Home About us Contact
|
Home About us Contact | ||
|
|
||
Sensitive Strain (sensitive + strain)
Selected AbstractsBacterial competition between a bacteriocin-producing and a bacteriocin-negative strain of Streptococcus bovis in batch and continuous cultureFEMS MICROBIOLOGY ECOLOGY, Issue 3 2006Bruno M. Xavier Abstract A bacteriocin-producing Streptococcus bovis strain (HC5) outcompeted a sensitive strain (JB1) before it reached stationary phase (pH 6.4), even though it grew 10% slower and cell-free bovicin HC5 could not yet be detected. The success of bacteriocin-negative S. bovis isolates was enhanced by the presence of another sensitive bacterium (Clostridium sticklandii SR). PCR based on repetitive DNA sequences indicated that S. bovis HC5 was not simply transferring bacteriocin genes to S. bovis JB1. When the two S. bovis strains were coinoculated into minimal medium, bacteriocin-negative isolates predominated, and this effect could be explained by the longer lag time (0.5 vs. 1.5 h) of S. bovis HC5. If the glucose concentration of the minimal medium was increased from 2 to 7 mg mL,1, the effect of lag time was diminished and bacteriocin-producing isolates once again dominated the coculture. When the competition was examined in continuous culture, it became apparent that batch culture inocula were never able to displace a strain that had already reached steady state, even if the inoculum was large. This result indicated that bacterial selection for substrate affinity was even more important than bacteriocin production. [source] Resistance to oxidative stress caused by ceftazidime and piperacillin in a bio,lm of PseudomonasLUMINESCENCE: THE JOURNAL OF BIOLOGICAL AND CHEMICAL LUMINESCENCE, Issue 5 2004Paola C. Battán Abstract The capacity to form a bio,lm was evaluated in Pseudomonas aeruginosa isolated from patients with lung and urinary infections. Adherence, development of microcolonies and slime formation varied in the studied strains. P. aeruginosa P63 isolated from cystic ,brosis (CF) exhibited important microcolony formation with the densest bio,lm, and was selected to study the oxidative stress produced with ceftazidime and piperacillin by means of chemiluminescence (CL) in cell suspensions and bio,lm. P. aeruginosa strain P63 was compared with P69; both were sensitive to ceftazidime and showed increase of reactive species of oxygen (ROS) in the presence of this antibiotic. P. aeruginosas P69 exhibited resistance to piperacillin and low ROS production, while piperacillin-sensitive strain P63 showed high oxidative stress with this antibiotic. Piperacillin stimulated oxidative stress, increasing ROS production only in the sensitive strain. Higher antibiotic concentrations were necessary to augment ROS in bacteria bio,lm than in suspension. Incubation of P63 strain with ceftazidime or piperacillin in the presence of its own extracellular matrix (EM) or sodium alginate stimulated lesser oxidative stress and slower decrease of ROS than in the absence of these polysaccharides. A variant, V10, obtained from strain P63 showed more sensitivity to the antibiotics than the wild-type, and concomitantly exhibited higher production of ROS in the presence of both the antibiotics studied. Copyright © 2004 John Wiley & Sons, Ltd. [source] Use of ATP bioluminescence to determine the bacterial sensitivity threshold to a bacteriocinLUMINESCENCE: THE JOURNAL OF BIOLOGICAL AND CHEMICAL LUMINESCENCE, Issue 5 2003Charlotte Valat Abstract A new ATP bioluminescence-based method was developed to determine the effectiveness of nisin on a sensitive strain of Lactococcus cremoris. The principle of the method is to quantify the release of adenylic-nucleotides (AN) by a sensitive strain under the action of the bacteriocin, with the complex luciferin,luciferase. Nisin-induced leakage of AN included ATP from a sensitive L. cremoris to the external medium immediately after the contact with the bacteria. The growth of L. cremoris was correlated with the extracellular AN content. The extracellular ATP and AN concentration exhibited a linear correlation to the logarithm of the nisin concentration. For the determination of the effectiveness threshold, the concentration of AN was more sensitive and more reliable than the direct quanti,cation of ATP. The effectiveness threshold, corresponding to a 100% inhibition of L. cremoris growth, was obtained for a null concentration of intracellular nucleotides, i.e. for a ANtot:ANext ratio = 1. For an initial concentration