EC:6.3.4.6 - FACTA Search

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Query: EC:6.3.4.6 (urease)
7,490 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The pathogenic yeast Cryptococcus neoformans (Cn) var. gattii causes meningoencephalitis in healthy individuals, unlike the better known Cn varieties grubii and neoformans, which are common in immunocompromised individuals. The virulence determinants and mechanisms of host predilection are poorly defined for var. gattii. The present study focused on the characterization of a Cu,Zn superoxide dismutase (SOD1) gene knock-out mutant constructed by developing a DNA transformation system. The sod1 mutant was highly sensitive to the redox cycling agent menadione, and showed fragmentation of the large vacuole in the cytoplasm, but no other defects were seen in growth, capsule synthesis, mating, sporulation, stationary phase survival or auxotrophies for sulphur-containing amino acids. The sod1 mutant was markedly attenuated in virulence in a mouse model, and it was significantly susceptible to in vitro killing by human neutrophils (PMNs). The deletion of SOD1 also resulted in defects in the expression of a number of virulence factors, i.e. laccase, urease and phospholipase. Complementation of the sod1 mutant with SOD1 resulted in recovery of virulence factor expression and menadione resistance, and in restoration of virulence. Overall, these results suggest that the antioxidant function of Cu,Zn SOD is critical for the pathogenesis of the fungus, but is dispensable in its saprobic life. This report constitutes the first instance in which superoxide dismutase has been directly implicated in the virulence of a fungal pathogen.
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PMID:Characterization of Cu,Zn superoxide dismutase (SOD1) gene knock-out mutant of Cryptococcus neoformans var. gattii: role in biology and virulence. 1262 21

Paracoccidioides brasiliensis, the etiologic agent of paracoccidioidomycosis, is a dimorphic fungus, which is found as mycelia at 22-26 degrees C and as yeasts at 37 degrees C. A remarkable feature common to several pathogenic fungi is their ability to differentiate from mycelium to yeast morphologies, or vice-versa. Although P. brasiliensis is a recognized pathogen for humans, little is known about its virulence genes. In this sense, we performed a search for putative virulence genes in the P. brasiliensis transcriptome. BLAST comparative analyses were done among P. brasilienses assembled expressed sequence tags (PbAESTs) and the sequences deposited in GenBank. As a result, the putative virulence PbAESTs were grouped into five classes, metabolism-, cell wall-, detoxification-related, secreted factors, and other determinants. Among these, we have identified orthologs of the glyoxylate cycle enzymes, a metabolic pathway involved in the virulence of bacteria and fungi. Besides the previously described alpha- and beta-glucan synthases, orthologs to chitin synthase and mannosyl transferases, also important in cell wall synthesis and stabilization, were identified. With respect to the enzymes involved in the intracellular survival of P. brasiliensis, orthologs to superoxide dismutase, thiol peroxidase and an alternative oxidase were also found. Among the secreted factors, we were able to find phospholipase and urease orthologs in P. brasiliensis transcriptome. Collectively, our results suggest that this organism may possess a vast arsenal of putative virulence genes, allowing the survival in the different host environments.
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PMID:Virulence insights from the Paracoccidioides brasiliensis transcriptome. 1611 Apr 52

