Community diversity and stress tolerance of culturable endophytic fungi from black seed (Nigella sativa L.)

Endophytic fungi constitute an important source of structurally diverse and pharmacologically active secondary metabolites. Most medicinal plants possess antimicrobial activity and host a number of endophytic fungi used in defense mechanisms against attack by pathogens. The aim of this study was to determine biodiversity of endophytic fungi isolated from black seeds, using morphological and molecular-based tools. Each isolate was, thereafter, subjected to stress tolerance through varying conditions of pH (2,3 and 12), salinity (3%,8% and 10%) and temperature (2 degrees C,25 degrees C,37 degrees C and 50 degrees C). Four hundred and ninety-two (n=492) black seeds were used to isolate fungal strains on potato dextrose agar. A combination of microscopic examination and PCR amplification of Internal Transcribed Spacer (ITS 1 and ITS 4) regions were used to identify fungal isolates. One hundred (n=100) endophytic fungi were successfully isolated with a 20% isolation rate. Under salt stress conditions, most isolates managed to grow at 3% concentration, representing 88% fungal growth, with a maximum of 75-80.5 mm growth diameter. Fifty-eight percent (58%) of the fungi survived at pH 2, 16% survived at 37 degrees C, while there was no survival at a temperature higher than 50 degrees C. All the fungi belonged to the Ascomycota phylum, classified under Dothideomycetes (46%), Eurotiomycetes (39%) and Sordariomycetes (11%). The predominant genera identified were Penicillium (35%), Alternaria (26%) and Cladosporium (17%). The findings revealed that medicinal plants, including Nigella sativa, are a source of untapped novel endophytic fungi, with abundant therapeutic and agricultural applications. (c) 2020 SAAB. Published by Elsevier B.V. All rights reserved.

Automated summary

Endophytic fungi isolated from black seeds were characterized by their biodiversity, stress tolerance, and classification into the Ascomycota phylum. The study revealed that medicinal plants, such as Nigella sativa, are a rich source of novel endophytic fungi with potential therapeutic and agricultural applications.