Hoshang Batliwala scite author profile

Human erythrocytes were exposed to high concentrations of methane and nitrogen through the application of elevated partial pressures of these gas molecules. Cell leakage (haemolysis) was measured for cells exposed to these gases under a wide range of experimental conditions. Application of methane produces haemolysis at pressures far below the hydrostatic pressures known to disrupt membrane or protein structure. The effects of changes in buffer, temperature, diffusion rate and detergents were studied. Methane acts co-operatively with detergents to produce haemolysis at much lower detergent concentration than is required in the absence of methane or in the presence of nitrogen. At sufficiently high concentrations of methane, all cells are haemolysed. Increased temperature enhances the effect. Methane produces 50% haemolysis at a concentration of about 0.33 M compared with about 7.5 M methanol required for the same degree of haemolysis.

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Topography of multiple spanning transmembrane proteins - a photochemical approach

Lala¹,

Batliwala²,

Bhat³

1990

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A new carbene based heterobifunctional reagent Photochemical crosslinking of aldolase

et al. 1987

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The synthesis of a new photoactivatable heterobifunctional crosslinking reagent, the N-oxysuccinimide ester of 2-carboxy-9_diazofluorene, is described. The ability of the parent chromophore 2-carbomethoxy-9-diazofluorene to insert into cyclohexane and methanol has been established. The reagent has been linked to aldolase and the stoichiometry determined. Photolysis of the probe-linked aldolase indicated that photolysis was very rapid and that the photolysed product was constituted of crosslinked dimer, trimer and tetramer. Increase in concentration of probe linked to aldolase followed by photolysis gave rise to largely tetramer and higher oligomers of aldolase. The use of this carbene-based reagent vis a vis arylazide-based reagent for studying protein crosslinking is discussed.

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