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Taxus associated fungal endophytes: anticancerous to other biological activities

2023; Elsevier BV; Volume: 45; Linguagem: Inglês

10.1016/j.fbr.2023.100308

1878-0253

Priyanka Adhikari, Kuldeep Joshi, Anita Pandey,

Fungal Biology and Applications

Endophytes are the plant microorganisms that flourish inside plants (endosphere) and support the growth under normal and challenging environmental circumstances. Besides biological activities, microbial endophytes are important for their contribution in adaptation and survival of the host plants under stressed environments. While various species of Taxus have been globally recognized mainly due to their anticancer property, emphasis has also been on isolation of taxol producing endophytes in view of the taxonomic (endangered) status of the species. Furthermore, Taxus associated endophytes are also being recognized for the biological activities other than taxol production. The present study reviews the diversity of Taxus associated endophytes along with their biological activities. Available literature on Taxus associated endophytes revealed that T. chinensis has received maximum attention (19.5 %), followed by T. wallichiana (18.5 %), T. baccata (16.4 %), T. cuspidata (11.3 %), and T. mairei (10.3 %); with a minimum number of reports accounted for T. globose (1.0 %), and T. celebica (2.0 %). Most fungal endophytes have been identified as ascomycetes. Basidiomycetous endophytes have been reported in a limited number of studies. No endophytes have yet been identified from three species, namely T. controta (West Himalayan yew), T. floridana (Florida yew), and T. canadensis (Canadian yew). A total of 70 diverse endophytic species have been reported from different Taxus species. Fusarium sp. (25.2 %), Aspergillus sp. (17.6 %), Alternaria sp. (11.3 %), Penicillium sp. and Cladosporium sp. (10.0 %) are the five dominant genera. Furthermore, 59.6 % of studies from the reported literature are related to taxol production by fungal endophytes, 9.6 % related to antimicrobial activity, and a combined 15.3 % related to other biological activities, i.e., antifeeding, antimitogenic, antioxidant and cytotoxic activities. Additionally, 3.8 % of fungal endophytes were not studied for any of their biological activities. Only three bacterial endophytes namely Burkholderia sp., Enterobacter sp., and Pseudomonas sp., have been recorded from Taxus along with their contribution in plant growth, antagonistic, and antioxidant activities. Isolation and characterization of microbial endophytes from Taxus plant parts is important for the associated ecology and medicinally important biological activities. It will support the much-required conservation strategy of Taxus species. Further, isolation of plant growth promoting microorganisms from Taxus will help in propagation of the species.