inducers of the Rhamnose Operon: Synergy of Chemistry and Biotechnology
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