A highly species-specific polymerase chain reaction (PCR) assay was developed for the authentic identification of goat. A product of 436 bp was amplified using newly designed primers against mitochondrial D-loop region. The possibility of crossamplification was ruled out by considering as many as 25 other animal species. Suitability of the developed goat species-specific PCR assay was confirmed for in raw, cooked (60, 80 and 100C for 30 min) and micro-oven-processed meat samples (n = 20 each). A sensitivity of 0.1% was established for detection of adulteration and limit of detection of goat DNA was 0.1 pg. This investigation presents a novel PCR assay with its newly designed primers that could be used for the authentic identification of goat species.
PRACTICAL APPLICATIONSThis work details about a novel diagnostic polymerase chain reaction, which could be used for authentic identification of goat species. This approach could be used for the confirmation of goat tissues in raw, cooked, as well as adulterated samples. The developed technique has also applications in the forensic analysis of wild animalrelated disputes, where this work could solve the problem of goat-related issues. ISSN 0146-9428
Journal of Food Quality
In order to prevent fraud in the sale and strengthen quality assurance, authentic identification of chicken meat is essential. In the present investigation, a chicken (Gallus gallus)-specific polymerase chain reaction (PCR) was developed for the unambiguous identification of chicken meat. The PCR assay employs pair of primers designed against chicken nuclear 5-aminolevulinate (ALA) synthase gene. Highly chicken-specific diagnostic amplicon of 288 bp was established upon PCR and was evident in all the nine breeds/strains of chicken species. Sensitivity of PCR in detecting chicken meat adulteration was established to be at 0.1 % in the foreign meat matrix, while limit of detection (LOD) of chicken DNA was 10 pg. Suitability of the developed chicken-specific PCR was validated and confirmed in raw, cooked/heat treated (60, 80, 100, and 121°C), and micro-oven cooked meat samples. Possibility of cross-amplification of adulterating DNA was excluded by cross-checking the developed PCR assay with several animal and avian species. The PCR assay developed in this study is highly promising for applications involving circumstances that require authentic identification of chicken meat.
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