Vilas D. Redkar scite author profile

Vilas D. Redkar

3Publications

52Citation Statements Received

61Citation Statements Given

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141

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Tata Institute of Fundamental Research

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Characterization of P0, a Ribosomal Phosphoprotein ofPlasmodium falciparum

Goswami

Singh

Redkar

et al. 1997

Journal of Biological Chemistry

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A cDNA expression clone of the human malarial parasite Plasmodium falciparum, Pf4, which was reactive only to the immune sera and not to the patient sera, has recently been found to be the P. falciparum homologue of the P0 ribosomal phosphoprotein gene. A Northern analysis of the P0 gene revealed the presence of two transcripts, both present in all the different intraerythrocytic stages of the parasite life cycle. A 138-base pair amino-terminal domain of this gene was expressed as a fusion protein with glutathione S-transferase in Escherichia coli. Polyclonal antibodies raised against this domain immunoprecipitated the expected 38-kDa P0 protein from the 35 S-labeled as well as 32 P-labeled P. falciparum cultures. Monospecific human immune sera affinity-purified using the expression clone Pf4 also immunoprecipitated the same size protein from [35 S]methionine-labeled P. falciparum protein extract. Purified IgG from polyclonal antibodies raised against the amino-terminal domain of P0 protein completely inhibited the growth of P. falciparum in vitro. This inhibition appears to be mainly at the step of erythrocyte invasion by the parasites.

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Bovine Brain Mitochondrial Hexokinase

Redkar¹,

Kenkare²

1972

Journal of Biological Chemistry

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Effect of ligands on the reactivity of essential sulfhydryls in brain hexokinase. Possible interaction between substrate binding sites

Redkar¹,

Kenkare²

1975

Biochemistry

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Inactivation of bovine brain mitochondrial hexokinase by 5,5'-dithiobis(2-nitrobenzoic acid) (DTNB), a sulfhydryl specific reagent, has been investigated. The study shows that the inactivation of the enzyme by DTNB proceeds by way of prior binding of the reagent to the enzyme and involves the reaction of 1 mol of DTNB with a mol of enzyme. At stoichiometric levels of DTNB, the inactivation of the enzyme is accompanied by the formation of a disulfide bond. But it is not clear whether the disulfide bond or the mixed disulfide intermediate formed prior to it causes inactivation. On the basis of considerable protection afforded by glucose against this inactivation it is tentatively concluded that the sulfhydryl residues involved in this inactivation are at the glucose binding site of the enzyme, although other possibilities are not ruled out. An analysis of effects of various substrates and inhibitors on the kinetics of inactivation and sulfhydryl modification by DTNB has led to the proposal that the binding of substrates to the enzyme is interdependent and that glucose and glucose 6-phosphate produce slow conformational changes in the enzyme. Protective effects by ligands have been employed to calculate their dissociation constant with respect to the enzyme. The data also indicate that glucose 6-phosphate and inorganic phosphate share the same locus on the enzyme as the gamma phosphate of ATP and that nucleotides ATP and ADP bind to the enzyme in the absence of Mg2+.

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Vilas D. Redkar

Characterization of P0, a Ribosomal Phosphoprotein ofPlasmodium falciparum

Bovine Brain Mitochondrial Hexokinase

Effect of ligands on the reactivity of essential sulfhydryls in brain hexokinase. Possible interaction between substrate binding sites

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