Papers by Nanasaheb Chougule
PLOS ONE, 2016
Aphids are sap-sucking insects (order: Hemiptera) that cause extensive damage to a wide range of ... more Aphids are sap-sucking insects (order: Hemiptera) that cause extensive damage to a wide range of agricultural crops. Our goal was to optimize a naturally occurring insecticidal crystalline (Cry) toxins produced by the soil-dwelling bacterium Bacillus thuringiensis for use against the pea aphid, Acyrthosiphon pisum. On the basis that activation of the Cry4Aa toxin is a rate-limiting factor contributing to the relatively low aphicidal activity of this toxin, we introduced cathepsin L and cathepsin B cleavage sites into Cry4Aa for rapid activation in the aphid gut environment. Incubation of modified Cry4Aa and aphid proteases in vitro demonstrated enhanced processing of the toxin into the active form for some of the modified constructs relative to non-modified Cry4Aa. Aphids fed artificial diet with toxin at a final concentration of 125 μg/ml showed enhanced mortality after two days for one of the four modified constructs. Although only modest toxin improvement was achieved by use of this strategy, such specific toxin modifications designed to overcome factors that limit aphid toxicity could be applied toward managing aphid populations via transgenic plant resistance.
J Insect Physiol, 2005
We investigated the response of Helicoverpa armigera larvae towards ingestion of Cicer arietinum ... more We investigated the response of Helicoverpa armigera larvae towards ingestion of Cicer arietinum Kunitz proteinase inhibitor (CaKPI), which caused antagonistic effects on developing H. armigera larvae. CaKPI-degrading proteinases were not detectable in either control or sensitized larvae. There were negligible increases in total proteinase activity, as well as in trypsin-like and chymotrypsin-like activities of H. armigera gut proteinases (HGPs). Decrease
Insect Biochem Molec Biol, 2005
Biochimica Et Biophysica Acta General Subjects, Mar 11, 2005
Two proteinase inhibitors (PIs), CapA1 and CapA2, were purified from Capsicum annum Linn. Var. Ph... more Two proteinase inhibitors (PIs), CapA1 and CapA2, were purified from Capsicum annum Linn. Var. Phule Jyoti leaves and assessed for their in vitro and in vivo activity against Helicoverpa armigera gut proteinases (HGPs). Both the inhibitors exhibited molecular weights of about 12 kDa with inhibitory activity against bovine trypsin and chymotrypsin indicating presence of probable two-inhibitor repeats of PIN II family. CapA1 and CapA2 inhibited 60-80% HGP (azocaseinolytic) activity of fourth instar larvae feeding on various host plants while 45-65% inhibition of HGP activity of various instars (II to VI) larvae reared on artificial diet. The partial purification of HGP isoforms, their characterization with synthetic inhibitors and inhibition by C. annum PIs revealed that most of the trypsin-like activity (68-91%) of HGPs was sensitive to C. annum PIs while 39-85% chymotrypsin-like activity of HGPs was insensitive to these inhibitors. The feeding of C. annum leaf extracts and two purified PIs in various doses to H. armigera larvae for two successive generations through artificial diet demonstrated their potential in inhibiting larval growth and development, delay in pupation period and dramatic reduction in fecundity and fertility. This is the first report-demonstrating efficacy of C. annum PIs against insect gut proteinases as well as larval growth and development of H. armigera. D
Journal of Insect Physiology, Mar 31, 2008
Proteolytic activities in soluble protein extracts from Mamestra brassicae (cabbage moth) larval ... more Proteolytic activities in soluble protein extracts from Mamestra brassicae (cabbage moth) larval midgut were analysed using specific peptide substrates and proteinase inhibitors. Serine proteinases were the major activities detected, with chymotrypsin-like and trypsinlike activities being responsible for approximately 62% and 19% of the total proteolytic activity towards a non-specific protein substrate. Only small amounts of elastase-like activities could be detected. The serine proteinases were active across the pH range 7-12.5, with both trypsin-like and chymotrypsin-like activities maximal at pH 11.5. The digestive proteinases were stable to the alkaline environment of the lepidopteran gut over the timescale of passage of food through the gut, with 50% of trypsin and 40% of chymotrypsin activity remaining after 6 h at pH 12, 37 1C. Soybean Kunitz trypsin inhibitor (SKTI) ingestion by the larvae had a growth-inhibitory effect, and induced inhibitor-insensitive trypsin-like activity. Qualitative and quantitative changes in proteinase activity bands after gel electrophoresis of gut extracts were evident in SKTI-fed larvae when compared with controls, with increases in levels of most bands, appearance of new bands, and a decrease in the major proteinase band present in extracts from control insects. r
Journal of Virology, 2015