Nickel/cobalt transporters (NiCoTs), a family of secondary metal transporters in prokaryotes and fungi, are characterized by an eight-transmembrane-domain (TMD) architecture and mediate high-affinity uptake of cobalt and/or nickel ions into the cells. One of the strongly conserved regions within the NiCoTs is the signature sequence RHA(V/F)DADHI within TMD II. This stretch of amino acid residues plays an important role in the affinity, velocity and specificity of metal transport. Some relatives of the NiCoTs, named HupE, UreJ and UreH, contain a similar signature sequence and are encoded within or adjacent to [NiFe] hydrogenase or urease operons, or elsewhere in the genome of many prokaryotes. HupE and UreH from Rhodopseudomonas palustris CGA009 and UreJ from Cupriavidus necator H16 were shown to mediate Ni(2+) transport upon heterologous production in E. coli. Other variants of NiCoTs are found in many marine cyanobacteria and in plants. The cyanobacterial proteins are encoded by a segment adjacent to the genes for [Ni] superoxide dismutase and a corresponding putative maturation peptidase. The plant proteins contain N-terminal sequences resembling bipartite transit peptides of thylakoid lumenal and thylakoid integral membrane precursor proteins; expression of a YFP-fusion protein in transfected leaf cells is consistent with targeting of this protein to the plastid, but the function of the plant gene product has yet to be demonstrated.
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PMID:Secondary transporters for nickel and cobalt ions: theme and variations. 1615 32

The aim of this study was determination and comparison of the levels of myeloperoxidase (MPO), xanthine oxidase (XO), and superoxide dismutase (SOD) in gastric mucosa of children who were infected and noninfected with Helicobacter pylori (HP). The MPO, and XO enzyme activities were detected via kinetic measurement, and the MPO, XO and SOD enzyme protein levels were detected via Western blot, in antral mucosa specimens of 43 patients who underwent upper gastrointestinal endoscopy with various indications. The diagnosis of HP infection was made with a positive rapid urease test and histopathologic detection. MPO activity and enzyme protein levels were measured in 14 [8 HP (+) and 6 HP (-)], and in 9 [5 HP (+) and 4 HP (-)] while XO activity and enzyme protein levels were measured in 16 [10 HP (+) and 6 HP (-)] and in 9 [5 HP (+) and 4 HP (-)] patients, respectively. SOD protein level was detected in 13 [7 HP (+) and 6 HP (-)] patients. Of 43 patients 25 were HP (+) and 18 were HP (-). MPO activities were 75.6 +/- 40.5 and 98.8 +/- 44.1 U/g. protein (p = 0.302) while XO activities were 0.5 +/- 0.3 and 0.4 +/- 0.2 U/g. protein in HP (+) and HP (-) patients, respectively (p = 0.625). Measured enzyme protein levels of MPO, XO and SOD were found statistically indifferent in HP (+) and HP (-) patients (p = 0.327, p = 0.086, and p = 0.775, respectively). The results of this study revealed that, MPO, XO and SOD conditions in gastric mucosa alone were not affected from HP presence. That's why MPO, XO, and SOD may not have important roles in the pathogenesis of HP related gastric disease in children.
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PMID:Myeloperoxidase, xanthine oxidase and superoxide dismutase in the gastric mucosa of Helicobacter pylori positive and negative pediatric patients. 1675 2

Cryptococcus gattii is a primary pathogenic yeast, increasingly important in public health, but factors responsible for its host predilection and geographical distribution remain largely unknown. We have characterized C. gattii STE12alpha to probe its role in biology and pathogenesis because this transcription factor has been linked to virulence in many human and plant pathogenic fungi. A full-length STE12alpha gene was cloned by colony hybridization and sequenced using primer walk and 3' rapid amplification of cDNA ends strategies, and a ste12alpha delta gene knockout mutant was created by URA5 insertion at the homologous site. A semiquantitative analysis revealed delayed and poor mating in ste12alpha delta mutant; this defect was not reversed by exogenous cyclic AMP. C. gattii parent and mutant strains showed robust haploid fruiting. Among putative virulence factors tested, the laccase transcript and enzymatic activity were down regulated in the ste12alpha delta mutant, with diminished production of melanin. However, capsule, superoxide dismutase, phospholipase, and urease were unaffected. Similarly, Ste12 deficiency did not cause any auxotrophy, assimilation defects, or sensitivity to a large panel of chemicals and antifungals. The ste12alpha delta mutant was markedly attenuated in virulence in both BALB/c and A/Jcr mice models of meningoencephalitis, and it also exhibited significant in vivo growth reduction and was highly susceptible to in vitro killing by human neutrophils (polymorphonuclear leukocytes). In tests designed to simulate the C. gattii natural habitat, the ste12alpha delta mutant was poorly pigmented on wood agar prepared from two tree species and showed poor survival and multiplication in wood blocks. Thus, STE12alpha plays distinct roles in C. gattii morphogenesis, virulence, and ecological fitness.
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PMID:Transcription factor STE12alpha has distinct roles in morphogenesis, virulence, and ecological fitness of the primary pathogenic yeast Cryptococcus gattii. 1683 51