of 1.4 × 107 bacteria/mL, the nisin effectiveness threshold is 3.4 ± 0.01 mg nisin/L. It is possible to detect effectiveness threshold concentration by taking into account the physiological state of the cells. Copyright © 2003 John Wiley & Sons, Ltd. [source] Metabolism of fungicidal cyanooximes, cymoxanil and analogues in various strains of Botrytis cinereaPEST MANAGEMENT SCIENCE (FORMERLY: PESTICIDE SCIENCE), Issue 2 2009Frédérique Tellier Abstract BACKGROUND: The metabolism of cymoxanil [1-(2-cyano-2-methoxyiminoacetyl)-3-ethylurea] and fungicidal cyanooxime analogues was monitored on three phenotypes of Botrytis cinerea Pers. ex Fr. differing in their sensitivity towards cymoxanil. For this purpose, labelled [2- 14C]cymoxanil was added either to the culture medium of these strains or to its cell-free extract. RESULTS: In the culture medium of the most sensitive strain, four main metabolites were detected. Three were isolated and identified. Cymoxanil was quickly metabolised by at least three concurrent enzymatic pathways: (i) cyclisation leading, after hydrolysis, to ethylparabanic acid, (ii) reduction giving demethoxylated cymoxanil, (iii) hydrolysis followed by reduction and then acetylation leading to N -acetylcyanoglycine. In the cell-free extract of the same strain, only the first and the second of these enzymatic reactions occurred. By comparing the metabolic profile of the most sensitive strain with that of the less sensitive ones, it was shown that the decrease in sensitivity to cymoxanil correlates with a reduced acetylcyanoglycine formation. Among all metabolites, only N -acetylcyanoglycine is active against the most sensitive strain. Moreover, in a culture of this strain, two other fungicidal cyanooximes were also metabolised into this metabolite. CONCLUSION: The formation of N -acetylcyanoglycine may play an important role in the fungitoxicity of cymoxanil and cyanooxime derivatives. Copyright © 2008 Society of Chemical Industry [source] Proteome mapping of overexpressed membrane-enriched and cytosolic proteins in sodium antimony gluconate (SAG) resistant clinical isolate of Leishmania donovaniBRITISH JOURNAL OF CLINICAL PHARMACOLOGY, Issue 4 2010Awanish Kumar WHAT IS ALREADY KNOWN ABOUT THIS SUBJECT Over 60% of patients with visceral leishmaniasis (VL) in India and Sudan have become unresponsive to treatment with pentavalent antimonials, the first line of drugs for over 60 years. The drug resistance mechanism, studied so far in in vitro selected laboratory strains, has been attributed to various biochemical parameters. The resistance to Sb (V) in Leishmania field isolates is still unexplored. WHAT THIS STUDY ADDS In order to elucidate for the first time the mechanism of drug resistance in field isolates, this study was done in those clinically relevant field isolates which were either responsive or non responsive to SAG. A comparison of proteome profiles of membrane-enriched as well as cytosolic protein fractions of these isolates has pinpointed the multiple overexpressed proteins in resistant isolates. This study has indicated their possible essential role in antimony resistance of the parasite and provides a vast field to be exploited to find much needed novel treatment strategies against VL. AIMS This study aimed to identify differentially overexpressed membrane-enriched as well as cytosolic proteins in SAG sensitive and resistant clinical strains of L. donovani isolated from VL patients which are involved in the drug resistance mechanism. METHODS The proteins in the membrane-enriched as well as cytosolic fractions of drug-sensitive as well as drug-resistant clinical isolates were separated using two-dimensional gel electrophoresis and overexpressed identified protein spots of interest were excised and analysed using MALDI-TOF/TOF. RESULTS Six out of 12 overexpressed proteins were identified in the membrane-enriched fraction of the SAG resistant strain of L. donovani whereas 14 out of 18 spots were identified in the cytosolic fraction as compared with the SAG sensitive strain. The major proteins in the membrane-enriched fraction were ABC transporter, HSP-83, GPI protein transamidase, cysteine,leucine rich protein and 60S ribosomal protein L23a whereas in the cytosolic fraction proliferative cell nuclear antigen (PCNA), proteasome alpha 5 subunit, carboxypeptidase, HSP-70, enolase, fructose-1,6-bisphosphate aldolase, tubulin-beta chain have been identified. Most of these proteins have been reported as potential