Application of proteomics to understand the molecular mechanisms behind meat quality

The proteome is expressed from the genome, influenced by environmental and processing conditions, and can be seen as the molecular link between the genome and the functional quality characteristics of the meat. In contrast to traditional biochemical methods where one protein is studied at a time, se...

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Veröffentlicht in:	Meat science 2007-09, Vol.77 (1), p.97-104
Hauptverfasser:	Hollung, Kristin, Veiseth, Eva, Jia, Xiaohong, Færgestad, Ellen Mosleth, Hildrum, Kjell Ivar
Format:	Artikel
Sprache:	eng
Schlagworte:	2-DE Biological and medical sciences food handling Food industries Fundamental and applied biological sciences. Psychology genotype image analysis Mass spectrometry Meat and meat product industries meat quality meat science muscle protein Muscle proteome Protein fractionation proteome Proteome analysis Proteomics Two-dimensional electrophoresis
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container_title	Meat science
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creator	Hollung, Kristin Veiseth, Eva Jia, Xiaohong Færgestad, Ellen Mosleth Hildrum, Kjell Ivar
description	The proteome is expressed from the genome, influenced by environmental and processing conditions, and can be seen as the molecular link between the genome and the functional quality characteristics of the meat. In contrast to traditional biochemical methods where one protein is studied at a time, several hundred proteins can be studied simultaneously. Proteomics is a promising and powerful tool in meat science and this is reflected by the increasing number of studies emerging in the literature using proteomics as the key tool to unleash the molecular mechanisms behind different genetic backgrounds or processing techniques of meat. Thus understanding the variations and different components of the proteome with regard to a certain meat quality or process parameter will lead to knowledge that can be used in optimising the conversion of muscles to meat. At present, there has been focus on development of techniques and mapping of proteomes according to genotypes and muscle types. In the future, focus should be more towards understanding and finding markers for meat quality traits. This review will focus on the methods used in the published proteome analyses of meat, with emphasis on the challenges related to statistical analysis of proteome data, and on the different topics of meat science that are investigated.
doi_str_mv	10.1016/j.meatsci.2007.03.018
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subjects	2-DE Biological and medical sciences food handling Food industries Fundamental and applied biological sciences. Psychology genotype image analysis Mass spectrometry Meat and meat product industries meat quality meat science muscle protein Muscle proteome Protein fractionation proteome Proteome analysis Proteomics Two-dimensional electrophoresis
title	Application of proteomics to understand the molecular mechanisms behind meat quality
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