Meat, the metabolites: an integrated metabolite profiling and lipidomics approach for the detection of the adulteration of beef with pork
Meat, the metabolites: an integrated metabolite profiling and lipidomics approach for the detection of the adulteration of beef with pork
Adulteration of high quality food products with sub-standard and cheaper grades is a world-wide problem taxing the global economy. Currently, many traditional tests suffer from poor specificity, highly complex outputs and a lack of high-throughput processing. Metabolomics has been successfully used as an accurate discriminatory technique in a number of applications including microbiology, cancer research and environmental studies and certain types of food fraud. In this study, we have developed metabolomics as a technique to assess the adulteration of meat as an improvement on current methods. Different grades of beef mince and pork mince, purchased from a national retail outlet were combined in a number of percentage ratios and analysed using GC-MS and UHPLC-MS. These techniques were chosen because GC-MS enables investigations of metabolites involved in primary metabolism whilst UHPLC-MS using reversed phase chromatography provides information on lipophilic species. With the application of chemometrics and statistical analyses, a panel of differential metabolites were found for identification of each of the two meat types. Additionally, correlation was observed between metabolite content and percentage of fat declared on meat products’ labelling.
2155-2164
Trivedi, Drupad K.
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Hollywood, Katherine A.
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Rattray, Nicholas J.W.
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Ward, Holli
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Trivedi, Dakshat K.
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Greenwood, Joseph
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Ellis, David I.
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Goodacre, Royston
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16 February 2016
Trivedi, Drupad K.
91499aca-3735-4125-9ccf-c2c203524ce4
Hollywood, Katherine A.
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Rattray, Nicholas J.W.
e12cf689-0610-4963-a50c-6614a73cc79a
Ward, Holli
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Trivedi, Dakshat K.
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Greenwood, Joseph
a8820327-9476-4880-ae9b-5acc81253095
Ellis, David I.
c86d2951-cacf-4891-9e00-4513d48ed762
Goodacre, Royston
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Trivedi, Drupad K., Hollywood, Katherine A., Rattray, Nicholas J.W., Ward, Holli, Trivedi, Dakshat K., Greenwood, Joseph, Ellis, David I. and Goodacre, Royston
(2016)
Meat, the metabolites: an integrated metabolite profiling and lipidomics approach for the detection of the adulteration of beef with pork.
Analyst, 141, .
(doi:10.1039/C6AN00108D).
Abstract
Adulteration of high quality food products with sub-standard and cheaper grades is a world-wide problem taxing the global economy. Currently, many traditional tests suffer from poor specificity, highly complex outputs and a lack of high-throughput processing. Metabolomics has been successfully used as an accurate discriminatory technique in a number of applications including microbiology, cancer research and environmental studies and certain types of food fraud. In this study, we have developed metabolomics as a technique to assess the adulteration of meat as an improvement on current methods. Different grades of beef mince and pork mince, purchased from a national retail outlet were combined in a number of percentage ratios and analysed using GC-MS and UHPLC-MS. These techniques were chosen because GC-MS enables investigations of metabolites involved in primary metabolism whilst UHPLC-MS using reversed phase chromatography provides information on lipophilic species. With the application of chemometrics and statistical analyses, a panel of differential metabolites were found for identification of each of the two meat types. Additionally, correlation was observed between metabolite content and percentage of fat declared on meat products’ labelling.
Text
c6an00108d
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Accepted/In Press date: 16 February 2016
Published date: 16 February 2016
Identifiers
Local EPrints ID: 502755
URI: http://eprints.soton.ac.uk/id/eprint/502755
ISSN: 0003-2654
PURE UUID: ce312db8-bdba-4940-b2cc-b7ac2b02087c
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Date deposited: 08 Jul 2025 16:31
Last modified: 22 Aug 2025 02:43
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Contributors
Author:
Drupad K. Trivedi
Author:
Katherine A. Hollywood
Author:
Nicholas J.W. Rattray
Author:
Holli Ward
Author:
Dakshat K. Trivedi
Author:
Joseph Greenwood
Author:
David I. Ellis
Author:
Royston Goodacre
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