Nutan Kaushik

Endophytic fungi isolated from oil-seed crop Jatropha curcas produces oil and exhibit antifungal activity.

Jatropha curcas L., a perennial plant grown in tropics and subtropics is popularly known for its potential as biofuel. The plant is reported to survive under varying environmental conditions having tolerance to stress and an ability to manage pest and diseases. The plant was explored for its endophytic fungi for use in crop protection. Endophytic fungi were isolated from leaf of Jatropha curcas, collected from New Delhi, India. Four isolates were identified as Colletotrichum truncatum, and other isolates were identified as Nigrospora oryzae, Fusarium proliferatum, Guignardia cammillae, Alternaria destruens, and Chaetomium sp. Dual plate culture bioassays and bioactivity assays of solvent extracts of fungal mycelia showed that isolates of Colletotrichum truncatum were effective against plant pathogenic fungi Fusarium oxysporum and Sclerotinia sclerotiorum. Isolate EF13 had highest activity against S. sclerotiorum. Extracts of active endophytic fungi were prepared and tested against S. sclerotiorum. Ethyl acetate and methanol extract of C. truncatum EF10 showed 71.7% and 70% growth inhibition, respectively. Hexane extracts of C. truncatum isolates EF9, EF10, and EF13 yielded oil and the oil from EF10 was similar to oil of the host plant, i.e., J. curcas.

Saponins of Chlorophytum Species

The genus Chlorophytum (Liliaceae) owing to the presence of pharmacologically important saponins has attracted interest of the scientific community to investigate the chemistry of the saponins and study their cytotoxicity. Chloromaloside-A having cytotoxicity against cancer cell lines has been isolated from C. malayense, while saponins from C. borivilianum are gaining popularity as substitute for viagra. The paper presents a review of different saponins isolated from the Chlorophytum species and their pharmacological importance.

Metabolites of endophytic fungi as novel source of biofungicide: a review

Endophytic fungi are known to harbour compound(s) beneficial for plant health as well as human health. Among the metabolites of agrochemical and pharmaceutical importance alkaloids are the major. Apart from alkaloids several terpernoids and steroids, isocoumarins and chromones, phenolics and volatiles have also been reported. Cryptocin and cytochalasins alkaloids were isolated during early phase of innovation and proved to be antifungal. Some of these metabolites produced by endophytic fungi were originally isolated from the host plants.

Phytochemical and pharmacological studies in genus Berberis

The genus Berberis is well known for its diversity and pharmacological uses in traditional medicine system since ancient time. Exploring this medicinal plant with more prominence is the need of present day medicinal system. The present review highlighted the phytochemical and pharmacological studies reported from genus Berberis over the last two decades.

Endophytic fungi and their metabolites isolated from Indian medicinal plant

Endophytic fungi have been creating a considerable interest and curiosity among researchers since past three decades globally, owing to their recognition as an inexhaustible source of structurally and biologically novel compounds, alternative source of metabolites functionally identical to plant produced metabolites and their ability to impart resistance in host plants against various biotic and abiotic stresses. In this review, we have earnestly attempted to compile a vast array of endophytic fungi assemblages harbored inside Indian medicinal plants which have been reported during last decade from India.

Identification of antifungal principle in the solvent extract of an endophytic fungus Chaetomium globosum from Withania somnifera

Extracts of Chaetomium globosum EF18, isolated as endophytic fungus from Withania somnifera, were found effective against Sclerotinia sclerotiorum. Ethyl acetate and methanol extracts were more effective than hexane extract showing >80% growth inhibition. Bioactive compound (antibiotic Sch 210971, m/z 445 and λmax 290) having antifungal activity against S. sclerotiorum has been isolated in pure form from the ethyl acetate extract following bioassay guided fractionation. Apart from this compound other fractions of polar to medium polarity were also found effective. Fraction no. VIII from VLC (Vacuum liquid chromatography) column of ethyl acetate extract was most active having IC50 value 35.4 μg/ml.