Ni accumulation and utilization were studied in two strains of marine Synechococcus, isolated from both coastal (CC9311; clade I) and open-ocean (WH8102; clade III) environments, for which complete genome sequences are available. Both strains have genes encoding an Ni-containing urease and when grown on urea without Ni become Ni-N colimited. The Ni requirements of these strains also depend upon the genomic complement of genes encoding superoxide dismutase (SOD). WH8102, with a gene encoding only an Ni-SOD, has a novel obligate requirement for Ni, regardless of the N source. Reduced SOD activity in Ni-depleted cultures of WH8102 supports the link of this strain's Ni requirement to Ni-SOD. The genome of CC9311 contains a gene for a Cu/Zn-SOD in addition to a predicted pair of Ni-SODs, yet this strain cannot grow without Ni on NO(3)(-) and can grow only slowly on NH(4)(+) without Ni, implying that the Cu/Zn-SOD cannot completely replace Ni-SOD in marine cyanobacteria. CC9311 does have a greater tolerance for Ni starvation. Both strains increase their Ni uptake capabilities and actively bioconcentrate Ni in response to decreasing extracellular and intracellular Ni. The changes in Ni uptake rates were more pronounced in WH8102 than in CC9311 and for growth on urea or nitrate than for growth on ammonia. These results, combined with an analysis of fully sequenced marine cyanobacterial genomes, suggest that the growth of many marine Synechococcus and all Prochlorococcus strains is dependent upon Ni.
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PMID:Ni uptake and limitation in marine Synechococcus strains. 1795 44

Helicobacter pylori, an etiological agent of gastroduodenal diseases, undergoes drastic morphological transition from spiral shape to coccoid form under oxidative stress. However, the knowledge of the specific expression profile in response to oxidative stress is relatively limited. Here, we report global proteomic analysis of H. pylori coccoids under oxidative stress. Two-dimensional gel electrophoresis analysis of H. pylori featuring coccoid revealed that 10 unique protein spots exhibit different expression profiles with comparison of that under normal microaerophilic condition. In total, seven proteins including superoxide dismutase, alkyl hydroperoxide reductase, urease G, and so forth were confirmed using matrix-assisted laser desorption/ionization time-of-flight/mass spectroscopy and then validated by reverse transcription-polymerase chain reaction, indicating that they play key roles in the physiological adaptation mechanisms of H. pylori to oxygen challenge. These data provide preliminary insights into H. pylori on coccoid generation under oxidative stress.
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PMID:Proteomic insights into Helicobacter pylori coccoid forms under oxidative stress. 1858 16

