Sanjog Garyali scite author profile

Different endophytic fungi isolated from Himalayan Yew plants were tested for their ability to produce taxol. The BAPT gene (C-13 phenylpropanoid side chain-CoA acetyl transferase) involved in the taxol biosynthetic pathway was used as a molecular marker to screen taxol-producing endophytic fungi. Taxol extracted from fungal strain TBPJ-B was identified by HPLC and MS analysis. Strain TBPJ-B was identified as Fusarium redolens based on the morphology and internal transcribed spacer region of nrDNA analysis. HPLC quantification of fungal taxol showed that F. redolens was capable of producing 66 μg/l of taxol in fermentation broth. The antitumour activity of the fungal taxol was tested by potato disc tumor induction assay using Agrobacterium tumefaciens as the tumor induction agent. The present study results showed that PCR amplification of genes involved in taxol biosynthesis is an efficient and reliable method for prescreening taxol-producing fungi. We are reporting for the first time the production of taxol by F. redolens from Taxus baccata L. subsp. wallichiana (Zucc.) Pilger. This study offers important information and a new source for the production of the important anticancer drug taxol by endophytic fungus fermentation.

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Transporter and its engineering for secondary metabolites

et al. 2016

Appl Microbiol Biotechnol

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Secondary metabolites possess a lot of biological activities, and to achieve their functions, transmembrane transportation is crucial. Elucidation of their transport mechanisms in the cell is critical for discovering ways to improve the production. Here, we have summarized the recent progresses for representative secondary metabolite transporters and also the strategies for uncovering the transporter systems in plants and microbes. We have also discussed the transporter engineering strategies being utilized for improving the heterologous natural product production, which exhibits promising future under the guide of synthetic biology.

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Diversity and antimitotic activity of taxol-producing endophytic fungi isolated from Himalayan yew

2013

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Endophytic fungi represent an under explored resource of novel lead compounds and have the capacity to produce diverse classes of plant secondary metabolites. Here, we investigated the endophytic fungal diversity of taxol-producing endophytes from Taxus baccata L. ssp. wallichiana (Zucc.) Pilger and also tested the antimitogenic effect of fungal taxol using potato disc tumor assay. A total of 60 fungal endophytes were isolated from the inner bark (phloem-cambium) of T. baccata ssp. wallichiana, collected from different locations of the northern Himalayan region.Two key genes, DBAT (10-deacetylbaccatin III-10-O-acetyl transferase) and BAPT (C-13 phenylpropanoid side chainCoA acyltransferase), involved in taxol biosynthesis were used as molecular markers for the screening of taxolproducing strains. Five representative species gave positive amplification hits by molecular marker screening with the bapt gene. These fungi were characterized and identified based on morphological and molecular identification. The taxol-producing capability of these endophytic fungi was validated by HPLC-MS. Among the five taxol-producing fungi, the highest yield of taxol was found to be 66.25 μg/l by Fusarium redolens compared with those of the other four strains.

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Sanjog Garyali

Taxol Production by an Endophytic Fungus, Fusarium redolens, Isolated from Himalayan Yew

Transporter and its engineering for secondary metabolites

Diversity and antimitotic activity of taxol-producing endophytic fungi isolated from Himalayan yew

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