Insect-borne plant viruses cause significant agricultural losses and jeopardize sustainable globa... more Insect-borne plant viruses cause significant agricultural losses and jeopardize sustainable global food production. Although blocking plant virus transmission would allow for crop protection, virus receptors in insect vectors are unknown. Here we identify membrane alanyl aminopeptidase N (APN) as a receptor for pea enation mosaic virus (PEMV) coat protein (CP) in the gut of the pea aphid, Acyrthosiphon pisum, using a far-Western blot method. Pulldown and immunofluorescence binding assays and surface plasmon resonance were used to confirm and characterize CP-APN interaction. PEMV virions and a peptide comprised of PEMV CP fused to a proline-rich hinge (-P-) and green fluorescent protein (CP-P-GFP) specifically bound to APN. Recombinant APN expressed in Sf9 cells resulted in internalization of CP-P-GFP, which was visualized by confocal microscopy; such internalization is an expected hallmark of a functional gut receptor. Finally, in assays with aphid gut-derived brush border membrane vesicles, binding of CP-P-GFP competed with binding of GBP3.1, a peptide previously demonstrated to bind to APN in the aphid gut and to impede PEMV uptake into the hemocoel; this finding supports the hypothesis that GBP3.1 and PEMV bind to and compete for the same APN receptor. These in vitro data combined with previously published in vivo experiments (S. Liu, S. Sivakumar, W. O. Sparks, W. A. Miller, and B. C. Bonning, Virology 401:107-116, 2010, http://dx.doi.org/10.1016/j.virol.2010.02.009) support the identification of APN as the first receptor in a plant virus vector. Knowledge of this receptor will provide for technologies based on PEMV-APN interaction designed to block plant virus transmission and to suppress aphid populations. A significant proportion of global food production is lost to insect pests. Aphids, in addition to weakening plants by feeding on their sap, are responsible for transmitting about half of the plant viruses vectored by insects. Growers rely heavily on the application of chemical insecticides to manage both aphids and aphid-vectored plant viral disease. To increase our understanding of plant virus-aphid vector interaction, we provide in vitro evidence supporting earlier in vivo work for identification of a receptor protein in the aphid gut called aminopeptidase N, which is responsible for entry of the plant virus pea enation mosaic virus into the pea aphid vector. Enrichment of proteins found on the surface of the aphid gut epithelium resulted in identification of this first aphid gut receptor for a plant virus. This discovery is particularly important since the disruption of plant virus binding to such a receptor may enable the development of a nonchemical strategy for controlling aphid-vectored plant viruses to maximize food production.
PLoS ONE
Background: The soybean aphid has significantly impacted soybean production in the U.S. Transcrip... more Background: The soybean aphid has significantly impacted soybean production in the U.S. Transcriptomic analyses were conducted for further insight into leads for potential novel management strategies.
Toxins, 2012
The sap sucking insects (Hemiptera), which include aphids, whiteflies, plant bugs and stink bugs,... more The sap sucking insects (Hemiptera), which include aphids, whiteflies, plant bugs and stink bugs, have emerged as major agricultural pests. The Hemiptera cause direct damage by feeding on crops, and in some cases indirect damage by transmission of plant viruses. Current management relies almost exclusively on application of classical chemical insecticides. While the development of transgenic crops expressing toxins derived from the bacterium Bacillus thuringiensis (Bt) has provided effective plant protection against some insect pests, Bt toxins exhibit little toxicity against sap sucking insects. Indeed, the pest status of some Hemiptera on Bt-transgenic plants has increased in the absence of pesticide application. The increased pest status of numerous hemipteran species, combined with increased prevalence of resistance to chemical insecticides, provides impetus for the development of biologically based, alternative management strategies. Here, we provide an overview of approaches toward transgenic resistance to hemipteran pests.
Toxicon, 2011
Conotoxins are a diverse collection of more than 50,000 peptides produced by predatory marine sna... more Conotoxins are a diverse collection of more than 50,000 peptides produced by predatory marine snails of the genus Conus in order to immobilize their prey. Many conotoxins modulate the activity of ion channels, and show high specificity to their targets; as a result, some have valuable pharmaceutical applications. However, obtaining active peptide is difficult and to date has only been achieved though natural collection, chemical synthesis, or the use of prokaryotic expression systems, which often have the disadvantage of requiring subsequent steps to correctly fold the peptide. This paper reports the production of a conotoxin, TxVIA from Conus textile, as a biologically active recombinant protein, using the yeast Pichia pastoris as expression host. The presence of the pro-peptide was found to be necessary for the expression of biologically active conotoxin. We also show that TxVIA is not, as previously reported, mollusc-specific, but also shows insecticidal activity when injected into lepidopteran (cabbage moth) and dipteran (house fly) larvae. In contrast, recombinant TxVIA was not found to be molluscicidal to the grey field slug Deroceras reticulatum.
