Ravindra Bansal scite author profile

Gliovirin is a strong anti‐oomycete and a candidate anticancer compound. It is produced by “P” strains of the plant disease biocontrol fungus Trichoderma virens and is involved in biological control of certain plant pathogens. Even though the compound is known for more than three decades, neither the genes involved nor the biosynthetic pathway are known. We have sequenced the whole genome of a gliovirin producing strain of T. virens and discovered a novel gene cluster comprising of 22 genes. Disruption of the non‐ribosomal peptide synthetase eliminated biosynthesis of gliovirin. The gene cluster is very similar to a hitherto un‐described gene cluster of Aspergillus udagawae, a human pathogen. Our findings open‐up the possibility of strain improvement of T. virens for improved biocontrol of plant diseases through enhanced production of gliovirin. Research also can now be initiated on the role of this gene cluster in pathogenicity of the human pathogen A. udagawae.

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Development and characterization of genic SSR markers for mungbean (Vigna radiata (L.) Wilczek)

Gupta

Bansal

Gopalakrishna

2013

Euphytica

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Genome-wide analysis of cytochrome P450s of Trichoderma spp.: annotation and evolutionary relationships

Chadha

Mehetre

Bansal

et al. 2018

Fungal Biol Biotechnol

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BackgroundCytochrome P450s form an important group of enzymes involved in xenobiotics degradation and metabolism, both primary and secondary. These enzymes are also useful in industry as biotechnological tools for bioconversion and a few are reported to be involved in pathogenicity. Trichoderma spp. are widely used in industry and agriculture and are known for their biosynthetic potential of a large number of secondary metabolites. For realising the full biosynthetic potential of an organism, it is important to do a genome-wide annotation and cataloguing of these enzymes.ResultsHere, we have studied the genomes of seven species (T. asperellum, T. atroviride, T. citrinoviride, T. longibrachiatum, T. reesei , T. harzianum and T. virens) and identified a total of 477 cytochrome P450s. We present here the classification, evolution and structure as well as predicted function of these proteins. This study would pave the way for functional characterization of these groups of enzymes and will also help in realization of their full economic potential.ConclusionOur CYPome annotation and evolutionary studies of the seven Trichoderma species now provides opportunities for exploration of research-driven strategies to select Trichoderma species for various applications especially in relation to secondary metabolism and degradation of environmental pollutants.Electronic supplementary materialThe online version of this article (10.1186/s40694-018-0056-3) contains supplementary material, which is available to authorized users.

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Development of intron length polymorphism markers in cowpea [Vigna unguiculata (L.) Walp.] and their transferability to other Vigna species

2012

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Ravindra Bansal

Secondary metabolism in Trichoderma – Chemistry meets genomics

Genomics‐Driven Discovery of the Gliovirin Biosynthesis Gene Cluster in the Plant Beneficial Fungus Trichoderma Virens

Development and characterization of genic SSR markers for mungbean (Vigna radiata (L.) Wilczek)

Genome-wide analysis of cytochrome P450s of Trichoderma spp.: annotation and evolutionary relationships

Development of intron length polymorphism markers in cowpea [Vigna unguiculata (L.) Walp.] and their transferability to other Vigna species

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