F. Mory scite author profile

All organisms usually isolated in our laboratory are now routinely identified by matrix-assisted laser desorption ionization-time of flight mass spectrometry (MALDI-TOF MS) using the Andromas software. The aim of this study was to describe the use of this strategy in a routine clinical microbiology laboratory. The microorganisms identified included bacteria, mycobacteria, yeasts and Aspergillus spp. isolated on solid media or extracted directly from blood cultures. MALDI-TOF MS was performed on 2665 bacteria isolated on solid media, corresponding to all bacteria isolated during this period except Escherichia coli grown on chromogenic media. All acquisitions were performed without extraction. After a single acquisition, 93.1% of bacteria grown on solid media were correctly identified. When the first acquisition was not contributory, a second acquisition was performed either the same day or the next day. After two acquisitions, the rate of bacteria identified increased to 99.2%. The failures reported on 21 strains were due to an unknown profile attributed to new species (9) or an insufficient quality of the spectrum (12). MALDI-TOF MS has been applied to 162 positive blood cultures. The identification rate was 91.4%. All mycobacteria isolated during this period (22) were correctly identified by MALDI-TOF MS without any extraction. For 96.3% and 92.2% of yeasts and Aspergillus spp., respectively, the identification was obtained with a single acquisition. After a second acquisition, the overall identification rate was 98.8% for yeasts (160/162) and 98.4% (63/64) for Aspergillus spp. In conclusion, the MALDI-TOF MS strategy used in this work allows a rapid and efficient identification of all microorganisms isolated routinely.

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Bacteremia Caused by a Strain of Desulfovibrio Related to the Provisionally Named Desulfovibrio fairfieldensis

Loubinoux¹,

Mory²,

Pereira

et al. 2000

J Clin Microbiol

117

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Eight isolates of Desulfovibrio spp. have been obtained over 5 years from abdominal or brain abscesses or blood. In seven patients these strains were part of a mixed flora. One strain was isolated in pure culture from the blood of a patient with peritonitis of appendicular origin. According to the 16S rRNA gene sequences, this strain was close to Desulfovibrio fairfieldensis. The present report describes the fourth isolate of this recently described species to be isolated in pure culture or as a predominant part of the flora and to be associated with infectious processes. Thus, D. fairfieldensis may possess a higher pathogenic potential than other Desulfovibrio species.

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Single or Double Mutational Alterations of GyrA Associated with Fluoroquinolone Resistance inCampylobacter jejuniandCampylobacter coli

Bachoual

Ouabdesselam

Mory

et al. 2001

Microbial Drug Resistance

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We looked for the presence of gyrA mutations in seven fluoroquinolone-resistant French clinical isolates of Campylobacter jejuni and Campylobacter coli. Three of the five isolates of C. jejuni and the two isolates of C. coli had high-level resistance to nalidixic acid (MICs 128-256 microg/ml) and ciprofloxacin (MICs 32 microg/ml). A gyrA mutation was found in all these isolates leading to the following substitutions: Thr86-Ile in four cases and Asp90-Tyr for one C. coli strain. One isolate had high-level resistance to nalidixic acid (MIC 64 microg/ml) but low-level resistance to ciprofloxacin (MIC 2 microg/ml) and also carried a gyrA mutation leading to a Thr86-Ala substitution. The last isolate of C. jejuni studied displayed an atypical resistance phenotype: It was resistant to high levels of ciprofloxacin (MIC 64 microg/ml) but remained fully susceptible to nalidixic acid (MIC 2 microg/ml). This phenotype was not explained by the presence of peculiar mutations in gyrA or gyrB. It carried a gyrA mutation leading to a Thr86-Ile substitution and was devoid of gyrB mutation. Despite numerous attempts with various degenerate oligonucleotide primers deduced from conserved regions of known parC genes, we were unable to amplify a corresponding sequence in C. jejuni or C. coli. First-step and second-step in vitro mutants, derived from reference strain C. coli ATCC 33559 with ciprofloxacin or moxifloxacin as selecting agents, were found to carry one and two mutations in gyrA, respectively. In contrast with the results obtained with clinical isolates, a variety of gyrA mutations were obtained in vitro.

