Molecular Authentication and Phytochemical Evaluation of Indigenous Germplasm of Genus Physalis for Sustainable Utilization

Abstract

Physalis species are used as an indigenous food and medicine in Kenya. However, species identification and an analysis of the health-promoting bioactive compounds and antioxidant properties are lacking. In this study, we report the molecular identification and mineral and phytochemical profiling of wild Physalis accessions. Leaf samples of 10 Physalis accessions were collected and used for species identification using nuclear ITS2 and plastid rbcL barcodes. Ripe fruits were collected from the same accessions and analyzed for mineral, total phenolic, tannin, and flavonoid contents, and antioxidant activities. The Physalis species were discriminated based on the ITS2 barcode and identified as Physalis purpurea. The genetic diversity, distance, and polymorphism of the ITS2 region of Physalis accessions were high due to the high rate of singleton and parsimony mutations. No genetic diversity, distance, or polymorphism was observed based on the rbcL barcode. The mineral content was significantly different (p < 0.05) for calcium, zinc, nickel, copper, and lithium among the Physalis accessions. No significant variation (p > 0.05) was found for phenolic acids or flavonoids, but the tannic acid content varied significantly (p < 0.05). DPPH free radical scavenging varied significantly (p < 0.05) among Physalis accessions. In conclusion, nuclear ITS2 was used to successfully identify the Physalis species of all the accessions as Physalis purpurea. The present study confirmed that Physalis purpurea has a significantly high mineral and phytochemical content and antioxidant activity. The findings from this study can be used to facilitate exploitation of Physalis purpurea in genetic breeding, their application in pharmaceutical, cosmetic, and nutritional value as well as conservation and sustainable use.