New protocol based on UHPLC-MS/MS for quantitation of metabolites in xylose-fermenting yeasts.

New protocol based on UHPLC-MS/MS for quantitation of metabolites in xylose-fermenting yeasts.

Abstract: Xylose fermentation is a bottleneck in second-generation ethanol production. As such, a comprehensive understanding of xylose metabolism in naturally xylose-fermenting yeasts is essential for prospection and construction of recombinant yeast strains. The objective of the current study was to establish a reliable metabolomics protocol for quantification of key metabolites of xylose catabolism pathways in yeast, and to apply this protocol to Spathaspora arborariae. Ultra-high performance liquid chromatography coupled to tandem mass spectrometry (UHPLC-MS/MS) was used to quantify metabolites, and afterwards, sample preparation was optimized to examine yeast intracellular metabolites. S. arborariae was cultivated using xylose as a carbon source under aerobic and oxygen-limited conditions. Ion pair chromatography (IPC) and hydrophilic interaction liquid chromatography-tandem mass spectrometry (HILIC-MS/MS) were shown to efficiently quantify 14 and 5 metabolites, respectively, in a more rapid chromatographic protocol than previously described. Thirteen and eleven metabolites were quantified in S. arborariae under aerobic and oxygen-limited conditions, respectively. This targeted metabolomics protocol is shown here to quantify a total of 19 metabolites, including sugars, phosphates, coenzymes, monosaccharides, and alcohols, from xylose catabolism pathways (glycolysis, pentose phosphate pathway, and tricarboxylic acid cycle) in yeast. Furthermore, to our knowledge, this is the first time that intracellular metabolites have been quantified in S. arborariae after xylose consumption. The results indicated that fine control of oxygen levels during fermentation is necessary to optimize ethanol production by S. arborariae. The protocol presented here may be applied to other yeast species and could support yeast genetic engineering to improve second generation ethanol production. Graphical Abstract ?.

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Main Authors: CAMPOS, C. G., VERAS, H. C. T., RIBEIRO, J. A. de A., COSTA, P. P. K. G., ARAÚJO, K. P., RODRIGUES, C. M., ALMEIDA, J. R. M. de, ABDELNUR, P. V.
Other Authors: CHRISTIANE GONÇALVES CAMPOS, Universidade Federal de Goiás; HENRIQUE CÉSAR TEIXEIRA VERAS, Universidade de Brasília; JOSE ANTONIO DE AQUINO RIBEIRO, CNPAE; PATRICIA PINTO KALIL G COSTA, CNPAE; KATIÚSCIA PEREIRA ARAÚJO; CLENILSON MARTINS RODRIGUES, CNPAE; JOAO RICARDO MOREIRA DE ALMEIDA, CNPAE; PATRICIA VERARDI ABDELNUR, CNPAE.
Format: Artigo de periódico biblioteca
Language:Ingles
English
Published: 2017-09-11
Subjects:Spathaspora arborariae, UHPLC-MS/MS, Xylose fermentation, Mass spectrometry, Metabolomics, Xylose.,
Online Access:http://www.alice.cnptia.embrapa.br/alice/handle/doc/1075378
