Fatty acids stable carbon isotope fractionation in the bovine organism. A compound-specific isotope analysis through gas chromatography combustion isotope ratio mass spectrometry

-The δ13C of six fatty acid (FAs) was measured in diet and four bovine matrixes-The δ13C gets less negative from diet to muscle for essential and non-essential FAs-The δ13C of the individual FAs follows different trends through bovine matrixes-The use of compound specific GC-C-IRMS can trace the met...

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Published inJournal of Chromatography A Vol. 1641; p. 461966
Main Authors Pianezze, Silvia, Corazzin, Mirco, Perini, Matteo, Camin, Federica, Paolini, Mauro, Sepulcri, Angela, Saccà, Elena, Fabro, Carla, Piasentier, Edi
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 29.03.2021
Subjects
Animals
Bovine organism
carbon
Carbon Isotopes - analysis
Cattle
Chemical Fractionation - methods
combustion
Compound-specific isotope analysis (CSIA)
Diet
Duodenum - metabolism
Essential fatty acids
Fatty Acids - analysis
Gas chromatography
Gas Chromatography-Mass Spectrometry - methods
isotope fractionation
Isotope Labeling
Italian simmental
liver
Liver - metabolism
Mass spectrometry
meat
Rumen - metabolism
stable isotopes
Compound-specific isotope analysis (CSIA)
Italian simmental
Gas chromatography
Bovine organism
Essential fatty acids
Mass spectrometry
Online AccessGet full text
ISSN0021-9673
1873-3778
DOI10.1016/j.chroma.2021.461966

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Abstract -The δ13C of six fatty acid (FAs) was measured in diet and four bovine matrixes-The δ13C gets less negative from diet to muscle for essential and non-essential FAs-The δ13C of the individual FAs follows different trends through bovine matrixes-The use of compound specific GC-C-IRMS can trace the metabolic path of FAs The contribution of dietary fatty acids to the quality of the meat and their path through the bovine organism is currently the subject of a lot of research. Stable isotope ratio analysis represents a powerful tool for this aim, one that has not been studied in depth yet. In this work, for the first time, the carbon isotopic ratios of six fatty acids (myristic 14:0, palmitic 16:0, stearic 18:0, oleic 18:1n-9, linoleic 18:2n-6 and linolenic 18:3n-3 acids) in different matrixes (diet, rumen, duodenal content, liver and loin) were analysed through gas chromatography combustion isotope ratio mass spectrometry. Moreover, the quantification of the single fatty acids was carried out, providing important information supporting the carbon isotopic ratio results. The variation in the concentration of the fatty acids in the different matrices depends on the chemical modifications they undergo in the sequential steps of the metabolic path. GC-C-IRMS turned out to be a powerful tool to investigate the fate of dietary fatty acids, providing information about the processes they undergo inside the bovine organism.
AbstractList The contribution of dietary fatty acids to the quality of the meat and their path through the bovine organism is currently the subject of a lot of research. Stable isotope ratio analysis represents a powerful tool for this aim, one that has not been studied in depth yet. In this work, for the first time, the carbon isotopic ratios of six fatty acids (myristic 14:0, palmitic 16:0, stearic 18:0, oleic 18:1n-9, linoleic 18:2n-6 and linolenic 18:3n-3 acids) in different matrixes (diet, rumen, duodenal content, liver and loin) were analysed through gas chromatography combustion isotope ratio mass spectrometry. Moreover, the quantification of the single fatty acids was carried out, providing important information supporting the carbon isotopic ratio results. The variation in the concentration of the fatty acids in the different matrices depends on the chemical modifications they undergo in the sequential steps of the metabolic path. GC-C-IRMS turned out to be a powerful tool to investigate the fate of dietary fatty acids, providing information about the processes they undergo inside the bovine organism.
-The δ13C of six fatty acid (FAs) was measured in diet and four bovine matrixes-The δ13C gets less negative from diet to muscle for essential and non-essential FAs-The δ13C of the individual FAs follows different trends through bovine matrixes-The use of compound specific GC-C-IRMS can trace the metabolic path of FAs The contribution of dietary fatty acids to the quality of the meat and their path through the bovine organism is currently the subject of a lot of research. Stable isotope ratio analysis represents a powerful tool for this aim, one that has not been studied in depth yet. In this work, for the first time, the carbon isotopic ratios of six fatty acids (myristic 14:0, palmitic 16:0, stearic 18:0, oleic 18:1n-9, linoleic 18:2n-6 and linolenic 18:3n-3 acids) in different matrixes (diet, rumen, duodenal content, liver and loin) were analysed through gas chromatography combustion isotope ratio mass spectrometry. Moreover, the quantification of the single fatty acids was carried out, providing important information supporting the carbon isotopic ratio results. The variation in the concentration of the fatty acids in the different matrices depends on the chemical modifications they undergo in the sequential steps of the metabolic path. GC-C-IRMS turned out to be a powerful tool to investigate the fate of dietary fatty acids, providing information about the processes they undergo inside the bovine organism.
ArticleNumber 461966
Author Camin, Federica
Corazzin, Mirco
Paolini, Mauro
Pianezze, Silvia
Sepulcri, Angela
Saccà, Elena
Piasentier, Edi
Perini, Matteo
Fabro, Carla
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Keywords Compound-specific isotope analysis (CSIA)
Italian simmental
Gas chromatography
Bovine organism
Essential fatty acids
Mass spectrometry
Language English
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Snippet -The δ13C of six fatty acid (FAs) was measured in diet and four bovine matrixes-The δ13C gets less negative from diet to muscle for essential and non-essential...
The contribution of dietary fatty acids to the quality of the meat and their path through the bovine organism is currently the subject of a lot of research....
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StartPage 461966
SubjectTerms Animals
Bovine organism
carbon
Carbon Isotopes - analysis
Cattle
Chemical Fractionation - methods
combustion
Compound-specific isotope analysis (CSIA)
Diet
Duodenum - metabolism
Essential fatty acids
Fatty Acids - analysis
Gas chromatography
Gas Chromatography-Mass Spectrometry - methods
isotope fractionation
Isotope Labeling
Italian simmental
liver
Liver - metabolism
Mass spectrometry
meat
Rumen - metabolism
stable isotopes
Title Fatty acids stable carbon isotope fractionation in the bovine organism. A compound-specific isotope analysis through gas chromatography combustion isotope ratio mass spectrometry
URI https://dx.doi.org/10.1016/j.chroma.2021.461966
https://www.ncbi.nlm.nih.gov/pubmed/33618180
https://www.proquest.com/docview/2524265419
Volume 1641
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