drug targets, except 60S ribosomal protein L23a and PCNA which have not been reported to date for their possible involvement in drug resistance against VL. CONCLUSION This study for the first time provided a cumulative proteomic analysis of proteins overexpressed in drug resistant clinical isolates of L. donovani indicating their possible role in antimony resistance of the parasite. Identified proteins provide a vast field to be exploited for novel treatment strategies against VL such as cloning and overexpression of these targets to produce recombinant therapeutic/prophylactic proteins. [source] Measurement of blood clearance time by Limulus G test of Candida -water soluble polysaccharide fraction, CAWS, in miceFEMS IMMUNOLOGY & MEDICAL MICROBIOLOGY, Issue 1 2000Kiyoshi Kurihara Abstract The Limulus G test, responsive to ,-1,3- d -glucan, is a well-established method for the detection of invasive fungal infection. We have recently found that Candida albicans released a water-soluble polysaccharide fraction (CAWS) into synthetic medium (Uchiyama et al., FEMS Immunol. Med. Microbiol. 24 (1999) 411,420). CAWS was composed of a mannoprotein-,-glucan complex and activated Limulus factor G, and thus would be similar to the Limulus active substance in patient's blood. In a preliminary investigation, we have found that CAWS is lethal when administered intravenously in a murine system. In this study, we examined the toxicity and then the fate of CAWS in mice. The lethal toxicity was strain-dependent and strain DBA/2 was the most resistant. The toxicity was, at least in part, reduced by salbutamol sulfate and prednisolone treatment in the sensitive strains. On intravenous administration, the half clearance time (t1/2) was approximately 40 min in mice (DBA/2). On intraperitoneal administration, CAWS appeared in the blood with a peak concentration at 1 h. In order to establish a treatment plan, it is important to demonstrate the onset and the termination of deep-seated mycosis. The Limulus G test is suitable for the above purpose; however, it is necessary to fully understand the fate of ,-1,3- d -glucan in patients' blood [source] Possible mechanisms for the relative efficacies of ortho -phthalaldehyde and glutaraldehyde against glutaraldehyde-resistant Mycobacterium chelonaeJOURNAL OF APPLIED MICROBIOLOGY, Issue 1 2001S.E. Walsh Aims: This investigation compared glutaraldehyde (GTA)-sensitive and -resistant strains of Mycobacterium chelonae and examined the effects of pretreatment of GTA-sensitive and -resistant strains of Myco. chelonae with chemical agents that interfere with cell wall synthesis. Methods and Results: When exposed to 2% (v/v) GTA at 25°C, GTA-resistant strains of Myco. chelonae dried on to glass carriers were not inactivated to any significant extent. By contrast, GTA-sensitive strains of Myco. chelonae and a strain of Myco. terrae suffered a > 6 log reduction in viability in 5 min. However, ortho -phthalaldehyde (OPA; 0·5% w/v) achieved a corresponding inactivation against two GTA-resistant strains within 5,10 and 10,20 min, respectively. Electron microscopy, using a non-aldehyde fixation process and also negative staining, failed to detect any extensive changes in GTA-sensitive and -resistant cultures exposed to GTA or OPA. Thin-layer chromatography was unsuccessful in detecting differences between GTA-resistant and -sensitive strains of Myco. chelonae. However, pretreatment of GTA-resistant cells with mycobacterial cell wall synthesis inhibitors increased their subsequent susceptibility further to OPA but not to GTA. Conclusions:Ortho -phthalaldehyde is an effective new biocidal agent that, at its in-use concentration, is rapidly bactericidal to non-sporulating bacteria, including GTA-sensitive and -resistant mycobacteria. Significance and Impact of the Study: Pretreatment of GTA-resistant cells with mycobacterial cell wall synthesis inhibitors increased their subsequent susceptibility to OPA but not to GTA. [source] Isolation, Characterization and Preliminary Genetic Analysis of Laboratory Tricyclazole-resistant Mutants of the Rice Blast Fungus, Magnaporthe griseaJOURNAL OF PHYTOPATHOLOGY, Issue 7-8 2006C. Q. Zhang Abstract The minimum inhibitory concentration of tricyclazole for hyphal melanization (MIC-H) was adopted to detect the sensitivity of 129 Magnaporthe grisea isolates collected in China in 2000. Results showed that the mean MIC-H was 0.2 ,g/ml and no isolate with a MIC-H ,1 ,g/ml was detected. Therefore, 