Genetic identification of medicinally used Salacia species by nrDNA ITS sequences and a PCR-RFLP assay for authentication of Salacia-related health foods

Abstract

Ethnopharmacological relevanceThe roots and stems of several Salacia species have been used as traditional medicines, especially in Ayurvedic medical system for the treatment of diabetes, rheumatism, gonorrhea, amenorrhea, skin diseases, etc. Due to reported evidence supporting Salacia's beneficial effects in early-stage diabetes and other lifestyle-related diseases, Salacia-based dietary supplements and health foods have been gaining popularity in Japan and other countries in recent years. However, due to the morphological similarities between Salacia plants, particularly in the medicinally used parts (roots and stems), the authentication of the botanical identities of Salacia-derived products is challenging. Aim of this studyThis study aims to develop a genetic approach to authenticate the medicinally used Salacia species and to determine the botanical sources of the commercially available Salacia-derived products. Materials and methodsThe sequences of nuclear DNA internal transcribed spacer (ITS) and chloroplast trnK-rps16 region were determined and compared between 10 plant specimens from three medicinally used Salacia species as well as 48 samples of commercial crude drugs. Moreover, a PCR-restriction fragment length polymorphism (RFLP) assay was developed for rapid identification based on the ITS sequences. ResultsThe plant specimens from the three medicinally used Salacia species showed three main types of sequences in both ITS (types I, II, III) and trnK-rps16 (i, ii, iii) regions. Combined the sequences of ITS and trnK-rps16 regions, S. reticulata and S. oblonga had type I-i and type III-iii or similar sequences, respectively. S. chinensis had type II-ii or II(536M)-i sequences. Forty-eight samples of commercial crude drugs were identified based on ITS and trnK-rps16 DNA barcode. A convenient PCR-RFLP assay using Cac8I restriction enzyme was established and applied to identify the botanical sources of health food products purchased from online retailers. All the twelve samples were identified as S. chinensis. ConclusionThe nrDNA ITS sequences provided useful information to authenticate Salacia species and to elucidate the phylogenetic relationship within the Salacia genus. Genetic identification results revealed that S. chinensis and S. reticulata are the major sources of commercially available Salacia-products. Based on the ITS sequences, a convenient PCR-RFLP assay was established for the identification of the medicinally used Salacia species as well as their derived health food products.