Molecular detection of adulteration in chicken products based on mitochondrial 12S rRNA gene.

Mitochondrial Dna Pub Date : 2015-06-01 Epub Date: 2013-10-09 DOI:10.3109/19401736.2013.840593

Osama H A Abuzinadah, Haitham Ahmed Yacoub, Hassan M El Ashmaoui, Hassan A I Ramadan

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引用次数: 10

Abstract

The aim of this study is to detect the fraudulent in chicken products constitutes in order to protect consumers in Saudi Arabia from illegal substitutions. Two different approaches were used in this study, direct sequencing of specific fragments of amplified mitochondrial 12S rRNA gene in addition to species-specific PCR primers for confirmation of the obtained Blast search results. The results showed that all processed chicken products were identified as chicken (Gallus gallus) by 90-98% homology depending on obtained sequence quality. Samples labeled with chicken luncheon (samples tested in this study) were identified as turkey meat (Meleagris gallopavo) by 98% homology, suggesting adulteration with inedible parts of turkey in chicken luncheon ingredients. The results showed also that not only chicken luncheon was mixed with inedible parts of turkey but also all chicken products tested in this study (chicken balls, chicken burger, chicken sausage and chicken mined meat) contained this turkey meat. Applying methods used in this study could be useful for accurate and rapid identification of commercial processed meat.

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基于线粒体12S rRNA基因的鸡肉产品掺假分子检测。

本研究的目的是检测鸡肉产品中的欺诈成分，以保护沙特阿拉伯的消费者免受非法替代品的侵害。本研究使用了两种不同的方法，一种是直接测序扩增的线粒体12S rRNA基因的特定片段，另一种是使用物种特异性PCR引物来确认获得的Blast搜索结果。结果表明，根据获得的序列质量，所有加工后的鸡肉产品同源性为90 ~ 98%。标记有鸡肉午餐的样品(在本研究中测试的样品)被识别为火鸡肉(Meleagris gallopavo)，同源性为98%，这表明鸡肉午餐的配料中掺入了火鸡的不可食用部分。结果还表明，不仅鸡肉午餐与火鸡的不可食用部分混合，而且本研究中测试的所有鸡肉产品(鸡球、鸡肉汉堡、鸡肉香肠和鸡肉肉馅)都含有这种火鸡肉。应用本研究的方法可以准确、快速地鉴定商业加工肉类。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Mitochondrial Dna 生物-遗传学

自引率

0.00%

发文量

审稿时长

2.4 months

期刊介绍： Previously published under the title DNA Sequence (Vols 1-19.3), Mitochondrial DNA accepts original high-quality reports based on mapping, sequencing and analysis of mitochondrial DNA and RNA. Descriptive papers on DNA sequences from mitochondrial genomes, and also analytical papers in the areas of population genetics, medical genetics, phylogenetics and human evolution that use mitochondrial DNA as a source of evidence for studies will be considered for publication. The editorial board will also consider manuscripts that examine population genetic and systematic theory that specifically address the use of mitochondrial DNA sequences.