1,721,003 research outputs found
The role of disinfectants on contact lenses contamined with planktonic and sessile forms of bacteria.
No full textCoping with antibiotic resistance: contributions from genomics
Full text linkAntibiotic resistance is a public health issue of global dimensions with a significant impact on morbidity, mortality and healthcare-associated costs. The problem has recently been worsened by the steady increase in multiresistant strains and by the restriction of antibiotic discovery and development programs. Recent advances in the field of bacterial genomics will further current knowledge on antibiotic resistance and help to tackle the problem. Bacterial genomics and transcriptomics can inform our understanding of resistance mechanisms, and comparative genomic analysis can provide relevant information on the evolution of resistant strains and on resistance genes and cognate genetic elements. Moreover, bacterial genomics, including functional and structural genomics, is also proving to be instrumental in the identification of new targets, which is a crucial step in new antibiotic discovery programs
The molecular class C acid phosphatase of Chryseobacterium meningosepticum (OlpA) is a broad-spectrum nucleotidase with preferential activity on 5'-nucleotides
No full textThe olpA gene of Chryseobacterium meningosepticum, encoding a molecular class C phosphatase, was cloned and expressed in Escherichia coli. The gene encodes a 29-kDa polypeptide containing an amino-terminal signal peptide typical of bacterial membrane lipoproteins. Expression in E. coli results in a functional product that mostly partitions in the outer membrane. A secreted soluble OlpA derivative (sOlpA) lacking the N-terminal cysteine residue for lipid anchoring was produced in E. coli and purified by means of two steps of ion exchange chromatography. Analysis of the kinetic parameters of sOlpA with several organic phosphoesters revealed that the enzyme was able to efficiently hydrolyze nucleotide monophosphates, with a strong preference for 5'-nucleotides and for 3'-AMP. The enzyme was also able to hydrolyze sugar phosphates and beta-glycerol phosphate, although with a lower efficiency, whereas it was apparently inactive against nucleotide di- and triphosphates, diesters, and phytate. OlpA, therefore, can be considered a broad-spectrum nucleotidase with preference for 5'-nucleotides. Its functional behaviour exhibits differences from that of the Haemophilus influenzae OMP P4 lipoprotein, revealing functional heterogeneity among phosphatases of molecular class C. (C) 2003 Elsevier Science B.V. All rights reserved
The use of Escherichia coli bearing a phoN gene for the removal of uranium and nickel from aqueous flows
No full textA Citrobacter sp, originally isolated from metal-polluted soil accumulates heavy metals via metal-phosphate deposition utilizing inorganic phosphate liberated via PhoN phosphatase activity. Further strain development was limited by the non-transformability of this environmental isolate. Recombinant Escherichia coli DH5 alpha bearing cloned phoN or the related phoC acquired metal-accumulating ability, which was compared with that of the Citrobacter sp. with respect to removal of uranyl ion (UO22+) from dilute aqueous flows and its deposition in the form of polycrystalline hydrogen uranyl phosphate (HUO2PO4). Subsequently, HUO2PO4-laden cells removed Ni2+ from dilute aqueous flows via intercalation of Ni2+ into the HUO2PO4 lattice. Despite comparable acid phosphatase activity in all three strains, the E. coli DH5 alpha (phoN) construct was superior to Citrobacter N14 in both uranyl and nickel accumulation, while the E. coli DH5 alpha (phoC) construct was greatly inferior in both respects. Expression of phosphatase activity alone is not the only factor that permits efficient and prolonged metal phosphate accumulation, and the data highlight possible differences in the PhoN and PhoC phosphatases, which are otherwise considered to be related in many respects
PROTEOLYTIC-ENZYMES - A NEW TREATMENT STRATEGY FOR PROSTHETIC INFECTIONS
No full textAmong the different mechanisms of bacterial resistance to antimicrobial agents that have been studied,
biofilm formation is one of the most widespread. This mechanism is frequently the cause of failures in the
treatment of prosthetic device infections, and several attempts have been made to develop molecules and
protocols that are able to inhibit biofilm-embedded bacteria. We present data suggesting the possibility that
proteolytic enzymes could significantly enhance the activities of antibiotics against biofilms. Antibiotic
susceptibility tests on both planktonic and sessile cultures, studies on the dynamics of colonization of 10