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spelling dig-alice-doc-10753782021-04-06T18:34:03Z New protocol based on UHPLC-MS/MS for quantitation of metabolites in xylose-fermenting yeasts. CAMPOS, C. G. VERAS, H. C. T. RIBEIRO, J. A. de A. COSTA, P. P. K. G. ARAÚJO, K. P. RODRIGUES, C. M. ALMEIDA, J. R. M. de ABDELNUR, P. V. CHRISTIANE GONÇALVES CAMPOS, Universidade Federal de Goiás; HENRIQUE CÉSAR TEIXEIRA VERAS, Universidade de Brasília; JOSE ANTONIO DE AQUINO RIBEIRO, CNPAE; PATRICIA PINTO KALIL G COSTA, CNPAE; KATIÚSCIA PEREIRA ARAÚJO; CLENILSON MARTINS RODRIGUES, CNPAE; JOAO RICARDO MOREIRA DE ALMEIDA, CNPAE; PATRICIA VERARDI ABDELNUR, CNPAE. Spathaspora arborariae UHPLC-MS/MS Xylose fermentation Mass spectrometry Metabolomics Xylose. Abstract: Xylose fermentation is a bottleneck in second-generation ethanol production. As such, a comprehensive understanding of xylose metabolism in naturally xylose-fermenting yeasts is essential for prospection and construction of recombinant yeast strains. The objective of the current study was to establish a reliable metabolomics protocol for quantification of key metabolites of xylose catabolism pathways in yeast, and to apply this protocol to Spathaspora arborariae. Ultra-high performance liquid chromatography coupled to tandem mass spectrometry (UHPLC-MS/MS) was used to quantify metabolites, and afterwards, sample preparation was optimized to examine yeast intracellular metabolites. S. arborariae was cultivated using xylose as a carbon source under aerobic and oxygen-limited conditions. Ion pair chromatography (IPC) and hydrophilic interaction liquid chromatography-tandem mass spectrometry (HILIC-MS/MS) were shown to efficiently quantify 14 and 5 metabolites, respectively, in a more rapid chromatographic protocol than previously described. Thirteen and eleven metabolites were quantified in S. arborariae under aerobic and oxygen-limited conditions, respectively. This targeted metabolomics protocol is shown here to quantify a total of 19 metabolites, including sugars, phosphates, coenzymes, monosaccharides, and alcohols, from xylose catabolism pathways (glycolysis, pentose phosphate pathway, and tricarboxylic acid cycle) in yeast. Furthermore, to our knowledge, this is the first time that intracellular metabolites have been quantified in S. arborariae after xylose consumption. The results indicated that fine control of oxygen levels during fermentation is necessary to optimize ethanol production by S. arborariae. The protocol presented here may be applied to other yeast species and could support yeast genetic engineering to improve second generation ethanol production. Graphical Abstract ?. 2021-04-06T18:33:52Z 2021-04-06T18:33:52Z 2017-09-11 2017 Artigo de periódico Journal of the American Society for Mass Spectrometry, v. 28, n. 12, p. 2646-2657, 2017. http://www.alice.cnptia.embrapa.br/alice/handle/doc/1075378 10.1007/s13361-017-1786-9 Ingles en openAccess p. 2646-2657
institution EMBRAPA
collection DSpace
country Brasil
countrycode BR
component Bibliográfico
access En linea
databasecode dig-alice
tag biblioteca
region America del Sur
libraryname Sistema de bibliotecas de EMBRAPA
language Ingles
English
topic Spathaspora arborariae
UHPLC-MS/MS
Xylose fermentation
Mass spectrometry
Metabolomics
Xylose.
Spathaspora arborariae
UHPLC-MS/MS
Xylose fermentation
Mass spectrometry
Metabolomics
Xylose.
spellingShingle Spathaspora arborariae
UHPLC-MS/MS
Xylose fermentation
Mass spectrometry
Metabolomics
Xylose.
Spathaspora arborariae
UHPLC-MS/MS
Xylose fermentation
Mass spectrometry
Metabolomics
Xylose.
CAMPOS, C. G.
VERAS, H. C. T.
RIBEIRO, J. A. de A.
COSTA, P. P. K. G.
ARAÚJO, K. P.
RODRIGUES, C. M.
ALMEIDA, J. R. M. de
ABDELNUR, P. V.
