UNIPROT:Q96DG6 - FACTA Search

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Query: UNIPROT:Q96DG6 (Pseudomonas)
76,258 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Leucocidin from Pseudomonas aeruginosa (strain 158) induced loss of potassium from isolated hepatocytes. The (Na+-K+) stimulated ATPase activity of isolated rat liver plasma membranes showed dose-dependent activation up to 56%. Electron-spin-resonance (ESR) measurements gave no indication of toxin-induced changes in membrane fluidity. On isolated guinea pig heart auricles the toxin produced an increase in frequency from 180/min to about 300/min, with arrhythmia and transitory flutter. On isolated nerve-diaphragm preparations the toxin caused a contracture and a decline in twitch tension, with a loss of potassium into the bathing solution. The action potential of the electrically stimulated N. ischiadicus of rat or frog was not affected when leucocidin was added to the bathing solution up to a concentration of 10 micrograms/ml.
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PMID:Leucocidin from Pseudomonas aeruginosa and membrane functions. 13 94

Many drugs or chemicals had markedly different effects on the cytotoxicity induced by Pseudomonas aeruginosa exotoxin A (PE) or Corynebacterium diphtheriae exotoxin (DE). The glycolytic inhibitor NaF protected cells from DE but potentiated the cytotoxicity of PE. Another energy inhibitor, salicylic acid, also protected cells from DE but had no effect with PE. Colchicine and colcemid did not affect the cytotoxicity of either toxin. Cytochalasin B exhibited a modest protection from DE but no effect with PE. Ouabain, a specific inhibitor of the Na+, K+-dependent adenosine 5'-triphosphatase (ATPase), did not affect the cytotoxicity of either toxin. Ruthenium red, a specific inhibitor of the Ca2+, Mg2+,-dependent ATPase, conferred marked protection from DE-induced cytotoxicity but did not affect PE-induced cytotoxicity. A number of local anesthetics were tested, and they too presented differential results with PE and DE. Most chemicals that affected toxin-induced cytotoxicity had little or no influence on the in vitro adenosine 5'-diphosphate-ribosylation catalyzed by either toxin. This work presents further evidence that PE and DE have different mechanisms of intoxication and suggests that these differences lie in the attachment or internalization stages of intoxication.
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PMID:Differential chemical protection of mammalian cells from the exotoxins of Corynebacterium diphtheriae and Pseudomonas aeruginosa. 14 24

Several mutants of Escherichia coli affecting aerobic energy generation and energization of the bacterial membrane have been examined for their effect on streptomycin and gentamicin accumulation and susceptibility. A heme-deficient mutant (K207) and two mutants (CJ-8 [colicin K insensitive] and NR-70) associated with defective aerobic active transport were associated with decreased transport of streptomycin and gentamicin and increased resistance to those antibiotics. These mutants also exhibited increased resistance to several other aminoglycoside antibiotics, but not the aminocyclitol spectinomycin. The same observations were made with a ubiquinone-deficient mutant, but a strA derivative of this mutant was shown additionally to be saturable for streptomycin accumulation at a concentration four or more times lower than that required for saturation of the parent. A mutant uncoupled for adenosine 5'-triphosphate synthesis from electron transport and membrane Mg-adenosine 5'-triphosphatase deficient was hypersensitive to those aminoglycosides tested and spectinomycin, and showed enhanced transport of streptomycin and gentamicin. A variety of compounds structurally related to streptomycin were examined at high concentrations for inhibition of streptomycin uptake in a strA mutant of E. coli K-12 SA 1306, but no evidence for competition was detected, suggesting the absence of a common transport carrier. Four different divalent cations were shown to inhibit streptomycin and gentamicin accumulation in E. coli K-12 SA 1306. Divalent cations were shown to inhibit uptake of these two drugs in two bacterial species with distinct cell wall structures, Pseudomonas aeruginosa and Staphylococcus aureus, and to inhibit streptomycin uptake in spheroplasts of streptomycin-susceptible and -resistant E. coli. However, calcium had almost no inhibitory effect on streptomycin uptake by the ubiquinone-deficient mutant E. coli AN66. These and previous findings have been used to formulate a model for aminoglycoside entry into bacteria using a low-affinity membranous complex involved in membrane energization that includes respiratory quinones, which probably act to bind and transport aminoglycosides across the cell membrane. This phase of transport is associated with the lowest accumulation rate (termed energy-dependent phase I) that is rate limiting for susceptibility. It is further proposed that subsequent association of the membrane-bound aminoglycoside with higher-affinity binding sites on membrane-associated ribosomes carrying out a normal ribosomal cycle and protein synthesis results in a more rapid transport rate (termed energy-dependent phase II). The increased rate could result from a state of membrane energization analogous to that causing enhanced aminoglycoside transport rates seen in the uncoupled mutant, AN120. How this model explains the mechanism by which enzymatically modified aminoglycosides render cells resistant to unmodified aminoglycosides is also discussed.
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PMID:Effects of membrane-energy mutations and cations on streptomycin and gentamicin accumulation by bacteria: a model for entry of streptomycin and gentamicin in susceptible and resistant bacteria. 14 38

