Characterization of a virulent bacteriophage specific for Escherichia coli O157:H7 and analysis of its cellular receptor and two tail fiber genes

A virulent phage, named PP01, specific for Escherichia coli O157:H7 was isolated from swine stool sample. The phage concentration in a swine stool, estimated by plaque assay on E. coli O157:H7 EDL933, was 4.2x10(7) plaque-forming units per g sample. PP01 infects strains of E. coli O157:H7 but does not infect E. coli strains of other O-serogroups and K-12 strains. Infection of an E. coli O157:H7 culture with PP01 at a multiplicity of infection of two produced a drastic decrease of the optical density at 600 nm due to cell lysis. The further incubation of the culture for 7 h produced phage-resistant E. coli O157:H7 mutant. One PP01-resistant E. coli O157:H7 mutant had lost the major outer membrane protein OmpC. Complementation by ompC from a O157:H7 strain but not from a K-12 strain resulted in the restoration of PP01 susceptibility suggesting that the OmpC protein serves as the PP01 receptor. DNA sequences and homology analysis of two tail fiber genes, 37 and 38, responsible for the host cell recognition revealed that PP01 is a member of the T-even bacteriophages, especially the T2 family.     

Immunohistochemical localization of acyl-CoA hydrolase/thioesterase multigene family members to rat epithelia

Acyl-CoA hydrolases cleave acyl-CoA thioesters to free fatty acids and coenzyme A. The potency of these enzymes may serve to modulate cellular levels of acyl-CoAs to affect various cellular functions, including lipid metabolism. In this study, we investigated the tissue distribution of this multigene family of enzymes, focusing on cytosolic (CTE-I) and mitochondrial acyl-CoA thioesterases (MTE-I) in adult rats, using an anti-CTE-I antibody which recognizes both the isoforms. Western blotting detected them mainly in organs closely related to fatty acid oxidation, of which kidney contained the highest levels of both enzymes. Immunohistochemistry localized the enzymes primarily in the proximal tubules, where a large energy demand is expected and fatty acids represent a major fuel, correlating well with the intrarenal distribution of peroxisomal beta-oxidation. In situ hybridization suggested colocalization of CTE-I and MTE-I in the kidney. The immunoreactivity was also found in various epithelial tissues in the body, including Harderian gland and sebaceous gland. These results demonstrated the distribution of CTE-I and MTE-I in a wide variety of rat tissues, primarily characterized by an epithelial localization, being consistent with their involvement in fatty acid metabolism.     

In situ screening for genes expressed preferentially in secondary mesenchyme cells of sea urchin embryos

In sea urchin embryos, four types of non-skeletogenic mesodermal cells are derived from secondary mesenchyme cells (SMCs). Although determining the complete lineage of SMCs is currently a high-priority goal, specific markers for each type of SMC-derived cell in Hemicentrotus pulcherrimus are unavailable. To identify genes preferentially expressed in the various types of SMC-derived cells, we constructed a cDNA library of the archenteron isolated from late gastrulae. Both the 5' and 3' ends of 1,050 cDNAs randomly selected from 7,500 picked clones were sequenced. Based on the sequence at the 3' end, the cDNAs were grouped into 671 independent clusters. Among these, 605 clusters were analysed by whole-mount in situ hybridisation; 28% (170 clusters) exhibited differential expression patterns, while 24% were ubiquitously expressed and 48% did not show any staining. Of 170 clusters showing differential expression patterns, 33 clusters were differentially expressed in SMC-derived cells. From these clusters, several genes were obtained that were specifically or predominantly expressed in each type of SMCs, including coelomic pouch cells in which specific expression patterns have not been reported previously, and hence will be useful for lineage studies. Furthermore, in situ hybridisation revealed the existence of a new type or subpopulation of SMCs distributed sparsely in the blastocoel.     

The datA locus predominantly contributes to the initiator titration mechanism in the control of replication initiation in Escherichia coli

Replication of the Escherichia coli chromosome is initiated synchronously from all origins (oriC) present in a cell at a fixed time in the cell cycle under given steady state culture conditions. A mechanism to ensure the cyclic initiation events operates through the chromosomal site, datA, which titrates exceptionally large amounts of the bacterial initiator protein, DnaA, to prevent overinitiation. Deletion of the datA locus results in extra initiations and altered temporal control of replication. There are many other sites on the E. coli chromosome that can bind DnaA protein, but the contribution of these sites to the control of replication initiation has not been investigated. In the present study, seven major DnaA binding sites other than datA have been examined for their influence on the timing of replication initiation. Disruption of these seven major binding sites, either individually or together, had no effect on the timing of initiation of replication. Thus, datA seems to be a unique site that adjusts the balance between free and bound DnaA to ensure that there is only a single initiation event in each bacterial cell cycle. Mutation either in the second or the third DnaA box (a 9 basepair DnaA-binding sequence) in datA was enough to induce asynchronous and extra initiations of replication to a similar extent as that observed with the datA-deleted strain. These DnaA boxes may act as cores for the cooperative binding of DnaA to the entire datA region.     