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Proposal to unify Clostridium orbiscindens Winter et al. 1991 and Eubacterium plautii (Séguin 1928) Hofstad and Aasjord 1982, with description of Flavonifractor plautii gen. nov., comb. nov., and reassignment of Bacteroides capillosus to Pseudoflavonifractor capillosus gen. nov., comb. nov.

et al. 2010

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We isolated several strains from various clinical samples (five samples of blood, four of intra-abdominal pus and one of infected soft tissue) that were anaerobic, motile or non-motile and Gram-positive rods. Some of the strains formed spores. Phylogenetic analysis of the 16S rRNA gene sequence showed that these organisms could be placed within clostridial cluster IV as defined by Collins et al. [(1994). Int J Syst Bacteriol 44, 812–826] and shared more than 99 % sequence similarity with Clostridium orbiscindens DSM 6740T and Eubacterium plautii DSM 4000T. Together, they formed a distinct cluster, with Bacteroides capillosus ATCC 29799T branching off from this line of descent with sequence similarities of 97.1–97.4 %. The next nearest neighbours of these organisms were Clostridium viride, Oscillibacter valericigenes, Papillibacter cinnamivorans and Sporobacter termitidis, with sequence similarities to the respective type strains of 93.1–93.4, 91.2–91.4, 89.8–90 and 88.7–89.3 %. On the basis of biochemical properties, phylogenetic position, DNA G+C content and DNA–DNA hybridization, it is proposed to unify Clostridium orbiscindens and Eubacterium plautii in a new genus as Flavonifractor plautii gen. nov., comb. nov., with the type strain Prévot S1T (=ATCC 29863T =VPI 0310T =DSM 4000T), and to reassign Bacteroides capillosus to Pseudoflavonifractor capillosus gen. nov., comb. nov., with the type strain CCUG 15402AT (=ATCC 29799T =VPI R2-29-1T).

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Oribacterium sinus gen. nov., sp. nov., within the family ‘Lachnospiraceae’ (phylum Firmicutes)

Carlier

K'ouas

Bonne

et al. 2004

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A hitherto unknown anaerobic bacillus isolated from sinus pus in a young child (strain AIP 354.02T) was characterized by using phenotypic and genotypic methods. 16S rRNA gene sequence analysis indicated that this strain was phylogenetically affiliated with several sequences of cloned 16S rRNA gene inserts previously deposited in the public databases. According to their 16S rRNA gene sequence similarities, these uncultivated bacteria, together with strain AIP 354.02T, formed a separate subgroup belonging to the family ‘Lachnospiraceae’ within the phylum Firmicutes. Oribacterium gen. nov. is proposed for this group of organisms and Oribacterium sinus gen. nov. sp. nov. for strain AIP 354.02T (=CIP 107991T=CCUG 48084T).

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F. Mory

MALDI-TOF MS Andromas strategy for the routine identification of bacteria, mycobacteria, yeasts, Aspergillus spp. and positive blood cultures

Bacteremia Caused by a Strain of Desulfovibrio Related to the Provisionally Named Desulfovibrio fairfieldensis

Single or Double Mutational Alterations of GyrA Associated with Fluoroquinolone Resistance inCampylobacter jejuniandCampylobacter coli

Proposal to unify Clostridium orbiscindens Winter et al. 1991 and Eubacterium plautii (Séguin 1928) Hofstad and Aasjord 1982, with description of Flavonifractor plautii gen. nov., comb. nov., and reassignment of Bacteroides capillosus to Pseudoflavonifractor capillosus gen. nov., comb. nov.

Oribacterium sinus gen. nov., sp. nov., within the family ‘Lachnospiraceae’ (phylum Firmicutes)

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