The combination effects of chlorpromazine (CPZ) and periphenazine (PPZ) with beta-lactam antibiotics (ampicillin, carbenicillin, cefazolin) and nalidixic acid group compounds (nalidixic acid, piromidic acid and pipemidic acid) have been estimated to be synergistic by the filter paper strip-agar diffusion method (Dye's method) with Escherichia coli and Pseudomonas aeruginosa as test organisms. The observed synergism might be associated with their inhibition of various enzymes including ATPase and DNAase as well as with their specific binding to DNA. Similar synergistic effects of CPZ and PPZ have been shown by the broth dilution method. Based on these findings, it seems to be a fascinating project to devise a new phenothiazine drug without influence in mental disease that will have a greater measure of synergistic effect when combined with the above-studied antibacterial agents.
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PMID:Synergistic effects of chlorpromazine and perphenazine on several chemotherapeutic agents. I. General profile of the effects measured by the filter paper strip-agar diffusion method with Escherichia coli and Pseudomonas aeruginosa. 14 36

The high affinity branched-chain amino acid transport system (LIV-I) in Pseudomonas aeruginosa is composed of five components: BraC, a periplasmic binding protein for branched-chain amino acids; BraD and BraE, integral membrane proteins; BraF and BraG, putative nucleotide-binding proteins. By using a T7 RNA polymerase/promoter system we overproduced the BraD, BraE, BraF, and BraG proteins in Escherichia coli. The proteins were found to form a complex in the E. coli membrane and solubilized from the membrane with octyl glucoside. The LIV-I transport system was reconstituted into proteoliposomes from solubilized proteins by a detergent dilution procedure. In this reconstituted system, leucine transport was completely dependent on the presence of all five Bra components and on ATP loaded internally to the proteoliposomes. Alanine and threonine in addition to branched-chain amino acids were transported by the proteoliposomes, reflecting the substrate specificity of the BraC protein. GTP replaced ATP well as an energy source, and CTP and UTP also replaced ATP partially. Consumption of loaded ATP and concomitant production of orthophosphate were observed only when BraC and leucine, a substrate for LIV-I, were added together to the proteoliposomes, indicating that the LIV-I transport system has an ATPase activity coupled to translocation of branched-chain amino acids across the membrane.
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PMID:Solubilization and reconstitution of the Pseudomonas aeruginosa high affinity branched-chain amino acid transport system. 140 Apr 43

It is shown that the second cholera toxin, Zot, ORF3 product of Pseudomonas plasmid pKB740, and ORF424 product of bacteriophage Pf1 are a group of closely related proteins containing a modified version of the purine NTP-binding motif, with a drastic substitution of tyrosine for a conserved glycine. They are distantly but reliably related to the product of gene I of filamentous bacteriophages which is a putative ATPase containing the classical NTP-binding motif and is involved in bacteriophage assembly and exit from the bacterial cell. Hydropathy analysis suggests that the Zot and gene I product may have a similar transmembrane topology. It is hypothesized that Zot may possess ATPase activity and modify the membrane structure of its target cells in an ATP-dependent fashion. Genes for Zot and the related protein of pKB740 are likely to have evolved from gene I of a Pf1-like bacteriophage.
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PMID:The second cholera toxin, Zot, and its plasmid-encoded and phage-encoded homologues constitute a group of putative ATPases with an altered purine NTP-binding motif. 142 34

We have compared the recF genes from Escherichia coli K-12, Salmonella typhimurium, Pseudomonas putida, and Bacillus subtilis at the DNA and amino acid sequence levels. To do this we determined the complete nucleotide sequence of the recF gene from Salmonella typhimurium and we completed the nucleotide sequence of recF gene from Pseudomonas putida begun by Fujita et al. (1). We found that the RecF proteins encoded by these two genes contain respectively 92% and 38% amino acid identity with the E. coli RecF protein. Additionally, we have found that the S. typhimurium and P. putida recF genes will complement an E. coli recF mutant, but the recF gene from Bacillus subtilis [showing about 20% identity with E. coli (2)] will not. Amino acid sequence alignment of the four proteins identified four highly conserved regions. Two of these regions are part of a putative phosphate binding loop. In one region (position 36), we changed the lysine codon (which is essential for ATPase, GTPase and kinase activity in other proteins having this phosphate binding loop) to an arginine codon. We then tested this mutation (recF4101) on a multicopy plasmid for its ability to complement a recF chromosomal mutation and on the E. coli chromosome for its effect on sensitivity to UV irradiation. The strain with recF4101 on its chromosome is as sensitive as a null recF mutant strain. The strain with the plasmid-borne mutant allele is however more UV resistant than the null mutant strain. We conclude that lysine-36 and possibly a phosphate binding loop is essential for full recF activity. Lastly we made two chimeric recF genes by exchanging the amino terminal 48 amino acids of the S. typhimurium and E. coli recF genes. Both chimeras could complement E. coli chromosomal recF mutations.
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PMID:Sequence and complementation analysis of recF genes from Escherichia coli, Salmonella typhimurium, Pseudomonas putida and Bacillus subtilis: evidence for an essential phosphate binding loop. 154 76