Feeding inhibition of Helicoverpa armigera (Hübner) by Eucalyptus camaldulensis and Tylophora indica extracts

Abstract Crude leaf extracts of Eucalyptus camaldulensis and Tylophora indica were evaluated for their antifeedancy against Helicoverpa armigera larvae in no‐choice bioassays. Cabbage leaf‐disc dipped in different concentrations of leaf extracts was used for feeding fifth instars of H. armigera for 24 hours. Ethanol extracts from both the plant species exhibited significant feeding inhibition activity. The effective concentrations of ethanol extracts that caused 50% reduction in larval feeding (EI50) were 6.9% for E. camaldulensis and 2.8% for T. indica, while these values of hexane extracts were 9.3% and 5.2%, respectively. Compared to the crude leaf extracts, crude alkaloids from T. indica and crude tannins from E. camaldulensis were more potent in reducing larval feedings.

Fungal and Bacterial Diversity Isolated from Aquilaria malaccensis Tree and Soil, Induces Agarospirol Formation within 3 Months after Artificial Infection

Aquilaria malaccensis Lam, commonly known as Agarwood, is a highly valuable species used in production of agar oil from its infected wood, which is utilized in pharmaceutical and perfumery industry. Agar oil formation in agarwood takes years through the natural process which is induced by natural or artificial injury or microbial infection. The role of soil fungi and bacteria in artificial induction is still an unexplored area. In the present study, we isolated the fungal and bacterial community residing inside the stem of A. malaccensis tree and circumventing soil, samples collected from 21 different sites of the north-eastern state Assam of India and explored their potential in induction of Agarospirol (2-(6,10-Dimethylspiro[4,5]dec-6-en-2-yl)-2-propanol) production by artificially infecting the trees with these microorganisms. A total 340 fungi and 131 bacteria were isolated from 50 stem samples, and 188 fungi and 148 bacteria were isolated from 50 soil samples. Highest Shannon (H′ = 2.43) and Fisher (α = 5.57) diversity index was observed in the stem isolates. The dominant fungal genus was Trichoderma in stem with Pi value of 0.18; while in soil, Aspergillus showed dominance with Pi value 0.73. In bacteria, Bacillus genera showed dominance in both stem and soil samples with Pi = 0.62 and 0.51, respectively. Forty fungal and bacterial isolates were used to assess their potential to induce formation of agarwood in A. malaccensis by artificial infection method. Gas chromatography mass spectroscopy (GC-MS) analysis confirmed development of Agarwood by the presence of Agarospirol compound in samples collected after 3 months of the artificial infection. Only 31% of bacterial and 23% of fungal isolates showed their ability in production of Agarospirol by artificial infection method. Bacteria Pantoea dispersa and fungi Penicillium polonicum showed the highest production in comparison to other isolates.

Artificial production of agarwood oil in Aquilaria sp. by fungi: a review

The resinous part called agarwood of genus Aquilaria Lam has been exploited as a source of incense by mankind since time immemorial besides its medicinal properties. In global market purest oud/agarwood oil enjoys an exorbitant price tag owing to its mystical fragrance. This has led to over-exploitation of Aquilaria sp. at worldwide level. All the Aquilaria sp. are protected under CITES since 2002. Agarwood production is considered to have a pathological relation, secreted actively in response to foreign body infection as a means of defense mechanism in Aquilaria sp. In order to fulfill the demand for sustainable production of agarwood, chemical, physical and biological methods of inducing artificial infection for agarwood enhancement/production have been formulated. In addition, artificial inoculation of fungi has been used to induce agarwood in Aquilaria trees. In this review, we have discussed the success and limitations of various methods employed for agarwood stimulation and provided the analysis of investigation conducted by various researchers to ascertain the contributory role of fungi (endophytic–pathogenic–epiphytic) on agar formation and chemical composition of oil from artificially infected agarwood. Based on available literature, Xylaria sp., Lasiodiplodia sp., Colletotrichum sp. and Botryosphaeria sp. are promising fungal isolates which deserved to be further studied and scaled up to a commercial level for production of agarwood oil.

Endophytic fungi for pest and disease management

Endophytes are microorganisms that inhabit the interior of a healthy plants. They offer great-untapped potentials, which can be exploited to maintain healthy crops. Many cultivated and wild type plants have been investigated for endophytic fungal metabolites which include guanidine and pyrrolizidine alkaloids, indole derivatives, sesquiterpenes, isocoumarin derivatives. These metabolites show beneficial effects to crop plants and many of them also have pesticidal and antimicrobial activity against plant and human pests and pathogens. Full potentials and efforts needed are herein discussed.