S. Kulkarni scite author profile

Metarhizium isolates from soil (53) and insect hosts (10) were evaluated for extracellular production of cuticle degrading enzyme (CDE) activities such as chitinase, chitin deacetylase (CDA), chitosanase, protease and lipase. Regression analysis demonstrated the relation of CDE activities with Helicoverpa armigera mortality. On basis of this relation, ten isolates were selected for further evaluation. Subsequently, based on LT 50 of the 10 isolates towards H. armigera, five isolates were selected. Out of these five isolates, three were selected on the basis of higher conidia production (60Á75 g/kg rice), faster sedimentation time (ST 50 ) (2.3Á2.65 h in 0.1% (w/v) Tween 80) and lower LC 50 (1.4Á 5.7 )10 3 conidia/mL) against H. armigera. Finally, three Metarhizium isolates were selected for the molecular fingerprinting using ITS sequencing and RAPD patterning. All three isolates, M34412, M34311 and M81123, showed comparable RAPD patterns with a 935G primer. These were further evaluated for their field performance against H. armigera in a chickpea crop. The percent efficacies with the three Metarhizium isolates were from 65 to 72%, which was comparable to the chemical insecticide, endosulfan (74%).

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Mass spectrometric studies of sulfonyl esters of diazonaphthalenones: Relationship between fragmentation patterns and photolithographic mechanisms

Sorbier

Kulkarni

Vouros

et al. 1987

J of Applied Polymer Sci

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Esters of 2‐diazonaphthalenone sulfonic acid were examined by mass spectrometry using electron impact and chemical ionization techniques. Charactristic differences in the fragmentation patterns of positional isomers have been observed. In a manner analogous to photo‐induced decompositions, the diazoketo functional groups fragment by elimination of N2 to form an indenoketene ion. An alternative process involves the apparent loss of 26 mass units from the molecular ion. The latter process is explained by evoking the abstraction of two hydrogen atoms following the loss of N2. With deuterium isotope labeling, it has been shown that the hydrogens are abstracted from the surface of the probe tip used for introduction of the samples into the mass spectrometer. It is concluded that an environment rich in hydrogen or proton‐donating properties promotes and enhances the incorporation of the hydrogen atoms and formation of the [M‐26] species at the expense of the ketene moiety, which is an important intermediate in the photoresist process. By extrapolation it may be inferred that the efficiency of the photolithographic process could be influenced by the availability of protons in the photoresist matrix.

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Electron impact and chemical ionization mass spectra of nitro‐substituted polyfunctional isomers

Kulkarni

Kamath

Kulkarni

1984

Org. Mass Spectrom.

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The electron impact and methane and ammonia chemical ionization mass spectra of some selected nitro-substituted isomeric benzalacetophenones, benzyl ketones and aromatic epoxides have been examined. The isomeric pairs show significant differences in the electron impact and chemical ionization spectra. The EI spectra show cleavage OL to the carbonyl as the major fragmentation mode. Under CI conditions subtle differences in the fragmentation modes of isomeric pairs are more enhanced, and elimination reactions are more favoured in the 0-nitro-substituted compounds than in the para isomers.

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An assessment of a multipoint dosing approach for exothermic nitration in CSTRs in series

Mule

Kulkarni

2022

React. Chem. Eng.

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S. Kulkarni

Effect of repeatedin vitrosub-culturing on the virulence ofMetarhizium anisopliaeagainstHelicoverpa armigera(Lepidoptera: Noctuidae)

Comparison ofMetarhiziumisolates for biocontrol ofHelicoverpa armigera(Lepidoptera: Noctuidae) in chickpea

Mass spectrometric studies of sulfonyl esters of diazonaphthalenones: Relationship between fragmentation patterns and photolithographic mechanisms

Electron impact and chemical ionization mass spectra of nitro‐substituted polyfunctional isomers

An assessment of a multipoint dosing approach for exothermic nitration in CSTRs in series

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