The effectiveness of aqueous extracts of various medicinal plants in detoxification of aflatoxin B1 (AFB1) was tested in vitro by thin-layer chromatography and enzyme-linked immunosorbent assay (ELISA). Among the different plant extracts, the leaf extract of Vasaka (Adhatoda vasica Nees) showed the maximum degradation of AFB1 (≥ 98%) after incubation for 24h at 37 °C. The aflatoxin detoxifying activity of the A. vasica leaf extract was significantly reduced by heating to 100 °C for 10 min or autoclaving at 121 °C for 20 min. Dialysis had no effect on aflatoxin detoxifying ability of A. vasica extract and the dialyzed extract showed similar level of detoxification of AFB1 as that of the untreated extract. A time course study of aflatoxin detoxification by A. vasica extract showed that 69% of the toxin was degraded within 6h and ≥ 95% degradation was observed after 24h of incubation. Detoxification of AFB1 by A. vasica extract was further confirmed by liquid chromatography-mass spectrometry (LC-MS) analysis. Phytochemical analysis revealed the presence of alkaloids in methanolic extract of A. vasica leaves. A partially purified alkaloid from A. vasica leaves by preparative TLC exhibited strong AFB1 detoxification activity.
Cardamom bushy dwarf virus (CBDV) causes foorkey disease of large cardamom (Ammomum subulatum Roxburgh) in the eastern sub-Himalayan mountains. Although the aphid Micromyzus kalimpongensis Basu (Hemiptera: Aphididae) is known as a vector of CBDV, its behavior in dissemination of CBDV has not been investigated. In the present study, M. kalimpongensis was observed to colonize in higher number on CBDV-infected large cardamom plants compared with the healthy plants in the several plantations in Sikkim and Darjeeling hills. The affinity of M. kalimpongensis to the diseased large cardamom plants was further confirmed in a contained field experiment with intact plant as well as in a laboratory bioassay with the plant extract, where significantly higher number of aphids settled on the diseased plants or extracts compared with the healthy counterparts. Aphids grown on CBDV-infected large cardamom plants had shortened nymphal period and increased longevity and fecundity compared with those grown on the healthy plants. In the contained field experiment, M. kalimpongensis migrated to the CBDV-infected plants, colonized there, acquired CBDV, and once the diseased plants withered, migrated to healthy plants, which eventually became diseased. Our results suggest a general pattern of spread of CBDV by M. kalimpongensis where CBDV-infected plants attract or arrest and stimulate emergence and migration of viruliferous aphids that otherwise are sedentary in the underground plant parts of large cardamom. To our knowledge, this is the first study that shows the influence of a plant virus from the family Nanoviridae in altering behavior of its insect vector that favors its dissemination.
Large cardamom (Amomum subulatum), an important spice crop grown in eastern sub-Himalayan mountains of India, is affected by a viral disease commonly known as 'chirke', which is characterised by light and dark green streaks on the leaf lamina. Although chirke has been known to affect large cardamom for over 50 years, its distribution in large cardamom growing regions and aetiology have remained unaddressed. In this study for the first time, distribution of chirke in the major large cardamom growing regions in India has been determined. North Sikkim and eastern region of Darjeeling hills were endemic region with average disease incidence of 19.2-35%, whereas, Mirik region of Darjeeling hills were free from the disease. Suckers, the commonly used planting material, were the major source for spread of the disease. The virus was sap transmissible to the popular large cardamom cultivars Golsey, Ramsey, Swaney and Varlangey and vectored by Rhopalosiphum maidis and Myzus persicae in a non-persistent manner. Flexuous virus particles measuring 625-650 × 12.5 nm were observed consistently associated with the diseased samples. Polyclonal antiserum to the purified virus showed serological affinity with a macluravirus, cardamom mosaic virus (CdMV) associated with a similar disease known as katte disease of small cardamom (Elettaria cardamomum) occurring in southern India. The 3 terminal genome sequence (1776 nucleotides) of the virus was determined, which revealed a close sequence identity and phylogenetic relationships with the members of the genus Macluravirus. The deduced amino acid sequence of putative coat protein (CP) gene showed maximum similarity of 65.7% with the CdMV. Phylogenetic analysis based on CP and 3 UTR showed that the virus was closer to Alpinia mosaic virus, CdMV and Chinese yam necrotic mosaic virus subclade. The results suggest that the virus associated with the chirke disease of large cardamom is a new species under the genus Macluravirus in the family Potyviridae for which the name large cardamom chirke virus (LCCV) is proposed.
Large cardamom chirke virus (LCCV), genus Macluravirus, family Potyviridae is an important constrain in large cardamom production in India. Purification of LCCV from large cardamom tissues is difficult and therefore immunodiagnostic reagents are not available. In the present study, we have successfully expressed coat protein (CP) gene of LCCV in Escherichia coli. The purification of expressed protein by Ni-NTA affinity chromatography was inefficient due to precipitation of protein during renaturation. We have optimized a simple, inexpensive and efficient method for purification of the expressed CP through gel extraction with 5 % SDS followed by renaturation in Milli-Q water, which resulted in high yield (4.7 mg/ml) and good quality of the protein. A higher titer (1:256,000) polyclonal antibody (PAb) to the recombinant CP was produced, which strongly recognized LCCV in crude leaf extract and showed minimal background reaction with the healthy leaf extract in enzyme linked immunosorbent assay (ELISA) and dot immunobinding assay (DIBA). The sensitivities of the ELISA and DIBA were 5 and 0.1 ng of expressed protein, respectively. Both the ELISA and DIBA were validated with 100 % accuracy in detecting LCCV in field samples. The PAb differentiated Cardamom mosaic virus, another close relative of LCCV. Our study is first to report highly efficient immunodiagnosis with PAb to E. coli expressed recombinant CP of a virus under the genus Macluravirus. The antigen expression construct and PAb developed in the present study will be useful in production of virus free planting materials of large cardamom.
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