Bile acids: Lipase-catalyzed synthesis of new hyodeoxycholic acid derivatives

In this work we present an efficient, environmentally friendly approach to the synthesis of a series of hyodeoxycholic acid derivatives applying Biocatalysis. Fifteen acetyl and ester derivatives, twelve of them new, were obtained through an enzymatic strategy in a fully regioselective way and in ve...

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Autores principales: Chanquia, S.N., Ripani, E., Baldessari, A., García Liñares, G.
Formato: JOUR
Materias:
Bile acid
Biocatalysis
Hyodeoxycholic acid
Lipases
acetic acid derivative
alcohol
bile acid
ester derivative
hyodeoxycholic acid
solvent
triacylglycerol lipase
Article
biocatalysis
regioselectivity
synthesis
Acceso en línea:http://hdl.handle.net/20.500.12110/paper_0039128X_v140_n_p45_Chanquia
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
id todo:paper_0039128X_v140_n_p45_Chanquia
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spelling todo:paper_0039128X_v140_n_p45_Chanquia2023-10-03T14:49:19Z Bile acids: Lipase-catalyzed synthesis of new hyodeoxycholic acid derivatives Chanquia, S.N. Ripani, E. Baldessari, A. García Liñares, G. Bile acid Biocatalysis Hyodeoxycholic acid Lipases acetic acid derivative alcohol bile acid ester derivative hyodeoxycholic acid solvent triacylglycerol lipase Article biocatalysis regioselectivity synthesis In this work we present an efficient, environmentally friendly approach to the synthesis of a series of hyodeoxycholic acid derivatives applying Biocatalysis. Fifteen acetyl and ester derivatives, twelve of them new, were obtained through an enzymatic strategy in a fully regioselective way and in very good to excellent yield. In order to find the optimal reaction conditions, the influence of several parameters such as enzyme source, alcohol or acylating agent:substrate ratio, enzyme:substrate ratio, temperature and reaction solvent was considered. The excellent results obtained made this procedure very efficient, particularly considering the low amount of enzyme required. In addition, this methodology uses mild reaction conditions and has reduced environmental impact, making biocatalysis a suitable way to obtaining these bile acids derivatives. © 2018 Elsevier Inc. JOUR info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_0039128X_v140_n_p45_Chanquia
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic Bile acid
Biocatalysis
Hyodeoxycholic acid
Lipases
acetic acid derivative
alcohol
bile acid
ester derivative
hyodeoxycholic acid
solvent
triacylglycerol lipase
Article
biocatalysis
regioselectivity
synthesis
spellingShingle Bile acid
Biocatalysis
Hyodeoxycholic acid
Lipases
acetic acid derivative
alcohol
bile acid
ester derivative
hyodeoxycholic acid
solvent
triacylglycerol lipase
Article
biocatalysis
regioselectivity
synthesis
Chanquia, S.N.
Ripani, E.
Baldessari, A.
García Liñares, G.
Bile acids: Lipase-catalyzed synthesis of new hyodeoxycholic acid derivatives
topic_facet Bile acid
Biocatalysis
Hyodeoxycholic acid
Lipases
acetic acid derivative
alcohol
bile acid
ester derivative
hyodeoxycholic acid
solvent
triacylglycerol lipase
Article
biocatalysis
regioselectivity
synthesis
description In this work we present an efficient, environmentally friendly approach to the synthesis of a series of hyodeoxycholic acid derivatives applying Biocatalysis. Fifteen acetyl and ester derivatives, twelve of them new, were obtained through an enzymatic strategy in a fully regioselective way and in very good to excellent yield. In order to find the optimal reaction conditions, the influence of several parameters such as enzyme source, alcohol or acylating agent:substrate ratio, enzyme:substrate ratio, temperature and reaction solvent was considered. The excellent results obtained made this procedure very efficient, particularly considering the low amount of enzyme required. In addition, this methodology uses mild reaction conditions and has reduced environmental impact, making biocatalysis a suitable way to obtaining these bile acids derivatives. © 2018 Elsevier Inc.
format JOUR
author Chanquia, S.N.
Ripani, E.
Baldessari, A.
García Liñares, G.
author_facet Chanquia, S.N.
Ripani, E.
Baldessari, A.
García Liñares, G.
author_sort Chanquia, S.N.
title Bile acids: Lipase-catalyzed synthesis of new hyodeoxycholic acid derivatives
title_short Bile acids: Lipase-catalyzed synthesis of new hyodeoxycholic acid derivatives
title_full Bile acids: Lipase-catalyzed synthesis of new hyodeoxycholic acid derivatives
title_fullStr Bile acids: Lipase-catalyzed synthesis of new hyodeoxycholic acid derivatives
title_full_unstemmed Bile acids: Lipase-catalyzed synthesis of new hyodeoxycholic acid derivatives
title_sort bile acids: lipase-catalyzed synthesis of new hyodeoxycholic acid derivatives
url http://hdl.handle.net/20.500.12110/paper_0039128X_v140_n_p45_Chanquia
work_keys_str_mv AT chanquiasn bileacidslipasecatalyzedsynthesisofnewhyodeoxycholicacidderivatives
AT ripanie bileacidslipasecatalyzedsynthesisofnewhyodeoxycholicacidderivatives
AT baldessaria bileacidslipasecatalyzedsynthesisofnewhyodeoxycholicacidderivatives
AT garcialinaresg bileacidslipasecatalyzedsynthesisofnewhyodeoxycholicacidderivatives
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