DNA barcodes, ISSR, RAPD and SCAR markers as potential quality control tools for molecular authentication of black and white mulberry

Morus species, especially black mulberry (Morus nigra L.), are well known for their nutritive and economic values. Black mulberry is often a subject for deliberate and undeliberate substitution with the morphologically similar white mulberry (Morus alba L.). In the current study, the genetic diversity of Morus nigra L. and Morus alba L. was assessed using different genetic profiling and fingerprinting techniques namely namely DNA barcoding, Random Amplified Polymorphic DNA (RAPD) and Inter Simple Sequence Repeat (ISSR). DNA barcoding was implemented using 2 plastid loci (matK, and rbcL-1) and 2 nuclear spacers (ITS and ITS2) aiming at accurate authentication of the studied species. DNA barcoding, targeting the selected loci succeeded to identify and authenticate the studies Morus species but failed to differentiate them, owing to their close genetic resemblance. Out of 52 screened RAPD primers, 27 were able to produce reproducible and clear profiles with 115 amplified fragments of which 37 were polymorphic accounting for 32.17% polymorphism. The number of amplified bands varied from 2 to 7 ranging in size from 100 to 700 bp. Moreover, 55 ISSR primers were evaluated, 108 fragments were produced, using 20 primers, of which 28 were polymorphic accounting for 25.92% polymorphism with size range of 200-800 bp. Sequence Characterized Amplified Region (SCAR) marker was developed based on reproducible banding pattern obtained by RAPD primer (OPG-03), for the purpose of accelerating the initial screening of Morus batches and enabling the preventative rejection of adulterated samples. The polymorphic band obtained was sequenced and specific primers were designed to develop a SCAR marker of approximately 558 bp exclusively for M. nigra, allowing detection of down to 1 ng, of M. nigra. The SCAR marker showed 100% success in differentiating authentic M. nigra and M. alba samples. In addition, the application of the developed SCAR marker was extended to distinguish M. nigra from its four common adulterants namely Ficus carica L., Fragaria vesca L., Ficus racemosa L. and Vitis vinifera L.. The proposed protocol was successfully implemented for the evaluation of 47 commercial M. nigra samples collected from different Egyptian locations.

Automated summary

In this study, the genetic diversity of black mulberry and white mulberry was assessed using DNA barcoding, RAPD, and ISSR techniques. DNA barcoding successfully identified and authenticated the species but failed to differentiate them. RAPD and ISSR analysis revealed the genetic diversity of black mulberry and white mulberry. A SCAR marker was developed for the rapid screening of black mulberry batches and detection of adulterated samples.