Synthesis of fruity ethyl esters by acyl coenzyme A: alcohol acyltransferase and reverse esterase activities in Oenococcus oeni and Lactobacillus plantarum

Aims To assess the abilities of commercial wine lactic acid bacteria (LAB) to synthesize potentially flavour active fatty acid ethyl esters and determine mechanisms involved in their production. Methods and Results Oenococcus oeni AWRI B551 produced significant levels of ethyl hexanoate and ethyl oc...

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Published inJournal of applied microbiology Vol. 114; no. 3; pp. 797 - 806
Main Authors Costello, P.J., Siebert, T.E., Solomon, M.R., Bartowsky, E.J.
Format Journal Article
LanguageEnglish
Published Oxford Blackwell 01.03.2013
Oxford University Press
Subjects
Acyl Coenzyme A - metabolism
Acyltransferases - metabolism
alcohol acyltransferase
Biological and medical sciences
Biosynthesis
Biotechnology
Caproates - metabolism
Caprylates - metabolism
Enzymes
ester biosynthesis
esterase
Esterases - metabolism
Esters - metabolism
Ethanol
Fatty acids
Fatty Acids - metabolism
Fermentation
Food Microbiology
Fruit - metabolism
Fundamental and applied biological sciences. Psychology
Gas Chromatography-Mass Spectrometry
Lactobacillus plantarum
Lactobacillus plantarum - enzymology
Lactobacillus plantarum - metabolism
malolactic fermentation
Methods. Procedures. Technologies
Microbial engineering. Fermentation and microbial culture technology
Microbiology
Oenococcus - enzymology
Oenococcus - metabolism
Oenococcus oeni
Vitaceae
Wine - microbiology
Acyltransferases
Lactic acid bacteria
Lactobacillus plantarum
Enzyme
Applied microbiology
Transferases
Alcohol
Biosynthesis
Esterases
Coenzyme
Malolactic fermentation
Ester
alcohol acyltransferase
Bacteria
Hydrolases
Lactobacillaceae
esterase
Oenococcus oeni
ester biosynthesis
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Abstract Aims To assess the abilities of commercial wine lactic acid bacteria (LAB) to synthesize potentially flavour active fatty acid ethyl esters and determine mechanisms involved in their production. Methods and Results Oenococcus oeni AWRI B551 produced significant levels of ethyl hexanoate and ethyl octanoate following growth in an ethanolic test medium, and ester formation generally increased with increasing pH (4·5 > 3·5), anaerobiosis and precursor supplementation. Cell‐free extracts of commercial O. oeni strains and Lactobacillus plantarum AWRI B740 were also tested for ester‐synthesizing capabilities in a phosphate buffer via: (i) acyl coenzyme A: alcohol acyltransferase (AcoAAAT) activity and (ii) reverse esterase activity. For both ester‐synthesizing activities, strain‐dependent variation was observed, with AcoAAAT activity generally greater than reverse esterase. Reverse esterase in O. oeni AWRI B551 also esterified 1‐propanol to produce propyl octanoate, and deuterated substrates ([2H6]ethanol and [2H15]octanoic acid) to produce the fully deuterated ester, [2H5]ethyl [2H15]octanoate. Conclusions Wine LAB exhibit ethyl ester‐synthesizing capability and possess two different ester‐synthesizing activities, one of which is associated with an acyl coenzyme A: alcohol acyltransferase. Significance and Impact of the Study This study demonstrates that wine LAB exhibit enzyme activities that can augment the ethyl ester content of wine. This knowledge will facilitate greater control over the impacts of malolactic fermentation on the fruity sensory properties and quality of wine.
AbstractList To assess the abilities of commercial wine lactic acid bacteria (LAB) to synthesize potentially flavour active fatty acid ethyl esters and determine mechanisms involved in their production. Oenococcus oeni AWRI B551 produced significant levels of ethyl hexanoate and ethyl octanoate following growth in an ethanolic test medium, and ester formation generally increased with increasing pH (4.5 > 3.5), anaerobiosis and precursor supplementation. Cell-free extracts of commercial O. oeni strains and Lactobacillus plantarum AWRI B740 were also tested for ester-synthesizing capabilities in a phosphate buffer via: (i) acyl coenzyme A: alcohol acyltransferase (AcoAAAT) activity and (ii) reverse esterase activity. For both ester-synthesizing activities, strain-dependent variation was observed, with AcoAAAT activity generally greater than reverse esterase. Reverse esterase in O. oeni AWRI B551 also esterified 1-propanol to produce propyl octanoate, and deuterated substrates ([(2)H(6)]ethanol and [(2)H(15)]octanoic acid) to produce the fully deuterated ester, [(2)H(5)]ethyl [(2)H(15)]octanoate. Wine LAB exhibit ethyl ester-synthesizing capability and possess two different ester-synthesizing activities, one of which is associated with an acyl coenzyme A: alcohol acyltransferase. This study demonstrates that wine LAB exhibit enzyme activities that can augment the ethyl ester content of wine. This knowledge will facilitate greater control over the impacts of malolactic fermentation on the fruity sensory properties and quality of wine.