1 ,g/ml was chosen as a discriminatory dose to identify resistant mutants generated by ultraviolet (UV) radiation. Only three low-level resistant (R) mutants derived from the sensitive (S) isolate TH16 were obtained. In addition, fitness decrease was observed for all mutants, with lower sporulation ability and pathogenicity to rice than that of the wild strain TH16. Four crosses between S × R and S × S were tested to determine the inheritance mode of resistance during the process of sexual recombination by analysing the sensitivity of hybrid F1 progeny to tricyclazole. Progeny of crosses between a tricyclazole-sensitive strain and tricyclazole-resistant mutants segregated in a 1 : 1 (R : S) ratio and no segregation was found in the cross of S × S, indicating that each mutant contained a single gene for resistance. No nucleotide differences leading to amino acid changes in the coding sequences for 1,3,6,8-tetrahydroxynaphthalene reductase (4HNR) and 1,3,8-trihydroxynaphthalene reductase (3HNR) were found between resistant mutants and sensitive strains. Therefore, it is preliminarily concluded that tricyclazole resistance in M. grisea was conferred by a one-locus mutation in a single Mendelian gene other than those encoding for 4HNR or 3HNR. [source] The drug transporter MgMfs1 can modulate sensitivity of field strains of the fungal wheat pathogen Mycosphaerella graminicola to the strobilurin fungicide trifloxystrobinPEST MANAGEMENT SCIENCE (FORMERLY: PESTICIDE SCIENCE), Issue 7 2008Ramin Roohparvar Abstract BACKGROUND: The major facilitator superfamily (MFS) drug transporter MgMfs1 of the wheat pathogen Mycosphaerella graminicola (Fuckel) J Schroeter is a potent multidrug transporter with high capacity to transport strobilurin fungicides in vitro. The data presented in this paper indicate that, in addition to the predominant cause of strobilurin resistance, cytochrome b G143A subsititution, MgMfs1 can play a role in sensitivity of field strains of this pathogen to trifloxystrobin. RESULTS: In a major part of field strains of M. graminicola (collected in the Netherlands in 2004) containing the cytochrome b G143A substitution, the basal level of expression of MgMfs1 was elevated as compared with sensitive strains lacking the G143A substitution. Induction of MgMfs1 expression in wild-type isolates upon treatment with trifloxystrobin at sublethal concentrations proceeded rapidly. Furthermore, in disease control experiments on wheat seedlings, disruption mutants of MgMfs1 displayed an increased sensitivity to trifloxystrobin. CONCLUSION: It is concluded that the drug transporter MgMfs1 is a determinant of strobilurin sensitivity of field strains of M. graminicola. Copyright © 2008 Society of Chemical Industry [source] Low-level glycopeptide resistance in methicillin-resistant Staphylococcus aureus and how to test itCLINICAL MICROBIOLOGY AND INFECTION, Issue 2009P. M. Hawkey Abstract Vancomycin resistance in Staphylococcus aureus has emerged over the last ten years due to varying mechanisms and giving variable levels of resistance to vancomycin. The most resistant strains (fortunately rare) bear the vanA gene cluster and these are generally recognisable as MICs of vancomycin are usually found to be in the range 32-64mg/L. It should be noted that some automated systems have failed to detect these isolates. The much more commonly encountered GISA and hGISA vancomycin resistant strains of MRSA and methicillin sensitive Staph. aureus (MSSA) exhibit lower levels of resistance and difficulty is encountered in reliably defining and identifying these strains in clinical laboratories. No single completely reliable, convenient test either phonotypical genetic currently exists which can be readily applied in the clinical laboratory for the detection of hGISA/GISA. The population analysis profile (PAP) method is currently regarded as the reference method but is slow and tedious to perform on a large number of isolates. This enables the differentiation of hGISA and GISA from fully vancomycin sensitive strains. In the clinical laboratory the use of Meuller-Hinton agar with 5mg/L teicoplanin and a 10,L innoculum of MacFarland 0.5 incubated for 48h represents the most reliable and economical screening test. Further confirmation would be required using either macrodilution Etest methodology using an MIC , 8mg/L of vancomycin and/or teicoplanin as the cut off for hGISA or the newer GRD (glycopeptide resistance detection) strip. [source] | ||||||||||||||||