Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.3.1 (alkaline phosphatase)
 47,916 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The enzymic activity (succinate dehydrogenase, acid and alkaline phosphatase) of alveolar and peritoneal macrophages as well as leucocytic reaction of ground squirrels infected with Yersinia pseudotuberculosis (I and III serovar) have been investigated in dynamics from the 1st up to the 30th day. The animals infected with III serovar survived only to the 7th day, while those infected with I serovar survived up to the 30th day after inoculation. A massive influx of leucocytes having peak values (100-fold increase) on the 3rd day after infection has been found in the peritoneal cavity of the animals infected with I serovar. Moderate leucocytosis in the blood, and insignificant fluctuations in alveolar macrophage number have been established too. An earlier and higher activation of succinate dehydrogenase in alveolar and peritoneal macrophages from animals infected with III serovar in comparison with those infected with I serovar was observed. No differences in alkaline phosphatase activity of alveolar and peritoneal macrophages have been found between the animals infected with I and III serovar. A correlation has been found between the number of leucocytes and changes in the enzymatic activity of the macrophages. A metabolic transformation was demonstrated typical for different macrophages (peritoneal and alveolar), in the course of this experimental intraperitoneal infection. Obviously, more virulent serovar III of Y. pseudotuberculosis fails to attract leucocytes to the peritoneal cavity sufficiently quickly, so it overcome the local protective mechanisms with consequent systemic cytochemical changes. On the other hand the virulent serovar I attracts leucocytes to the peritoneum and is presumably destroyed by them.
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PMID:Cytometric and cytochemical study of peritoneal and alveolar macrophages from Yersinia pseudotuberculosis infected ground squirrels (Citellus citellus). 149 17

Escherichia coli strains encoding the Yersinia pseudotuberculosis invasin protein are efficiently internalized by mammalian cells. Bacterial uptake into cultured cell lines became defective, however, if invasin was altered by fusion of its carboxyl terminus to E. coli alkaline phosphatase or by the addition of two hydrophobic amino acids to its carboxyl-terminal end. Probing with anti-invasin monoclonal antibodies revealed that the amino-terminal end of invasin was properly localized on the bacterial cell surface in strains encoding invasin with 2 additional amino acids, whereas the carboxyl terminus was not accessible to the monoclonal antibody. Therefore, the 2 additional amino acids interfered with the folding or orientation of the carboxyl terminus in the outer membrane. Alkylation experiments in the absence of reduction indicated that this defect was not caused by a gross inability to form a critical disulfide bond. Revertants were selected from a strain encoding this mutant protein by enriching for organisms able to enter cultured mammalian cells. The vast majority of revertants that were isolated following this enrichment contained a stop codon at the usual position found in the wild type inv gene. The most efficient of the remaining revertants resulted in the introduction of a glycine residue at the site of the wild type stop codon, presumably restoring proper conformation of the carboxyl-terminal region.
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PMID:Residues added to the carboxyl terminus of the Yersinia pseudotuberculosis invasin protein interfere with recognition by integrin receptors. 768 99

The iron starvation-induced, 2,042-amino-acid protein HMWP2 of Yersinia enterocolitica has two internal hydrophobic segments which might promote its export and association with the cytoplasmic membrane. To determine whether part of HMWP2 could be exported beyond the periplasmic face of the cytoplasmic membrane, we used TnphoA mutagenesis to construct 10 hybrid proteins in which periplasmic alkaline phosphatase (PhoA) was fused to the end of C-terminally truncated HMWP1 (at amino acid positions 1751 and 1753 two independent isolates]) had high alkaline phosphate activity (close to that of the native enzyme), both in Escherichia coli and in Y. pseudotuberculosis, indicating that the PhoA segment of the hybrid reached the periplasm. Deletion studies showed that the export signal resides in the second hydrophobic segment of HMWP2. This result would be compatible with the topology of the protein in the cytoplasmic membrane predicted from the distribution of charged amino acids at either end of the two hydrophobic segments. However, two hybrids in which the junction was even further toward the C terminus of HMMWP2 (at positions 1793 and 1999) had only weak alkaline phosphatase activity, suggesting that the predicted topology is incorrect. The location of HMWP2 was therefore determined by subcellular fractionation. The results indicate that HMPW2 is mainly cytoplasmic, consistent with its presumed role in the ATP-dependent, nonribosomal synthesis of an unknown peptide. We propose that the high alkaline phosphatase activity associated with some of the HMWP-2-PhoA hybrids results from the unmasking of the cryptic export signal activity in the second hydrophobic segment of HMPW2.
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PMID:Yersinia spp. HMWP2, a cytosolic protein with a cryptic internal signal sequence which can promote alkaline phosphatase export. 789 1

TnphoA mutagenesis of a Salmonella choleraesuis isolate recovered from septicemic infection of feeder pigs resulted in 56 PhoA+ KnR StrR mutants. Thirty-five mutants exhibited reduced levels of invasion in the Hep-2 cell model and were examined by SDS-PAGE Western Blot analysis using an anti-alkaline phosphatase antibody to visualize the insertion gene products. A mutant which produced a gene fusion product of 95 kDa and exhibited > 90% reduction in invasion was subcloned. A 10 Kb BamHI fragment of the chromosome containing the phoA insert was detected by hybridization and cloned into a pGEM vector. The resulting 1657 base sequence contained a 1104 bp ORF with two short regions of homology with S. typhimurium invF and invG. one region of homology with lcrD of Yersinia pseudotuberculosis but contained largely unique sequences not contained in Gene Bank. The full length sequence was not obtained as there was no stop codon detected. The % G+C was 44%, considerably lower than that of the Salmonella chromosome, but compatible with the proposed Yersinia origin of the inv genes. The NH2 387 a.a. sequence includes 5 transmembrane regions, resembling the model derived from the hydrophobicity plot of S. typhimurium InvA.
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PMID:Unique Salmonella choleraesuis surface protein affecting invasiveness. Possible inv related sequence. 919 39

