Raam R. Mohan scite author profile

Raam R. Mohan

4Publications

55Citation Statements Received

70Citation Statements Given

How they've been cited

119

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Affiliations

National Dairy Research Institute, Linde (United States), ExxonMobil (United States)

Publications

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Autolytic Mechanism for Spheroplast Formation in Bacillus cereus and Escherichia coli

Mohan¹,

Kronish²,

Pianotti³

et al. 1965

J Bacteriol

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mechanism for spheroplast formation in Bacillus cereus and Escherichia coli. J. Bacteriol. 90:1355-1364. 1965.-Spheroplasts of Bacillus cereus strain T and Escherichia coli B were prepared by incubating early log-phase cells in appropriate buffers and stabilizers for 3 hr at 30 and 37 C, respectively. Upon incubation in 0.05 M tris(hydroxymethyl)aminomethane buffer osmotically stabilized with 16% polyethylene glycol at pH 7.5, 99% of the B. cereus cells formed spheroplasts; 90% of the E. coli cells were converted to spheroplasts in 0.4 M sodium acetate buffer osmotically stabilized with 1.6 M sucrose at pH 6.0. The extent of spheroplast formation was determined by phase-contrast microscopic examination, by measuring the rate of fall of optical density in the reaction mixture when subjected to osmotic shock, and by viable intact cell counts. The effect of a selected group of metabolic inhibitors on the autolytic system of B. cereus and E. coli has been examined. B. cereus and E. coli wall components comprising 26% of the dry weight of the original cellular material were recovered from dialyzed fractions by precipitation in 70% ethyl alcohol. Chemical and chromatographic analysis of cell-wall hydrolysates from B. cereus and E. coli indicated the presence of glucosamine, alanine, lysine, glycine, aspartic acid, diaminopimelic acid, glutamic acid, and muramic acid.

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‘Soya Milk Tris‐based Phytoextender Reduces Apoptosis in Cryopreserved Buffalo (Bubalus bubalis) Spermatozoa’

Mohan

Atreja

2014

Reprod Domestic Animals

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The objective of this study was to investigate the effect of newly developed soya milk Tris (SMT)-based phytoextender as an alternative to egg yolk Tris (EYT) extender used for cryopreservation of buffalo (Bubalus bubalis) spermatozoa on apoptosis. Fresh buffalo semen (control without dilution) was cryopreserved in conventional EYT (20% egg yolk v/v in Tris) and SMT (25% soya milk v/v in Tris) extender and used for the assessment of expression of apoptotic proteins. Proteins extracted from a total number of nine ejaculates from three individual buffalo bulls chosen at random were separated using SDS-PAGE followed by immunoblotting against caspase-8, caspase-9, caspase-3, poly(ADP-ribose)polymerase (PARP), cytochrome c and apoptosis inducing factor (AIF). In addition, fluorescence microscopy was used for the detection of mitochondrial membrane potential (JC-1 assay) and apoptotic cells (annexin V-FITC/PI assay). The results obtained clearly indicate the significant (p < 0.05) reduction in the expression of caspase-3 (27 kDa), caspase-8 (53 kDa), caspase-9 (50 kDa) precursor and cytochrome c (17 kDa) in semen cryopreserved in SMT extender in comparison with EYT extender. A non-significant (p > 0.05) reduction in expression of PARP-DNA-binding subunit (24 kDa) was observed in SMT extender. No expression of AIF was found in cryopreserved semen samples. A significant (p < 0.05) increase in the mean percentage of cells having high mitochondrial membrane potential and a non-significant (p > 0.05) decrease in late apoptotic cells (AN+/PI+) was observed in SMT extender when compared to EYT extender. The results demonstrated that cryopreservation of buffalo semen in SMT-based phytoextender can replace the traditional egg yolk extenders as it reduces the expression of apoptotic proteins maintaining high mitochondrial membrane potential and gives better protection to sperms in terms of its non-animal origin.

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Reduction and separation of nitrate and nitrite by liquid membrane‐encapsulated enzymes

Mohan

1974

Biotech & Bioengineering

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SummaryPurified enzymes encapsulated in liquid surfactant membranes have been shown to retain their catalytic activity. In general, previous work on encapsulation has been confined to single enzymes. The system has now been extended to encapsulate a bacterial cell-free homogenate. Liquid membrane-encapsulated bacterial cell-free homogenate reduces effectively NO3-to NO2-and other nitrogen compounds of lower oxidation state. This technique of removing nitrates and nitrites may have application in waste-water treatment. Also, it has been shown that encapsulated cell-free homogenate does not leak and there is no absorption of the substrate onto the liquid surfactant membrane surfaces. The reduction in the reaction rates is discussed in terms of solubility of the substrate and the rate of permeation of the substrates through the liquid surfactant membrane.

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Preservation of grain with aliphatic 1,3-diols and their esters

Frankenfeld¹,

Mohan²,

Squibb³

1975

J. Agric. Food Chem.

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Raam R. Mohan

Autolytic Mechanism for Spheroplast Formation in Bacillus cereus and Escherichia coli

‘Soya Milk Tris‐based Phytoextender Reduces Apoptosis in Cryopreserved Buffalo (Bubalus bubalis) Spermatozoa’

Reduction and separation of nitrate and nitrite by liquid membrane‐encapsulated enzymes

Preservation of grain with aliphatic 1,3-diols and their esters

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