biofilm-forming isolates, and then bioluminescence and scanning electron microscopy under seven different
experimental conditions showed that serratiopeptidase greatly enhances the activity of ofloxacin on sessile
cultures and can inhibit biofilm formation
Heterogeneous Patterns of Acid Phosphatases Containing Low-Molecular-Mass Polypeptides in Members of the Family Enterobacteriaceae
No full textWe investigated expression of acid phosphatases containing low-molecular-mass (25 to 27-kDa) polypeptides (Lmmp-APs) similar to those described previously for Salmonella enterica serovar typhimurium and Morganella morganii in strains that were representatives of 43 different enterobacterial species by using a zymogram technique developed for detection of Lmmp-AP activities and for analysis of some of the properties of these enzymes. Under conditions that were suitable for detection of the previously described Lmmp-APs, production of similar enzymes appeared to be widespread but not universal among enteric bacteria, and heterogeneous patterns of expression were found among strains belonging to different genera and, in some cases, among strains belonging to different species of the same genus. We found that class A Lmmp-APs (i.e., Lmmp-Aps similar to the Morganella morganii PhoC and Salmonella enterica serovar typhimurium PhoN acid phosphatases) were also expressed in Cedecea spp., Enterobacter aerogenes, Hafnia alvei, Klebsiella spp., Providencia stuartii, Serratia plymuthica, and Yokenella regensburgei strains and that class B Lmmp-APs (i.e., Lmmp-APs similar to the Morganella morganii NapA and Salmonella enterica serovar typhimurium NapII acid phosphatases) were also expressed in strains of Citrobacter spp., Escherichia coli, Escherichia. fergusonii, Hafnia alvei, Proteus mirabilis, Providencia spp., Salmonella enterica serovar typhi, Shigella dysenteriae, and Shigella flexneri. No Lmmp-AP activity was detected in strains of Enterobacter spp, other than Enterobacter aerogenes, Escherichia hermanii, Kluyvera ascorbata, Leclercia adecarboxylata, Leminorella grimontii, Moellerella wisconsensis, Proteus vulgaris, Proteus penneri, Serratia spp. other than Serratia plymuthica, and Yersinia spp. Because of the heterogeneous patterns of expression of Lmmp-APs, analysis of these enzymes could be useful for evolutionary studies of the enterobacterial genome and for precise phylogenetic positioning of enteric bacteria
Genetic rearrangements in the tyrB-uvrA region of the enterobacterial chromosome: a potential cause for different class B acid phosphatase regulation in Salmonella enterica and Escherichia coli
No full textUnlike in Escherichia coli, in Salmonella enterica production of class B acid phosphatase (AphA) was detectable also in cells growing in the presence of glucose. Characterization of the aphA locus from a S. enterica ser. typhi strain showed that the aphA determinant is very similar to the E. coli homolog, and that its chromosomal location between the highly conserved tyrB and uvrA genes is retained. However, the aphA flanking regions were found to be markedly different in the two species, either between tyrB and aphA or between aphA and uvrA. The differences in the aphA 5'-flanking region, which in S. enterica is considerably shorter than in E. coli (183 vs. 1121 bp) and includes potential promoter sequences not present in E. coli, could be responsible for the different regulation of class B acid phosphatase observed in the two species. (C) 1999 Federation of European Microbiological Societies. Published by Elsevier Science B.V. All rights reserved
Production of bacteriolytic enzymes as a tool for characterizing enterococci
No full textBacteriolytic enzymes secreted by log-phase cultures of enterococci (Enterococcus faecalis, Ent. faecium, Ent. durans, Ent. hirae, Ent. casseliflavus, Ent. avium, Ent. mundtii) were analysed by means of a zymogram technique to resolve activities according to the size of their polypeptide component and their specificities towards different substrates. Heterogeneous patterns of lytic activity were observed with different species. For each test substrate, homogeneous patterns of lytic activities were observed with strains of the same species, except for Ent. faecalis strains, which showed heterogeneous lytic patterns even towards the same substrate, and could be divided into at least four different groups according to their lytic pattern. No lytic activity was common to all strains tested. Results of zymogram analysis of Enterococcus bacteriolytic enzymes were consistent with current knowledge on enterococcal taxonomy, indicating that this analytical approach may be a useful tool for fine-tuned characterization of different enterococcal strains
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