Proceedings of the National Academy of Sciences, 2013
PLoS ONE, 2012
Background: The soybean aphid has significantly impacted soybean production in the U.S. Transcrip... more Background: The soybean aphid has significantly impacted soybean production in the U.S. Transcriptomic analyses were conducted for further insight into leads for potential novel management strategies.
Journal of the Science of Food and Agriculture, 2011
Starchy seeds are an important food and a source of dietary ingredients in many countries. Howeve... more Starchy seeds are an important food and a source of dietary ingredients in many countries. However, they suffer from extensive predation by bruchids (weevils) and other pests. α-Amylase inhibitors are attractive candidates for the control of seed weevils, as these insects are highly dependent on starch as an energy source. A proteinaceous α-amylase inhibitor from the seeds of Achyranthes aspera was identified, purified and characterised. In electrophoretic analysis, two prominent amylase inhibitor activity bands (AI1 and AI2) were detected. The inhibitor was purified 9.99-fold with 1206.95 total amylase inhibitor units mg⁻¹ protein. The molecular weight of the purified inhibitor was around 6 kDa. The isolated α-amylase inhibitor was found to be resistant to heat and proteolysis. Feeding analysis of Callosobruchus maculatus larvae on a diet containing seed powder of A. aspera revealed that survival of the larvae was severely affected, with the highest mortality rate occurring on the fifth day of feeding. The isolated inhibitor inhibited the majority of amylase isoforms of C. maculatus, Tribolium confusum and Helicoverpa armigera in electrophoretic analysis and solution assays. The information obtained in the present investigation could be useful for a genetic engineering approach that would make seeds resistant to storage pest infestations.
Journal of Invertebrate Pathology, 2011
Journal of Insect Physiology, 2005
Journal of Insect Physiology, 2008
Proteolytic activities in soluble protein extracts from Mamestra brassicae (cabbage moth) larval ... more Proteolytic activities in soluble protein extracts from Mamestra brassicae (cabbage moth) larval midgut were analysed using specific peptide substrates and proteinase inhibitors. Serine proteinases were the major activities detected, with chymotrypsin-like and trypsinlike activities being responsible for approximately 62% and 19% of the total proteolytic activity towards a non-specific protein substrate. Only small amounts of elastase-like activities could be detected. The serine proteinases were active across the pH range 7-12.5, with both trypsin-like and chymotrypsin-like activities maximal at pH 11.5. The digestive proteinases were stable to the alkaline environment of the lepidopteran gut over the timescale of passage of food through the gut, with 50% of trypsin and 40% of chymotrypsin activity remaining after 6 h at pH 12, 37 1C. Soybean Kunitz trypsin inhibitor (SKTI) ingestion by the larvae had a growth-inhibitory effect, and induced inhibitor-insensitive trypsin-like activity. Qualitative and quantitative changes in proteinase activity bands after gel electrophoresis of gut extracts were evident in SKTI-fed larvae when compared with controls, with increases in levels of most bands, appearance of new bands, and a decrease in the major proteinase band present in extracts from control insects. r
Insect Science, 2008
ABSTRACT The mannose-binding lectin GNA (snowdrop lectin) is used as a “carrier” domain in insect... more ABSTRACT The mannose-binding lectin GNA (snowdrop lectin) is used as a “carrier” domain in insecticidal fusion proteins which cross the insect gut after oral ingestion. A similar lectin from garlic bulb, ASAII, has been evaluated as an alternative “carrier”. Recombinant ASAII delivered orally to larvae of cabbage moth (Mamestra brassica; Lepidoptera) was subsequently detected in haemolymph, demonstrating transport. Fusion proteins comprising an insect neurotoxin, ButaIT (Buthus tamulus insecticidal toxin; red scorpion toxin) linked to the C-terminal region of ASAII or GNA were produced as recombinant proteins (GNA/ButaIT and ASA/ButaIT) by expression in Pichia pastoris. In both cases the C-terminal sequence of the lectin was truncated to avoid post-translational proteolysis. The GNA-containing fusion protein was toxic by injection to cabbage moth larvae (LD50≈ 250 μg/g), and when fed had a negative effect on survival and growth. It also decreased the survival of cereal aphids (Sitobion avenae; Homoptera) from neonate to adult by >70% when fed. In contrast, the ASA-ButaIT fusion protein was non-toxic to aphids, and had no effect on lepidopteran larvae, either when injected or when fed. However, intact ASA-ButaIT fusion protein was present in the haemolymph of cabbage moth larvae following ingestion, showing that transport of the fusion had occurred. The stabilities of GNA/ButaIT and ASA/ButaIT to proteolysis in vivo after injection or ingestion differed, and this may be a factor in determining insecticidal activities.
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Papers by Nanasaheb Chougule