Low levels of irradiation modify lipid domains in model membranes: a laser Raman study

We have used Raman spectroscopy to study the effects of ionizing radiation on thermal transitions of dipalmitoyl lecithin + polyunsaturated fatty acid liposomes. Raman spectra in the CH (2800-3000 cm-1), C = C (1600-1680 cm-1), and C-C (1000-1150 cm-1) stretching regions are sensitive to ionizing radiation. The CH stretching of acyl chains yields three strong bands around 2850, 2880, and 2930 cm-1. The ratios of the relative intensities of 2880 and 2850 cm-1 bands, i.e., I2880/2850, when plotted against temperature show multiple infection points which correspond to multiple spectroscopic transitions. These are ascribed to a separate phase with distinctive proportions of lecithin and polyunsaturated fatty acids. We find these transitions sensitive to low levels of ionizing radiation. Doses as low as 5-15 rad after 48 h of 60Co gamma irradiation and 60 kVp X irradiation drastically broaden and shift the polyunsaturated rich phase which occurs at lower temperatures (-7 to +5 degrees C) than that of pure dipalmitoyl lecithin (39 degrees C). In addition a new transition around 46 degrees C also emerges upon irradiation (48 h postirradiation). These irradiation effects can be accelerated by the presence of catalytic amounts of Fe2+/EDTA +H2O2. The membrane transition modification is more sensitive to 60 kVp X rays in comparison to 60Co gamma rays owing to the high LET component of the former. The intensity of 1660 cm-1 band, assigned to C = C stretching in the cis-configuration, loses intensity upon irradiation. Concomitantly, a new band around 1675 cm-1, assigned to trans-configuration, emerges. Similarly the increase in the "order parameter" as calculated from the relative intensities of C--C stretching bands indicates rigidification of membrane. Various factors such as reduction in unsaturation, increase in trans-configuration, and the formation of multiple peroxidation products are invoked as lipid phase modifiers.     

Symbiotically defective histidine auxotrophs of Bradyrhizobium japonicum

Four histidine auxotrophs of Bradyrhizobium japonicum strain USDA 122 were isolated by random transposon Tn5 mutagenesis. These mutants arose from different, single transposition events as shown by the comparison of EcoRI and XhoI-generated Tn5 flanking sequences of genomic DNA. The mutants grew on minimal medium supplemented with l-histidine or l-histidinol but failed to grow with l-histidinol phosphate. While two of the muants were symbiotically defective and did not form nodules on Glycine max cvs. Lee and Peking and on Glycine soja, the other two mutants were symbiotically competent. Reversion to prototrophy occurred at a frequency of about 10^-7 on growth medium without added antibiotics, but prototrophs could not be isolated from growth medium containing 200 g/ml kanamycin and streptomycin. The prototrophic revertants formed nodules on all the soybean cultivars examined. When histidine was supplied to the plant growth medium, both nodulation deficient mutants formed effective symbioses. On histidine unamended plants, nodules were observed infrequently. Three classes of bacterial colonies were isolated from such infrequent nodules: class 1 were kanamycin resistant-auxotrophs; class 2 were kanamycin sensitive-prototrophs; and class 3 were kanamycin-sensitive auxotrophs. Our results suggest that two Tn5 insertion mutations in B. japonicum leading to histidine auxotrophy, affect nodulation in some way. These mutations are in regions that show no homology to the Rhizobium meliloti common nodulation genes.     

Copper uptake by free and immobilized cyanobacterium

Abstract Copper uptake in free and immobilized cells of the cyanobacterium Nostoc calcicola has been examined. The immobilized cells invariably maintained a higher profile of Cu intake rate (12.7 nmol mg⁻¹ protein min⁻¹) over the free cells (6.0 nmol mg⁻¹ protein min⁻¹). The total Cu uptake in immobilized cells was almost two and a half-times more than their free cell counterpart under identical experimental conditions. Also, the immobilized cells showed a stronger positive correlation between Cu adsorption and uptake. The results have been discussed in terms of improved metabolic efficiency of immobilized cells.     

Purification and characterization of the inositol 1,4,5-trisphosphate receptor protein from rat vas deferens

Among rat peripheral tissues examined, Ins(1,4,5)P(3) receptor binding is highest in the vas deferens, with levels about 25% of those of the cerebellum. We have purified the InsP(3) receptor binding protein from rat vas deferens membranes 600-fold. The purified protein displays a single 260 kDa band on SDS/PAGE, and the native protein has an apparent molecular mass of 1000 kDa, the same as in cerebellum. The inositol phosphate specificity, pH-dependence and influence of various reagents are the same for purified vas deferens and cerebellar receptors. Whereas particulate InsP(3) binding in cerebellum is potently inhibited by Ca(2+), particulate and purified vas deferens receptor binding of InsP(3) is not influenced by Ca(2+). Vas deferens appears to lack calmedin activity, but the InsP(3) receptor is sensitive to Ca(2+) inhibition conferred by brain calmedin. The vas deferens may prove to be a valuable tissue for characterizing functional aspects of InsP(3) receptors.