New protocol based on UHPLC-MS/MS for quantitation of metabolites in xylose-fermenting yeasts.
description Abstract: Xylose fermentation is a bottleneck in second-generation ethanol production. As such, a comprehensive understanding of xylose metabolism in naturally xylose-fermenting yeasts is essential for prospection and construction of recombinant yeast strains. The objective of the current study was to establish a reliable metabolomics protocol for quantification of key metabolites of xylose catabolism pathways in yeast, and to apply this protocol to Spathaspora arborariae. Ultra-high performance liquid chromatography coupled to tandem mass spectrometry (UHPLC-MS/MS) was used to quantify metabolites, and afterwards, sample preparation was optimized to examine yeast intracellular metabolites. S. arborariae was cultivated using xylose as a carbon source under aerobic and oxygen-limited conditions. Ion pair chromatography (IPC) and hydrophilic interaction liquid chromatography-tandem mass spectrometry (HILIC-MS/MS) were shown to efficiently quantify 14 and 5 metabolites, respectively, in a more rapid chromatographic protocol than previously described. Thirteen and eleven metabolites were quantified in S. arborariae under aerobic and oxygen-limited conditions, respectively. This targeted metabolomics protocol is shown here to quantify a total of 19 metabolites, including sugars, phosphates, coenzymes, monosaccharides, and alcohols, from xylose catabolism pathways (glycolysis, pentose phosphate pathway, and tricarboxylic acid cycle) in yeast. Furthermore, to our knowledge, this is the first time that intracellular metabolites have been quantified in S. arborariae after xylose consumption. The results indicated that fine control of oxygen levels during fermentation is necessary to optimize ethanol production by S. arborariae. The protocol presented here may be applied to other yeast species and could support yeast genetic engineering to improve second generation ethanol production. Graphical Abstract ?.
author2 CHRISTIANE GONÇALVES CAMPOS, Universidade Federal de Goiás; HENRIQUE CÉSAR TEIXEIRA VERAS, Universidade de Brasília; JOSE ANTONIO DE AQUINO RIBEIRO, CNPAE; PATRICIA PINTO KALIL G COSTA, CNPAE; KATIÚSCIA PEREIRA ARAÚJO; CLENILSON MARTINS RODRIGUES, CNPAE; JOAO RICARDO MOREIRA DE ALMEIDA, CNPAE; PATRICIA VERARDI ABDELNUR, CNPAE.
author_facet CHRISTIANE GONÇALVES CAMPOS, Universidade Federal de Goiás; HENRIQUE CÉSAR TEIXEIRA VERAS, Universidade de Brasília; JOSE ANTONIO DE AQUINO RIBEIRO, CNPAE; PATRICIA PINTO KALIL G COSTA, CNPAE; KATIÚSCIA PEREIRA ARAÚJO; CLENILSON MARTINS RODRIGUES, CNPAE; JOAO RICARDO MOREIRA DE ALMEIDA, CNPAE; PATRICIA VERARDI ABDELNUR, CNPAE.
CAMPOS, C. G.
VERAS, H. C. T.
RIBEIRO, J. A. de A.
COSTA, P. P. K. G.
ARAÚJO, K. P.
RODRIGUES, C. M.
ALMEIDA, J. R. M. de
ABDELNUR, P. V.
format Artigo de periódico
topic_facet Spathaspora arborariae
UHPLC-MS/MS
Xylose fermentation
Mass spectrometry
Metabolomics
Xylose.
author CAMPOS, C. G.
VERAS, H. C. T.
RIBEIRO, J. A. de A.
COSTA, P. P. K. G.
ARAÚJO, K. P.
RODRIGUES, C. M.
ALMEIDA, J. R. M. de
ABDELNUR, P. V.
author_sort CAMPOS, C. G.
title New protocol based on UHPLC-MS/MS for quantitation of metabolites in xylose-fermenting yeasts.
title_short New protocol based on UHPLC-MS/MS for quantitation of metabolites in xylose-fermenting yeasts.
title_full New protocol based on UHPLC-MS/MS for quantitation of metabolites in xylose-fermenting yeasts.
title_fullStr New protocol based on UHPLC-MS/MS for quantitation of metabolites in xylose-fermenting yeasts.
title_full_unstemmed New protocol based on UHPLC-MS/MS for quantitation of metabolites in xylose-fermenting yeasts.
title_sort new protocol based on uhplc-ms/ms for quantitation of metabolites in xylose-fermenting yeasts.
publishDate 2017-09-11
url http://www.alice.cnptia.embrapa.br/alice/handle/doc/1075378
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