Aims To assess the abilities of commercial wine lactic acid bacteria (LAB) to synthesize potentially flavour active fatty acid ethyl esters and determine mechanisms involved in their production. Methods and Results Oenococcus oeniAWRI B551 produced significant levels of ethyl hexanoate and ethyl octanoate following growth in an ethanolic test medium, and ester formation generally increased with increasing pH (4·5 > 3·5), anaerobiosis and precursor supplementation. Cell-free extracts of commercial O. oeni strains and Lactobacillus plantarumAWRI B740 were also tested for ester-synthesizing capabilities in a phosphate buffer via: (i) acyl coenzyme A: alcohol acyltransferase (AcoAAAT) activity and (ii) reverse esterase activity. For both ester-synthesizing activities, strain-dependent variation was observed, with AcoAAAT activity generally greater than reverse esterase. Reverse esterase in O. oeniAWRI B551 also esterified 1-propanol to produce propyl octanoate, and deuterated substrates ([2H6]ethanol and [2H15]octanoic acid) to produce the fully deuterated ester, [2H5]ethyl [2H15]octanoate. Conclusions Wine LAB exhibit ethyl ester-synthesizing capability and possess two different ester-synthesizing activities, one of which is associated with an acyl coenzyme A: alcohol acyltransferase. Significance and Impact of the Study This study demonstrates that wine LAB exhibit enzyme activities that can augment the ethyl ester content of wine. This knowledge will facilitate greater control over the impacts of malolactic fermentation on the fruity sensory properties and quality of wine. [PUBLICATION ABSTRACT]
To assess the abilities of commercial wine lactic acid bacteria (LAB) to synthesize potentially flavour active fatty acid ethyl esters and determine mechanisms involved in their production. Oenococcus oeni AWRI B551 produced significant levels of ethyl hexanoate and ethyl octanoate following growth in an ethanolic test medium, and ester formation generally increased with increasing pH (4.5 > 3.5), anaerobiosis and precursor supplementation. Cell-free extracts of commercial O. oeni strains and Lactobacillus plantarum AWRI B740 were also tested for ester-synthesizing capabilities in a phosphate buffer via: (i) acyl coenzyme A: alcohol acyltransferase (AcoAAAT) activity and (ii) reverse esterase activity. For both ester-synthesizing activities, strain-dependent variation was observed, with AcoAAAT activity generally greater than reverse esterase. Reverse esterase in O. oeni AWRI B551 also esterified 1-propanol to produce propyl octanoate, and deuterated substrates ([2H6]ethanol and [2H15]octanoic acid) to produce the fully deuterated ester, [2H5]ethyl [2H15]octanoate. Wine LAB exhibit ethyl ester-synthesizing capability and possess two different ester-synthesizing activities, one of which is associated with an acyl coenzyme A: alcohol acyltransferase. This study demonstrates that wine LAB exhibit enzyme activities that can augment the ethyl ester content of wine. This knowledge will facilitate greater control over the impacts of malolactic fermentation on the fruity sensory properties and quality of wine.
Aims To assess the abilities of commercial wine lactic acid bacteria (LAB) to synthesize potentially flavour active fatty acid ethyl esters and determine mechanisms involved in their production. Methods and Results Oenococcus oeni AWRI B551 produced significant levels of ethyl hexanoate and ethyl octanoate following growth in an ethanolic test medium, and ester formation generally increased with increasing pH (4·5 > 3·5), anaerobiosis and precursor supplementation. Cell‐free extracts of commercial O. oeni strains and Lactobacillus plantarum AWRI B740 were also tested for ester‐synthesizing capabilities in a phosphate buffer via: (i) acyl coenzyme A: alcohol acyltransferase (AcoAAAT) activity and (ii) reverse esterase activity. For both ester‐synthesizing activities, strain‐dependent variation was observed, with AcoAAAT activity generally greater than reverse esterase. Reverse esterase in O. oeni AWRI B551 also esterified 1‐propanol to produce propyl octanoate, and deuterated substrates ([2H6]ethanol and [2H15]octanoic acid) to produce the fully deuterated ester, [2H5]ethyl [2H15]octanoate. Conclusions Wine LAB exhibit ethyl ester‐synthesizing capability and possess two different ester‐synthesizing activities, one of which is associated with an acyl coenzyme A: alcohol acyltransferase. Significance and Impact of the Study This study demonstrates that wine LAB exhibit enzyme activities that can augment the ethyl ester content of wine. This knowledge will facilitate greater control over the impacts of malolactic fermentation on the fruity sensory properties and quality of wine.
