Participation of plasma membrane proteins in the formation of tight junction by cultured epithelial cells

Measurements of the transepithelial electrical resistance correlated with freeze-fracture observations have been used to study the process of tight junction formation under various experimental conditions in monolayers of the canine kidney epithelial cell line MDCK. Cells derived from previously confluent cultures and plated immediately after trypsin- EDTA dissociation develop a resistance that reaches its maximum value of several hundred ohms-cm(2) after approximately 24 h and falls to a steady-state value of 80-150 ohms- cm(2) by 48 h. The rise in resistance and the development of tight junctions can be completely and reversibly prevented by the addition of 10 μg/ml cycloheximide at the time of plating, but not when this inhibitor is added more than 10 h after planting. Thus tight junction formation consists of separable synthetic and assembly phases. These two phases can also be dissociated and the requirement for protein synthesis after plating eliminated if, following trypsinization, the cells are maintained in spinner culture for 24 h before plating. The requirement for protein synthesis is restored, however, if cells maintained in spinner culture are treated with trypsin before plating. Actinomycin D prevents development of resistance only in monolayers formed from cells derived from sparse rather than confluent cultures, but new mRNA synthesis is not required if cells obtained from sparse cultures are maintained for 24 h in spinner culture before plating. Once a steady-state resistance has been reached, its maintenance does not require either mRNA or protein synthesis; in fact, inhibition of protein synthesis causes a rise in the resistance over a 30-h period. Following treatments that disrupt the junctions in steady- state monolayers recovery of resistance also does not require protein synthesis. These observations suggest that proteins are involved in tight junction formation. Such proteins, which do not turn over rapidly under steady-state conditions, are destroyed by trypsinization and can be resynthesized in the absence of stable cell-cell or cell-substratum contact. Messenger RNA coding for proteins involved in tight junction formation is stable except when cells are sparsely plated, and can also be synthesized without intercellular contacts or cell-substratum attachment.     

Characterization of the 1-phosphohistidinyl residue in the phosphocarrier protein HPr of the phosphoenolpyruvate: sugar phosphotransferase system of Streptococcus faecalis

The phosphocarrier protein HPr of the bacterial phosphoenolpyruvate:sugar phosphotransferase system contains 1-phosphohistidine at residue 15. This residue and the active site residue Arg-17 are conserved in HPrs isolated from both Gram-positive and -negative bacteria. The pH- and temperature-dependent hydrolysis of the 1-phosphohistidinyl residue in P-HPr from Streptococcus faecalis has been investigated. The results show that the hydrolysis properties are very similar to those previously reported for P-HPr from Escherichia coli. It was postulated that the unusual hydrolysis properties were due to the presence of a carboxyl group at the active site, and it is now known that in HPr from Escherichia coli the C-terminal residue Glu-85 is present. The results in this paper suggest that a similar carboxyl group is present at the active site in HPr from Streptococcus faecalis.     

Sequence of cloned enzyme IIN-acetylglucosamine of the phosphoenolpyruvate:N-acetylglucosamine phosphotransferase system of Escherichia coli

In Escherichia coli, N-acetylglucosamine (nag) metabolism is joined to glycolysis via three specific enzymes that are the products of the nag operon. The three genes of the operon, nagA, nagB, and nagE, were found to be carried by a colicin plasmid, pLC5-21, from a genomic library of E. coli [Clarke, L., & Carbon, J. (1976) Cell (Cambridge, Mass.) 9,91-99]. The nagE gene that codes for enzyme IIN-acetylglucosamine of the phosphoenolpyruvate:sugar phosphotransferase system (PTS) was sequenced. The nagE sequence is preceded by a catabolite gene activator protein binding site and ends in a putative rho-independent termination site. The amino acid sequence determined from this DNA sequence shows 44% homology to enzymes IIglucose and IIIglucose of the PTS. Enzyme IIN-acetylglucosamine, which has 648 amino acids and a molecular weight of 68,356, contains a histidine at residue 569 which is homologous to the active site of IIIglc. Sequence homologies with enzymes IIglucose, II beta-glucoside, and IIsucrose indicate that residues His-190, His-213, and His-295 of enzyme IInag are also conserved and that His-190 is probably the second active site histidine. Other sequence homologies among these enzymes II suggest that they contain several sequence transpositions. Preliminary models of the enzymes II are proposed.     

ESTimating plant phylogeny: lessons from partitioning

Background  

While Expressed Sequence Tags (ESTs) have proven a viable and efficient way to sample genomes, particularly those for which whole-genome sequencing is impractical, phylogenetic analysis using ESTs remains difficult. Sequencing errors and orthology determination are the major problems when using ESTs as a source of characters for systematics. Here we develop methods to incorporate EST sequence information in a simultaneous analysis framework to address controversial phylogenetic questions regarding the relationships among the major groups of seed plants. We use an automated, phylogenetically derived approach to orthology determination called OrthologID generate a phylogeny based on 43 process partitions, many of which are derived from ESTs, and examine several measures of support to assess the utility of EST data for phylogenies.     

Phosphoproteins and the phosphoenolpyruvate:sugar phosphotransferase system of Streptococcus salivarius. Detection of two different ATP-dependent phosphorylations of the phosphocarrier protein HPr

Phosphoproteins which arise from incubation of Streptococcus salivarius ATCC25975 crude extracts with [32P]phosphoenolpyruvate and [gamma-32P]ATP, were separated and detected by sodium dodecyl sulphate-polyacrylamide gel electrophoresis and autoradiography. These procedures were carried out using the methodology that has been developed to allow for the detection of phosphoproteins containing 1-P-histidinyl and 3-P-histidinyl residues, and also to distinguish between these and phosphoproteins containing acid-stable phosphoamino acids such as phosphoserine, phosphothreonine, and phosphotyrosine. Extracts of cells which had been grown with various sugars as carbon sources were investigated to determine both constitutive and inducible phosphoproteins. No evidence was found for phosphoproteins specifically induced by a sugar, and in particular no evidence was found for any IIIsugar phosphocarrier protein of the phosphoenolpyruvate:sugar phosphotransferase system (PTS). Incubation with [gamma-32P]ATP showed that histidine-containing phosphocarrier protein (HPr) of the PTS could be phosphorylated to give both acid-stable and acid-labile phosphoamino acid residues. The acid-labile ATP-dependent phosphorylation activity was activated by glucose-6-P and appeared to produce a 3-P-histidinyl residue in HPr.     

Isocitrate lyase in green leaves

Isocitrate lyase (EC 4.1.3.1) has been demonstrated in crude dialyzed extracts of healthy spinach (Spinacia oleracea) leaves from commercial sources and wheat (Triticum aestivum) and maize (Zea mays) leaves stored in darkness in the cold room for 1 week. The products of the reaction were identified as glyoxylate and succinate, the former by its phenylhydrazone, and the latter traced by isotopic labeling and cochromatography. Fresh spinach extracts contain a mixture of at least two endogenous inhibitors of isocitrate lyase activity and one of them is proteinaceous. The endogenous inhibitor(s) is thermostable and retains 50% of its inhibitory effect even after boiling for 10 minutes. Dark starvation of the leaves removes the inhibition, due possibly to autolysis of the inhibitor(s). The inhibitor(s) can also be removed by filtration through Sephadex gels. The crude extract from spinach shows double pH optima in phosphate buffer at pH 7.4 and pH 8.0. The apparent Km at pH 7.4 was 0.1 mm. Oxaloacetate, dl-malate, succinate, 3-phosphoglycerate, and glycolate at 10 mm concentration inhibited, but ribulose 1,5-diphosphate activated enzymic activity.