Laribacter hongkongensis is a newly discovered Gram-negative bacillus of the Neisseriaceae family associated with freshwater fish-borne gastroenteritis and traveler's diarrhea. The complete genome sequence of L. hongkongensis HLHK9, recovered from an immunocompetent patient with severe gastroenteritis, consists of a 3,169-kb chromosome with G+C content of 62.35%. Genome analysis reveals different mechanisms potentially important for its adaptation to diverse habitats of human and freshwater fish intestines and freshwater environments. The gene contents support its phenotypic properties and suggest that amino acids and fatty acids can be used as carbon sources. The extensive variety of transporters, including multidrug efflux and heavy metal transporters as well as genes involved in chemotaxis, may enable L. hongkongensis to survive in different environmental niches. Genes encoding urease, bile salts efflux pump, adhesin, catalase, superoxide dismutase, and other putative virulence factors-such as hemolysins, RTX toxins, patatin-like proteins, phospholipase A1, and collagenases-are present. Proteomes of L. hongkongensis HLHK9 cultured at 37 degrees C (human body temperature) and 20 degrees C (freshwater habitat temperature) showed differential gene expression, including two homologous copies of argB, argB-20, and argB-37, which encode two isoenzymes of N-acetyl-L-glutamate kinase (NAGK)-NAGK-20 and NAGK-37-in the arginine biosynthesis pathway. NAGK-20 showed higher expression at 20 degrees C, whereas NAGK-37 showed higher expression at 37 degrees C. NAGK-20 also had a lower optimal temperature for enzymatic activities and was inhibited by arginine probably as negative-feedback control. Similar duplicated copies of argB are also observed in bacteria from hot springs such as Thermus thermophilus, Deinococcus geothermalis, Deinococcus radiodurans, and Roseiflexus castenholzii, suggesting that similar mechanisms for temperature adaptation may be employed by other bacteria. Genome and proteome analysis of L. hongkongensis revealed novel mechanisms for adaptations to survival at different temperatures and habitats.
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PMID:The complete genome and proteome of Laribacter hongkongensis reveal potential mechanisms for adaptations to different temperatures and habitats. 1928 63

Yersinia enterocolitica, an important food- and water-borne enteropathogen causes acute diarrhea, terminal ileitis, and mesenteric lymphadenitis. It is represented by six biovars (1A, 1B, 2-5). The biovar 1A strains are generally regarded as avirulent as they lack pYV plasmid and major chromosomal virulence genes. Despite this, some biovar 1A strains produce disease symptoms indistinguishable from that produced by known pathogenic biovars (1B, 2-5). Suggested prospective studies to understand pathogenic potential of biovar 1A should focus on role of insecticidal toxins, urease, protease, superoxide dismutase, and host responses. These studies should also take into account the clonal groups of biovar 1A.
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PMID:The enigma of Yersinia enterocolitica biovar 1A. 2088 83

Yersinia pestis inoculated subcutaneously via fleabite or experimental injection in natural rodent hosts multiply initially in macrophage phagolysosomes. Survival and multiplication of Y. pestis in this acidic low [Ca(2+)] and [Mg(2+)] environment likely necessitates compensatory mechanisms involving expression of specific proteins compared to those expressed during extracellular growth. A proteomics approach was used to identify these proteins using mouse macrophage RAW264.7 cells infected with Y. pestis strain KIM6-2053.1+ for 8h. Intracellular Y. pestis protein samples were prepared by detergent lysis of infected RAW264.7 cells, isolation of intracellular Y. pestis by differential centrifugation, and sonication of isolated Y. pestis. Protein samples were similarly prepared from Y. pestis grown extracellularly in tissue culture media. Two intracellular and extracellular Y. pestis protein samples were analyzed by two-dimensional polyacrylamide gel electrophoresis and compared in silico identifying 12 protein spots present in both intracellular samples but absent in extracellularly grown Y. pestis. Mass spectrometry analysis of these identified nine proteins at a high level of confidence in the Y. pestis genome: superoxide dismutase-A (sodA), inorganic pyrophosphatase, autonomous glycyl radical cofactor GrcA, molecular chaperone DnaK, serine endoprotease GsrA, global DNA-binding transcriptional dual regulator H-NS, urease subunit gamma UreA, and tellurite resistance proteins TerD and TerE. These results support the involvement of various general stress response regulators of Y. pestis during the intracellular parasitism of host macrophages as well as identification of UreA, TerD and TerE with as yet unknown roles in the process of intracellular survival of Y. pestis.
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PMID:Intracellular Yersinia pestis expresses general stress response and tellurite resistance proteins in mouse macrophages. 2129 15

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