AIMSTo assess the abilities of commercial wine lactic acid bacteria (LAB) to synthesize potentially flavour active fatty acid ethyl esters and determine mechanisms involved in their production.METHODS AND RESULTSOenococcus oeni AWRI B551 produced significant levels of ethyl hexanoate and ethyl octanoate following growth in an ethanolic test medium, and ester formation generally increased with increasing pH (4.5 > 3.5), anaerobiosis and precursor supplementation. Cell-free extracts of commercial O. oeni strains and Lactobacillus plantarum AWRI B740 were also tested for ester-synthesizing capabilities in a phosphate buffer via: (i) acyl coenzyme A: alcohol acyltransferase (AcoAAAT) activity and (ii) reverse esterase activity. For both ester-synthesizing activities, strain-dependent variation was observed, with AcoAAAT activity generally greater than reverse esterase. Reverse esterase in O. oeni AWRI B551 also esterified 1-propanol to produce propyl octanoate, and deuterated substrates ([(2)H(6)]ethanol and [(2)H(15)]octanoic acid) to produce the fully deuterated ester, [(2)H(5)]ethyl [(2)H(15)]octanoate.CONCLUSIONSWine LAB exhibit ethyl ester-synthesizing capability and possess two different ester-synthesizing activities, one of which is associated with an acyl coenzyme A: alcohol acyltransferase.SIGNIFICANCE AND IMPACT OF THE STUDYThis study demonstrates that wine LAB exhibit enzyme activities that can augment the ethyl ester content of wine. This knowledge will facilitate greater control over the impacts of malolactic fermentation on the fruity sensory properties and quality of wine.
Author Solomon, M.R.
Siebert, T.E.
Bartowsky, E.J.
Costello, P.J.
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  surname: Bartowsky
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Issue 3
Keywords Acyltransferases
Lactic acid bacteria
Lactobacillus plantarum
Enzyme
Applied microbiology
Transferases
Alcohol
Biosynthesis
Esterases
Coenzyme
Malolactic fermentation
Ester
alcohol acyltransferase
Bacteria
Hydrolases
Lactobacillaceae
esterase
Oenococcus oeni
ester biosynthesis
Language English
License CC BY 4.0
2012 Australian Wine Research Institute © 2012 The Society for Applied Microbiology.
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Snippet Aims To assess the abilities of commercial wine lactic acid bacteria (LAB) to synthesize potentially flavour active fatty acid ethyl esters and determine...
To assess the abilities of commercial wine lactic acid bacteria (LAB) to synthesize potentially flavour active fatty acid ethyl esters and determine mechanisms...
Aims To assess the abilities of commercial wine lactic acid bacteria (LAB) to synthesize potentially flavour active fatty acid ethyl esters and determine...
AIMSTo assess the abilities of commercial wine lactic acid bacteria (LAB) to synthesize potentially flavour active fatty acid ethyl esters and determine...
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SubjectTerms Acyl Coenzyme A - metabolism
Acyltransferases - metabolism
alcohol acyltransferase
Biological and medical sciences
Biosynthesis
Biotechnology
Caproates - metabolism
Caprylates - metabolism
Enzymes
ester biosynthesis
esterase
Esterases - metabolism
Esters - metabolism
Ethanol
Fatty acids
Fatty Acids - metabolism
Fermentation
Food Microbiology
Fruit - metabolism
Fundamental and applied biological sciences. Psychology
Gas Chromatography-Mass Spectrometry
Lactobacillus plantarum
Lactobacillus plantarum - enzymology
Lactobacillus plantarum - metabolism
malolactic fermentation
Methods. Procedures. Technologies
Microbial engineering. Fermentation and microbial culture technology
Microbiology
Oenococcus - enzymology
Oenococcus - metabolism
Oenococcus oeni
Vitaceae
Wine - microbiology
Title Synthesis of fruity ethyl esters by acyl coenzyme A: alcohol acyltransferase and reverse esterase activities in Oenococcus oeni and Lactobacillus plantarum
URI https://onlinelibrary.wiley.com/doi/abs/10.1111%2Fjam.12098
https://www.ncbi.nlm.nih.gov/pubmed/23216623
https://www.proquest.com/docview/1431980477
https://search.proquest.com/docview/1289487053
https://search.proquest.com/docview/1315625017
Volume 114
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