Environment-dependent tight-binding potential model

The yellow-pigmented bacterium isolated from a ditch was a gram negative rod with a G+C content of 63 mol%, and was classified in the genus Sphingomonas. Electron microscopy revealed that the bacterial cell surface was covered with many large plaits. When grown in a medium containing a polysaccharide as an essential nutrient, a pit of 0.02-0.1 micrometers in diameter was formed on the cell surface, and a thin section showed the rearrangement of the plaits and the presence of a region where the cell membrane sinks into the cytosol. The dependence of the pit formation on the presence of macromolecule may predict the existence of a direct uptake mechanism for macromolecules through a mouth-like pit, possibly in endocytosis fashion. The confirmation of the pit structure is the first such finding in the history of microbiology and may provide a new insight into the cell morphology and biochemistry of macromolecule transport in microbial cell system.     

Lipidemic effect of methanol

The effect of methanol on some of the lipid components in serum was studied in rats. Methanol was administered by stomach tube in doses of 2 and 6 ml/kg b.wt daily for 21 and 6 days, respectively. Methanol was found to accumulate lipids; thus, cholesterol, phospholipids and triglycerides increased significantly. Concurrently, modification of the lipoid content of organs has been considered. It was concluded that methanol and not only formate, is toxic to rats, inspite of the alleged difference in routes of its metabolism in primates and rodents.     

Identification and target-size analysis of the leukotriene D4 receptor in the human THP-1 cell line

The human acute monocytic leukemia cell line THP-1 has been identified, by radioligand binding, as expressing the leukotriene D4 receptor at a high level (4000 binding sites per cell), without the need for further cell differentiation. [3H]Leukotriene D4-specific binding to THP-1 cell membranes was of high affinity (KD = 0.47 nM) and saturable, enhanced by divalent cations but inhibited by both monovalent cations and non-hydrolyzable GTP analogs. The cysteinyl leukotrienes competed for [3H]leukotriene D4-specific binding with the following rank order of potency: leukotriene D4 > leukotriene E4 > leukotriene C4. In addition, leukotriene D4-receptor antagonists from two structural classes, the quinolines MK-571 and L-697,008, and the indole ICI 204,219, displayed nanomolar potency in [3H]leukotriene D4 competition assays. These data show that [3H]leukotriene D4-specific binding to THP-1 cell membranes fulfils the criteria for binding to a leukotriene D4 receptor regulated through interaction with a G protein. Several novel features of the THP-1 leukotriene D4 receptor were investigated. Culture of THP-1 cells in the presence of tunicamycin, an inhibitor of N-glycosylation, resulted in a 6-fold decrease in the number of detectable [3H]leukotriene D4-specific binding sites. Target-size analysis by radiation inactivation estimated a molecular mass of 65 kDa for the [3H]leukotriene D4 specific binding site(s) present in THP-1 cell membranes. Together, these results suggest that the human THP-1 cell leukotriene D4 receptor is a glycosylated protein with a molecular mass of approx. 65 kDa within the membrane environment.