Expression, secretion and processing of hirudin in E. coli using the alkaline phosphatase signal sequence

A DNA fragment coding for the E. coli phoA signal peptide was synthesized and inserted into the expression vector pKK223-3. A single HindIII restriction site is located just at the end of the signal sequence. A gene coding for the proteinase inhibitor hirudin, which has previously been synthesized, was inserted into this HindIII site. The hybrid protein was expressed under control of the tac-promoter and secreted into the periplasm of E. coli. From the periplasmic fraction two processed proteins were isolated. One of these was identical with desulfatohirudin and also had similar biological properties.     

Characterization of very low density lipoproteins and intermediate density lipoproteins of normo- and hyperlipidemic apolipoprotein E-2 homozygotes

Triglyceride-rich lipoproteins derived from ten normo- and hyperlipidemic apoE-2 homozygotes were analyzed for their composition, beta-VLDL content, and their ability to induce cholesteryl ester storage in macrophages. In six of these probands apoE sequence analysis revealed that the cysteine residues were at positions 112 and 158 of the amino acid sequence (Rall et al. 1983. J. Clin. Invest. 71: 1023-1031). ApoE-2 of these six and the other four patients was further analyzed by SDS electrophoresis to exclude the presence of apoE-2* (Rall et al. 1982. Proc. Natl. Acad. Sci. USA. 79: 4696-4700). The relative serum concentrations of free and esterified cholesterol transported in the d less than 1.006 g/ml and d 1.006-1.019 g/ml lipoproteins of the apoE-2 homozygotes was significantly higher as compared to controls. Compositional analysis of these lipoproteins revealed a relative reduction of triglycerides and a relative increase of cholesteryl esters as compared to controls. In most patients, with increasing serum triglyceride levels the cholesteryl ester concentration increased in d less than 1.006 g/ml and d 1.006-1.019 g/ml lipoproteins. However, in three patients with a low content of beta-VLDL, the increase in the d less than 1.006 g/ml fraction cholesterol was mostly due to free cholesterol and not due to cholesteryl esters. The degree of the macrophage cholesteryl ester accumulation induced by d less than 1.006 g/ml lipoproteins was mostly dependent on the concentration of the beta-migrating fraction (beta-VLDL). The amount of beta-VLDL and pre-beta-VLDL contained in the d less than 1.006 g/ml fraction was determined densitometrically after electrophoretic separation. It could be demonstrated that the beta-VLDL content in the d less than 1.006 g/ml fraction of the apoE-2 homozygous patients was largely independent of serum triglyceride and serum cholesterol levels. When macrophages were incubated with the IDL fraction (d 1.006-1.019 g/ml) from the apoE-2 patients, no significant increase in cellular cholesteryl esters above control levels was observed. Studies with purified lipoprotein lipase (LPL) and hepatic triglyceride lipase (HTGL) clearly revealed that both enzymes interacted with apoE-2 VLDL (binding, hydrolysis) to a lesser degree compared to control preparations. However, the apoE-2 VLDL preparations containing a low content of beta-VLDL were better substrates for LPL and HTGL than those containing a high beta-VLDL content. It is concluded from our studies that the plasma beta-VLDL content in apoE-2 homozygotes is a major determinant for cholesteryl ester accumulation in macrophages.(ABSTRACT TRUNCATED AT 400 WORDS)     

Are sucrosyl-oligosaccharides synthesized in mesophyll protoplasts of mature leaves of Cucumis melo?

Biosynthesis of sucrosyl-oligosaccharides (raffinose, stachyose) was traced in source leaves of Cucumis melo after ¹⁴C-photoassimilation. The main carbon compound exported was ¹⁴C-labeled stachyose. No oligosaccharide synthesis was detected in young, importing leaves. Mesophyll protoplasts, isolated from mature leaves which had previously photosynthesized ¹⁴CO₂, did not contain ¹⁴C-oligosaccharides but contained [¹⁴C]-sucrose and ¹⁴C-hexoses. Isolated minor-vein-enriched fractions from the same leaves, however, showed nearly 30% of the ¹⁴C of the neutral fraction to be in oligosaccharides. Isolated, viable mesophyll protoplasts incubated with NaH¹⁴CO₃ also failed to incorporate radioactivity into oligosaccharides, although sucrose and galactinol synthesis was unimpaired. Galactinolsynthase activity in leaf extracts and in mesophyll protoplasts was 16.8 mol·h^-1·mg^-1 protein and 13.8 mol·h^-1·mg^-1 protein, respectively. Galactosyltransferase (EC 2.4.1.67), which synthesizes stachyose from raffinose and galactinol, had an activity of 50 nmol·h^-1·mg^-1 protein in leaf extracts and was also present in the minor-vein-enriched fraction, but could not be detected in mesophyll protoplast lysates. The results indicate that mesophyll cells may not be the site of stachyose synthesis although precursor compounds like sucrose and galactinol are synthesized there.Abbreviation HPLC high-performance liquid chromatography     