Non-destructive monitoring of rpoS promoter activity as stress marker for evaluating cellular physiological status

To monitor the extent of cellular physiological stress, the activity of the rpoS promoter was evaluated as a marker of the stress pathway. A reporter plasmid was constructed by inserting the GFPuv gene under the rpoS promoter and used to transform Escherichia coli cells. The fluorescence of the GFPuv protein was measured in intact cells in a non-destructive manner. The physiological status of the cells could be conveniently monitored using the rpoS-GFPuv reporter gene with respect to the cellular growth phase and to elevated ethanol and NaCl concentrations as two examples of environmental stress factors. Comparison of the response of different E. coli strains demonstrated an essential role of the relA gene in the induction of the rpoS-GFPuv reporter gene.     

ATP-sensitive potassium channels participate in glucose uptake in skeletal muscle and adipose tissue

ATP-sensitive potassium (K(ATP)) channels are known to be critical in the control of both insulin and glucagon secretion, the major hormones in the maintenance of glucose homeostasis. The involvement of K(ATP) channels in glucose uptake in the target tissues of insulin, however, is not known. We show here that Kir6.2(-/-) mice lacking Kir6.2, the pore-forming subunit of these channels, have no K(ATP) channel activity in their skeletal muscles. A 2-deoxy-[(3)H]glucose uptake experiment in vivo showed that the basal and insulin-stimulated glucose uptake in skeletal muscles and adipose tissues of Kir6.2(-/-) mice is enhanced compared with that in wild-type (WT) mice. In addition, in vitro measurement of glucose uptake indicates that disruption of the channel increases the basal glucose uptake in Kir6.2(-/-) extensor digitorum longus and the insulin-stimulated glucose uptake in Kir6.2(-/-) soleus muscle. In contrast, glucose uptake in adipose tissue, measured in vitro, was similar in Kir6.2(-/-) and WT mice, suggesting that the increase in glucose uptake in Kir6.2(-/-) adipocytes is mediated by altered extracellular hormonal or neuronal signals altered by disruption of the K(ATP) channels.     

Inhibition of human cytochrome P450 1B1, 1A1 and 1A2 by antigenotoxic compounds,purpurin and alizarin

Expanded simple tandem repeat (ESTR) loci include some of the most unstable DNA in the mouse genome and have been extensively used in pedigree studies of germline mutation. We now show that repeat DNA instability at the mouse ESTR locus Ms6-hm can also be monitored by single molecule PCR analysis of genomic DNA. Unlike unstable human minisatellites which mutate almost exclusively in the germline by a meiotic recombination-based process, mouse Ms6-hm shows repeat instability both in germinal (sperm) DNA and in somatic (spleen, brain) DNA. There is no significant variation in mutation frequency between mice of the same inbred strain. However, significant variation occurs between tissues, with mice showing the highest mutation frequency in sperm. The size spectra of somatic and sperm mutants are indistinguishable and heavily biased towards gains and losses of only a few repeat units, suggesting repeat turnover by a mitotic replication slippage process operating both in the soma and in the germline. Analysis of male mice following acute pre-meiotic exposure to X-rays showed a significant increase in sperm but not somatic mutation frequency, though no change in the size spectrum of mutants. The level of radiation-induced mutation at Ms6-hm was indistinguishable from that established by conventional pedigree analysis following paternal irradiation. This confirms that mouse ESTR loci are very sensitive to ionizing radiation and establishes that induced germline mutation results from radiation-induced mutant alleles being present in sperm, rather than from unrepaired sperm DNA lesions that subsequently lead to the appearance of mutants in the early embryo. This single molecule monitoring system has the potential to substantially reduce the number of mice needed for germline mutation monitoring, and can be used to study not only germline mutation but also somatic mutation in vivo and in cell culture.     

Prostaglandin production from arachidonic acid and evidence for a 9,11-endoperoxide prostaglandin H2 reductase in Leishmania

Lysates of Leishmania promastigotes can metabolise arachidonic acid to prostaglandins. Prostaglandin production was heat sensitive and not inhibited by aspirin or indomethacin. We cloned and sequenced the cDNA of Leishmania major, Leishmania donovani, and Leishmania tropica prostaglandin F(2alpha) synthase, and overexpressed their respective 34-kDa recombinant proteins that catalyse the reduction of 9,11-endoperoxide PGH(2) to PGF(2alpha). Database search and sequence alignment alignment showed that L. major prostaglandin F(2alpha) synthase exhibits 61, 99.3, and 99.3% identity with Trypanosoma brucei, L. donovani, and L. tropica prostaglandin F(2alpha) synthase, respectively. Using polymerase chain reaction amplification, Western blotting, and immunofluorescence, we have demonstrated that prostaglandin F(2alpha) synthase protein and gene are present in Old World and absent in New World Leishmania, and that this protein is localised to the promastigote cytosol.