Exported proteins are integral to understanding the biology of bacterial organisms. They have special significance in pathogenesis research because they can mediate critical interactions between pathogens and eukaryotic cell surfaces. Further, they frequently serve as targets for vaccines and diagnostic tests. The commonly used genetic assays for identifying exported proteins use fusions to alkaline phosphatase or beta-lactamase. These systems are not ideal for identifying outer membrane proteins because they identify a large number of inner membrane proteins as well. We addressed this problem by developing a gene fusion system that preferentially identifies proteins that contain cleavable signal sequences and are released from the inner membrane. This system selects fusions that restore outer membrane localization to an amino terminal-truncated Yersinia pseudotuberculosis invasin derivative. In the present study, a variety of Salmonella typhimurium proteins that localize beyond the inner membrane were identified with gene fusions to this invasin derivative. Previously undescribed proteins identified include ones that share homology with components of fimbrial operons, multiple drug resistance efflux pumps and a haemolysin. All of the positive clones analysed contain cleavable signal sequences. Moreover, over 40% of the genes identified encode putative outer membrane proteins. This system has several features that may make it especially useful in the study of genetically intractable organisms.
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PMID:The identification of exported proteins with gene fusions to invasin. 978 83

Nonlipophilic corynebacteria associated with clinical and subclinical mastitis in dairy cows were found to belong to four species: Corynebacterium amycolatum, Corynebacterium ulcerans, Corynebacterium pseudotuberculosis, and Corynebacterium minutissimum. These species may easily be confused. However, clear-cut differences between C. ulcerans and C. pseudotuberculosis were found in their acid production from maltotriose and ethylene glycol, susceptibility to vibriostatic agent O129, and alkaline phosphatase. Absence of growth at 20 degrees C and lack of alpha-glucosidase and 4MU-alpha-D-glycoside hydrolysis activity differentiated C. amycolatum from C. pseudotuberculosis and C. ulcerans. The mastitis C. pseudotuberculosis strains differed from the biovar equi and ovis reference strains and from caprine field strains in their colony morphologies and in their reduced inhibitory activity on staphylococcal beta-hemolysin. C. amycolatum was the most frequently isolated nonlipophilic corynebacterium.
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PMID:Identification of nonlipophilic corynebacteria isolated from dairy cows with mastitis. 1007 8

The reporter transposon-based system TnFuZ was used to identify exported proteins of the animal pathogen Corynebacterium pseudotuberculosis. Thirty-four out of 1,500 mutants had detectable alkaline phosphatase (PhoZ) activity. This activity was from 21 C. pseudotuberculosis loci that code for fimbrial and transport subunits and for hypothetical and unknown-function proteins.
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PMID:In vivo insertional mutagenesis in Corynebacterium pseudotuberculosis: an efficient means to identify DNA sequences encoding exported proteins. 1695 Sep 10

A total of 34 Corynebacterium sp. strains were isolated from caseous lymph node abscesses of wild boar and roe deer in different regions of Germany. They showed slow growth on Columbia sheep blood agar and sparse growth on Hoyle's tellurite agar. Cellular fatty acid analysis allocated them in the C. diphtheriae group of genus Corynebacterium. MALDI-TOF MS using specific database extensions and rpoB sequencing resulted in classification as C. ulcerans. Their quinone system is similar to C. ulcerans, with major menaquinone MK-8(H2). Their complex polar lipid profile includes major lipids phosphatidylinositol, phosphatidylinositol-mannoside, diphosphatidylglycerol, but also unidentified glycolipids, distinguishing them clearly from C. ulcerans. They ferment glucose, ribose and maltose (like C. ulcerans), but do not utilise d-xylose, mannitol, lactose, sucrose and glycogen (like C. pseudotuberculosis). They showed activity of catalase, urease and phospholipase D, but variable results for alkaline phosphatase and alpha-glucosidase. All were non-toxigenic, tox gene bearing and susceptible to clindamycin, penicillin and erythromycin. In 16SrRNA gene and RpoB protein phylogenies the strains formed distinct brancheswith C. ulcerans as nearest relative.Whole genome sequencing revealed the unique sequence type 578, a distinctbranch in pangenomic core genome MLST, average nucleotide identities <91%, enhancedgenome sizes (2.55 Mbp) and G/C content (54.4 mol%) compared to related species.These results suggest that the strains represent a novel species, for which wepropose the name Corynebactriumsilvaticum sp. nov., based on their first isolation from forest-dwellinggame animals. The type strain isKL0182T (= CVUAS 4292T = DSM 109166T = LMG 31313T= CIP 111 672T).
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PMID:Corynebacterium silvaticum sp. nov., a unique group of NTTB corynebacteria in wild boar and roe deer. 3236 99