Intracellular recordings from nonspiking interneurons in a semiintact,tethered walking insect

Nonspiking interneurons were investigated in a tethered, walking insect, Carausius morosus, that was able to freely perform walking movements. Experiments were carried out with animals walking on a lightweight, double-wheel treadmill. Although the animal was opened dorsally, the walking system was left intact. Intracellular recordings were obtained from the dorsal posterior neuropil of the mesothoracic ganglion. Nonspiking inter-neurons, in which modulations of the membrane potential were correlated with the walking rhythm, were described physiologically and stained with Lucifer Yellow. Interneurons are demonstrated in which membrane potential oscillations mirror the leg position or show correlation with the motoneuronal activity of the protractor and retractor coxae muscles during walking. Other interneurons showed distinct hyperpolarizations at certain important trigger points in the step cycle, for example, at the extreme posterior position. Through electrical stimulation of single, nonspiking interneurons during walking, the motoneuronal activity in two antagonistic muscles—protractor and retractor coxae—could be reversed and even the movement of the ipsilateral leg could be influenced. The nonspiking interneurons described appear to be important premotor elements involved in walking. They receive, integrate, and process information from different leg proprioceptors and drive groups of leg motoneurons during walking.     

Postmortem Degradation Alters Fluorographic Labeling Patterns and Affinities of Benzodiazepine Binding Proteins

To investigate the effect of endogenous proteolysis on the molecular weights of the benzodiazepine binding proteins, brains of trout, chicken, and rat were removed immediately after death and stored at room temperature for various periods of time before they were frozen. Photoaffinity labeling of membranes with [3H]flunitrazepam, followed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and fluorography, revealed proteolytic fragments of 47K in trout, chicken, and rat. The proteolysis set in rapidly after death. Seemingly in parallel with the degradation observed fluorographically, the affinity for [3H]flunitrazepam increased without systematic changes in receptor density. The degradation pattern was not identical to that of the photolabeled trypsinized benzodiazepine binding proteins. The endogenous proteolytic fragments were deglycosylated in two steps. In conclusion, proteolytic effects must be taken into account when interpreting labeling patterns and binding parameters.     

Hemolysis of rabbit erythrocytes in the presence of copper ions

The hemolysis of red blood cells (RBC) induced by Cu(II) is modified by ceruloplasmin (Cp) and albumin. The time course of hemolysis for rabbit RBC by Cu(II) consisted of two parts, an induction period followed by a catastrophic lysis period. The induction period decreased and the lysis rate increased with increasing Cu(II) concentration. Cp or albumin, modified Cu(II) induced hemolysis, by increasing the duration of the induction period and decreasing the overall rate of hemolysis of RBC. The catastrophic lysis period coincided with a sharp increase in the formation of metHb within the cell and in a rapid uptake of Cu(II). The presence of Cp led to an increase in the induction period prior to the rapid increase in metHb formation and in Cu(II) uptake. Porcine Cp was prepared with either two or three nonprosthetic copper binding sites (sites where Cu(II) is easily removed by passing over Chelex-100). Cp with three nonprosthetic binding sites gave more protection than Cp with two. Likewise, albumin can be prepared with three and five nonprosthetic copper binding sites. The albumin with five sites gave more protection than the albumin with three sites.     

Role of trans-activating proteins in the generation of active chromatin at the PHO5 promoter in S. cerevisiae.

Induction of the PHO5 gene in Saccharomyces cerevisiae by phosphate starvation was previously shown to be accompanied by the removal of four positioned nucleosomes from the promoter. We have now investigated the role of two trans-activating proteins, encoded by PHO2 and PHO4, which bind to the PHO5 promoter. Both proteins are absolutely required for the chromatin transition to occur as shown by analysis of null mutants of the two genes. Transformation of these mutant strains with plasmids containing the respective genes restores the wild type chromatin response. Increasing the gene dosage of PHO2 and of PHO4 makes it possible to differentiate functionally between the two proteins. From over-expressing PHO4 in a wild type and also in a pho2 null mutant strain and complementary experiments with PHO2, it is concluded that the PHO4 protein is the primary trigger for the chromatin transition, consistent with one of its two binding sites being located between positioned nucleosomes in repressed chromatin and thereby accessible. PHO2, the binding site of which is located within a nucleosome under conditions of PHO5 repression, contributes to the chromatin transition either by destabilizing histone-DNA interactions or by under-going interactions with PHO4.