Meat speciation by restriction fragment length polymorphism analysis using an α-actin cDNA probe

Classical DNA fingerprinting is based on separation of DNA restriction fragments by electrophoresis and hybridisation to nucleic acid probes containing repetitive nucleotide sequences. The use of such mini- or micro-satellite probes tends to yield patterns specific to an individual rather than to a...

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Bibliographic Details
Published in:Meat science 1998-09, Vol.50 (1), p.105-114
Main Authors: Fairbrother, Karen S., Hopwood, Andrew J., Lockley, Andrew K., Bardsley, Ronald G.
Format: Article
Language:English
Subjects:
actin
beef
Biological and medical sciences
chicken meat
complementary DNA
cooking
DNA fingerprinting
DNA probes
fish
Food industries
Fundamental and applied biological sciences. Psychology
identification
lamb meat
Meat and meat product industries
pork
restriction fragment length polymorphism
species differences
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Summary:Classical DNA fingerprinting is based on separation of DNA restriction fragments by electrophoresis and hybridisation to nucleic acid probes containing repetitive nucleotide sequences. The use of such mini- or micro-satellite probes tends to yield patterns specific to an individual rather than to a species, hence their value in forensic analysis but general unsuitability for meat speciation. In the present study, a cDNA probe based on conserved sequences contained in members of the actin multigene family has been evaluated for potential application in meat speciation. Genomic DNA was extracted from muscle and digested with BamHI before electrophoresis and hybridisation to a murine α-actin cDNA probe. Beef, pork, lamb, horse, chicken and fish DNA restriction fragments formed characteristic ‘fingerprints’ which were reproducible and varied sufficiently to allow discrimination even between closely-related species. However no major differences were seen between individuals of the same breed or between different breeds within a species. When DNA obtained from fresh tissue and also from meat heated at 120 °C was analysed, the gel patterns were essentially the same. An attractive feature of this approach is that it employs a single cross-reacting probe and set of conditions, and gives different patterns with all species so far studied. This simplicity suggests applications in meat speciation or related areas of biology.
ISSN:0309-1740
1873-4138
DOI:10.1016/S0309-1740(98)00020-5