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Abstract
Deer antler velvet is widely used as a vitalizing, tonifying, haemopoietic and strengthening agent for debilitated persons in East Asia. To develop a rapid and sensitive method for the identification of the biological source or origin in antler velvet products, a molecular approach was applied using PCR-restriction fragment length polymorphism analysis. The cytochrome b gene sequences of nine cervidae species were analyzed, and a Dde I restriction endonuclease recognition site was found only in sika deer and red deer, the official origin of deer velvet in Chinese pharmacopoeia. A specific primer was designed, and rapid PCR amplified products were subjected to restriction digestion using a fast RFLP procedure. Sika deer and red deer showed two bands of 161 and 102 bp, in contrast to the undigested state of 263 from other antlers. The established PCR-RFLP method was applied in commercial velvet products, and a high frequency of substitution (50%) was revealed in collected commercial samples. The method was successful in detecting contaminated and adulterated antler products in Chinese patent drugs, and the whole detection process was accomplished within 1–1.5 h.
Disclosure statement
The authors report no conflicts of interest. The authors alone are responsible for the content and writing of this article.