High-resolution melting analysis to authenticate deer-derived materials in processed products in China using a cytochrome oxidase I mini-barcode.

BACKGROUND: Deer-derived materials (antler, venison, fetus, penis, bone, tail, and others) are some of the most valuable traditional animal-based medicinal and food materials in China. In production, processing, and trade, the quality of deer products varies. The market is confusing, and counterfeit and shoddy products are common. There is an urgent need to establish an accurate identification method. RESULTS: Two pairs of primers suitable for identifying deer-derived medicinal materials were obtained by screening the cytochrome oxidase I (COI) sequences of 18 species from nine genera of the deer family. The two primers were used to identify the species and adulteration of 22 batches of commercially available deer-derived products with a mini-barcode combining high-resolution melting (HRM) technology and methodical investigation. Deer-derived materials (sika and red deer) were correctly identified by species using varying DNA amounts (1 to 500 ng). The two pairs of primers COI-1FR and COI-2FR yielded melting temperatures (Tm) of 80.55 to 81.00 °C and 82.00 to 82.50 °C for sika deer, and 81.00 to 82.00 °C and 81.40 to 82.00 °C for red deer. Twenty-two batches of commercially available samples were analyzed by HRM analysis and conventional amplification sequencing, and it was found that the species samples had an error rate of species labeling of 31.8%. Four batches of samples were identified as mixed (adulterated) in the HRM analysis. CONCLUSION: The combination of DNA mini-barcode with HRM analysis facilitated the accurate identification of species of deer-derived materials, especially the identification of samples in an adulterated mixed state. © 2024 Society of Chemical Industry.

Successful identification of the species of the semipetrified amber medicinal resin benzoin using molecular diagnostic technology.

Benzoin is an incomplete lithified resin secreted from the trunk of the Styrax Linn. that is known as "semipetrified amber" and has been widely used in medicine due to its blood circulation-promoting and pain-relieving properties. However, the lack of an effective species identification method due to the numerous sources of benzoin resin and the difficulty of DNA extraction has led to the uncertainty of species of benzoin in the trade process. Here, we report the successful extraction of DNA from benzoin resin containing bark-like residues and the evaluation of commercially available benzoin species using molecular diagnostic techniques. By performing a BLAST alignment of ITS2 primary sequences and homology prediction analysis of ITS2 secondary structures, we found that commercially available benzoin species were derived from Styrax tonkinensis (Pierre) Craib ex Hart. and Styrax japonicus Sieb. et Zucc. of the genus Styrax Linn. In addition, some of the benzoin samples were mixed with plant tissues from other genera, accounting for 29.6%. Therefore, this study provides a new method to solve the problem of species identification of semipetrified amber benzoin using information from bark residues.