N-Nitrosamine formation by bacteria in the achlorhydric stomach has been proposed as an important factor in the development of gastric cancer. Thus, the effect of the presence of bacteria in the stomach on endogenous nitrosation was investigated in rats given omeprazole (an inhibitor of gastric H+, K((+)-ATPase) which reduces gastric secretion sufficiently to allow survival of a bacterial suspension of Escherichia coli or Pseudomonas. When rats were given both thiazolidine 4-carboxylic acid and nitrate, greater endogenous nitrosamine formation was observed in rats receiving omeprazole and an E. coli suspension than in control or omeprazole-treated rats. A similar result was obtained when rats were given morpholine and nitrate. Since the endogenous formation of N-nitrosomorpholine (NMOR) can be evaluated more precisely from the levels of its urinary metabolites, N-nitrosohydroxyethylglycine (NHEG), the metabolism of NMOR was studied in omeprazole-treated rats. In this preliminary study, we showed that 60% of an oral dose of NMOR was excreted as NHEG, while in rats with a higher gastric pH 20% was excreted as NHEG. The amount of endogenously formed NMOR was increased in omeprazole-treated rats given morpholine and nitrite together with bacteria, and greater excretion of unchanged urinary NMOR was observed. Thus, as shown in this in-vivo model, bacteria efficiently reduce nitrate to nitrite and catalyse nitrosation, resulting in increased endogenous formation of N-nitroso compounds in the achlorhydric stomach.
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PMID:Bacterial formation of N-nitroso compounds in the rat stomach after omeprazole-induced achlorhydria. 185 48

Batch cultures of Pseudomonas mendocina, grown in rich medium with glucose excess, showed metabolic differences dependent upon whether the growth conditions were aerobic or anaerobic, with or without added electron acceptor. Under anaerobic conditions in the absence of nitrate, P. mendocina reached the stationary phase of growth after 2 or 3 days, followed by a stationary phase of 4 to 5 days. Under these conditions, a mixed-type fermentative metabolism (formic, lactic, and acetic acids) appeared. A fivefold-higher specific rate of glucose consumption and eightfold-higher production of organic acids, compared with aerobic cultures, were shown by this microorganism growing anaerobically in the absence of exogenous electron acceptors. The gradients of organic acid produced by P. mendocina under these conditions reached a maximum (lactate, 180 mV; formate, 150 mV; acetate, 215 mV) between days 2 and 3 of culture. The proton motive force (delta p) decreased during growth from -254 to -71 mV. The intracellular pH remained alkaline during the culture, reaching a steady-state value of 7.9. The gradients of organic acids apparently contributed to the generation of a delta p, which, according to the Energy Recycling Model (P. A. M. Michels, J. P. J. Michels, J. Boonstra, and W. N. Konings, FEMS Microbiol. Lett. 5:357-364, 1979), would produce an average energy gain of 1 or 1.5 mol of ATP equivalents per mol of glucose consumed with H+/ATP stoichiometry of 3 or 2, respectively. Low YATP and Yglucose values were observed, suggesting that an uncoupled metabolism exists; i.e., ATP produced by catabolic processes is not directly used for biomass synthesis. This metabolic uncoupling could be induced at least in part by organic acids and the ATP wastage could be induced by a membrane-bound ATPase involved in intracellular pH regulation.
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PMID:Proton motive force, energy recycling by end product excretion, and metabolic uncoupling during anaerobic growth of Pseudomonas mendocina. 225 45

The adenylate energy charges (EC) of Escherichia coli 25922, Pseudomonas aeruginosa 27853, and Streptococcus lactis 7962 rapidly fell in nutrient-rich media from values in excess of 0.9 to below 0.1 when the organisms were exposed to lethal levels of HOCl. The same cells maintained in energy-depleted states were incapable of attaining normal EC values necessary for biosynthesis and growth when challenged with nutrient energy sources after HOCl exposure. These changes correlated quantitatively with loss of replicative capabilities. Initial rates of transport of glucose, succinate, and various amino acids that act as respiratory substrates and the ATP hydrolase activity of the F1 complex from the ATP synthase of E. coli 25922 also declined in parallel with or preceded loss of viability. These results establish that cellular death is accompanied by complete disruption of bacterial ATP production by both oxidative and fermentative pathways as a consequence of inhibition of inner membrane bound systems responsible for these processes.
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PMID:General mechanism for the bacterial toxicity of hypochlorous acid: abolition of ATP production. 255 18

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