B. S. Murthy scite author profile

We have studied the inhibition of bovine pancreatic RNAase (RNAase A) and bovine seminal RNAase in its native dimeric form (RNAase BS-1) and in monomeric carboxymethylated form (MCM RNAase BS-1) by human placental RNAase inhibitor (RNAase inhibitor) in order to understand the effect of enzyme structure on its response to the inhibitor. Study of the inhibition as a function of inhibitor concentration revealed that RNAase A and MCM RNAase BS-1 were inhibited fully and the inhibitor-sensitivities of the two were comparable. But under identical inhibitor concentrations RNAase BS-1 was found to be virtually insensitive to the inhibitor; at higher (3-10-fold) inhibitor concentrations marginal inhibition of the native enzyme could be observed. When RNAase BS-1 was pretreated with 5 mM-dithiothreitol (DTT) and assayed, it exhibited greater inhibitor-sensitivity, presumably as a result of its partial monomerization on exposure to DTT. This DTT-mediated change in the response of RNAase BS-1 to the inhibitor did not, however, seem to occur either in the assay conditions (which included DTT) or even when the enzyme was pretreated with DTT in the presence of the substrate, suggesting an effect of the substrate on the enzyme behaviour towards the inhibitor. Independently, gel-filtration runs revealed that, although DTT treatment caused monomerization of RNase BS-1, this change did not take place when DTT treatment was carried out in the presence of the substrate. From our observations, we infer that differential inhibitor-sensitivity of the dimeric and monomeric forms of RNAase BS-1, the relative contents of the two forms and the influence of the substrate on them may be important determinants of the net enzyme activity in the presence of the inhibitor.

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Damage detection in vibrating bodies using genetic algorithms

Rao

Srinivas

Murthy

2004

Computers & Structures

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Effects of Protein RNase Inhibitor and Substrate on the Quaternary Structures of Bovine Seminal RNase

et al. 1996

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The effect of the protein RNase inhibitor (PRI) on the activity of bovine seminal RNase (BS-RNase) was investigated using the isolated quaternary forms, MxM and M=M, of the enzyme reported earlier [Piccoli, R., et al., (1992) Proc. Natl. Acad. Sci. U.S.A. 89, 1870-1874]. We found that the inhibitor does not interact with the intact isolated forms but has dramatic, differential effects on the two forms when the assays are performed under reducing conditions. These conditions, which are essential for full activity of the inhibitor, and are typical of its cytosolic localization, also promote monomerization of the M=M form, while under identical conditions the MxM form becomes a noncovalent dimer (NCD). The sensitivity of BS-RNase or that of the isolated quaternary forms under reducing conditions thus appears to be related to differential monomerization of the two forms of the enzyme; monomer being sensitive to PRI. The present study also shows that the interconversion between the two forms in equilibrium occurs at much higher rates in a reducing environment and that PRI further affects the interconversion and alters the equilibrium favoring monomerization of the protein. An opposite effect on the equilibrium between the forms is played by the substrate, which is found to stabilize the NCD form of the protein with a shift in the equilibrium between the two forms towards the dimer. These results are analyzed in the light of the antitumor action of the enzyme which is exerted in the cytosol, i.e., in the compartment housing the PRI and the ribosomal RNA, the molecular target of the enzyme.

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Optimization of drilling parameters for drilling of TI-6Al-4V based on surface roughness, flank wear and drill vibration

Balaji

Rao

et al. 2018

Measurement

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Functional genomic studies of aldo–keto reductases

Petrash

Murthy

Young

et al. 2001

Chemico-Biological Interactions

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Effect of electrojet on the total electron content of the ionosphere over the Indian subcontinent

Deshpande

Rastogi

Vats

et al. 1977

Nature

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Prediction of cutting tool wear, surface roughness and vibration of work piece in boring of AISI 316 steel with artificial neural network

2014

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Multi-response optimization in orthogonal turn milling by analyzing tool vibration and surface roughness using response surface methodology

Babu¹,

Murthy

Venkatarao³

et al. 2016

Proceedings of the Institution of Mechanical Engineers, Part B:

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Turn milling is one of the machining processes used to mill circular work pieces while the work piece rotates about its own axis. Orthogonal milling is one of the turn milling processes where the bottom part of cutter removes material from the rotating work piece with high metal removal rate. In this article, tool condition was studied by analyzing surface roughness and vibration of cutter with the use of response surface methodology. According to design of experiments, 16 experiments were conducted on ASTM B139 phosphor bronze with high-speed steel end mill cutter on four-axis milling machine. The response surface methodology was used to find out significant parameters that are affecting surface roughness and amplitude of cutter vibration. A multi-response optimization technique was used to identify optimum cutting parameters for less surface roughness and amplitude of cutter vibration.

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B. S. Murthy

Sensitivity of monomeric and dimeric forms of bovine seminal ribonuclease to human placental ribonuclease inhibitor

Damage detection in vibrating bodies using genetic algorithms

Effects of Protein RNase Inhibitor and Substrate on the Quaternary Structures of Bovine Seminal RNase

Optimization of drilling parameters for drilling of TI-6Al-4V based on surface roughness, flank wear and drill vibration

Functional genomic studies of aldo–keto reductases

Effect of electrojet on the total electron content of the ionosphere over the Indian subcontinent

Prediction of cutting tool wear, surface roughness and vibration of work piece in boring of AISI 316 steel with artificial neural network

Multi-response optimization in orthogonal turn milling by analyzing tool vibration and surface roughness using response surface methodology

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