Did you mean: moraxella atlanta
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Revista Espanola de Quimioterapia :... Dec 2018
Topics: Amoxicillin-Potassium Clavulanate Combination; Anti-Bacterial Agents; Echocardiography, Transesophageal; Endocarditis, Bacterial; Heart Valve Diseases; Heart Valve Prosthesis; Humans; Male; Middle Aged; Moraxella; Moraxellaceae Infections; Opportunistic Infections
PubMed: 30378394
DOI: No ID Found -
American Journal of Ophthalmology Case... Sep 2017is a rare pathogen. Keratitis from this organism has never been specifically reported or described. In this report we provide the first clinical description and...
PURPOSE
is a rare pathogen. Keratitis from this organism has never been specifically reported or described. In this report we provide the first clinical description and photograph of infectious keratitis.
OBSERVATIONS
A 41 year-old man presented with a three day history of left eye pain. He was found to have a corneal ring ulcer and infiltrate from which was cultured. The patient was successfully treated with intensive topical gatifloxacin (0.5%) and fortified tobramycin (1.5%); oral doxycycline was added to reduce corneal thinning. The patient's infection resolved with a residual scar and final best corrected visual acuity of 20/200 OS.
CONCLUSIONS AND IMPORTANCE
can present as a ring-shaped infectious corneal infiltrate and ulcer. Ring infiltrates have been observed with other microorganisms, including several other gram negative bacteria and classically, acanthamoeba. Frequently presumed to be purely immunologic, corneal ring infiltrates can have a number of other etiologies, including infectious and toxic. There are different types of immunologic rings as well, making differentiation of corneal rings sometimes difficult for the ophthalmologic generalist and subspecialist alike. In this paper we discuss characteristics of various corneal ring infiltrates, along with their immune pathophysiology. Infectious rings are distinguished from immunologic Wessely rings.
PubMed: 29260080
DOI: 10.1016/j.ajoc.2017.06.003 -
Clinical Laboratory Dec 2016The clinical manifestations of Moraxella Atlantae infection were rarely described. Here we reported an elderly pneumonia patient with Moraxella Atlantae infection and...
The clinical manifestations of Moraxella Atlantae infection were rarely described. Here we reported an elderly pneumonia patient with Moraxella Atlantae infection and the detailed clinical manifestations were firstly described. A bacterial automatic identification system in combination with phenotypic methods can be routinely used to identify this pathogen. If possible, 16S rDNA gene sequencing is also an alternative and effective method.
Topics: Anti-Bacterial Agents; Bacteremia; Bone Marrow Diseases; Humans; Male; Middle Aged; Moraxella; Moraxellaceae Infections; Pneumonia, Bacterial; Ribotyping; Treatment Outcome
PubMed: 28164552
DOI: 10.7754/Clin.Lab.2016.160527 -
Respiratory sepsis due to Moraxella atlantae: Utility of mass spectrometry to identify rare species.Enfermedades Infecciosas Y... Apr 2017
Topics: Aged; Humans; Male; Mass Spectrometry; Moraxella; Moraxellaceae Infections; Respiratory Tract Infections; Sepsis
PubMed: 27172857
DOI: 10.1016/j.eimc.2016.03.005 -
International Journal of Systematic and... Jul 2008The Judicial Commission of the International Committee for Systematics of Prokaryotes rules that the following names should have been included on the Approved Lists of...
The subgenus names Moraxella subgen. Moraxella and Moraxella subgen. Branhamella and the species names included within these taxa should have been included on the Approved Lists of Bacterial Names and a ruling on the proposal to make changes to Rule 34a. Opinion 83.
The Judicial Commission of the International Committee for Systematics of Prokaryotes rules that the following names should have been included on the Approved Lists of Bacterial Names, Moraxella (subgen. Branhamella Bøvre 1979), Moraxella (subgen. Moraxella Lwoff 1939), Moraxella (subgen. Branhamella Bøvre 1979) catarrhalis, Moraxella (subgen. Branhamella Bøvre 1979) caviae, Moraxella (subgen. Branhamella Bøvre 1979) ovis, Moraxella (subgen. Moraxella Lwoff 1939) atlantae, Moraxella (subgen. Moraxella Lwoff 1939) bovis, Moraxella (subgen. Moraxella Lwoff 1939) lacunata, Moraxella (subgen. Moraxella Lwoff 1939) nonliquefaciens, Moraxella (subgen. Moraxella Lwoff 1939) osloensis, Moraxella (subgen. Moraxella Lwoff 1939) phenylpyruvica. Proposals to alter Rule 34a were rejected.
Topics: Bacteria; Bacteriology; Classification; Moraxella; Terminology as Topic
PubMed: 18599732
DOI: 10.1099/ijs.0.2008/005272-0 -
Journal of Clinical Microbiology Jul 2002A gram-negative alkaline phosphatase- and pyrrolidone peptidase-positive rod-shaped bacterium (CCUG 45702) was isolated from two aerobic blood cultures from a female...
A gram-negative alkaline phosphatase- and pyrrolidone peptidase-positive rod-shaped bacterium (CCUG 45702) was isolated from two aerobic blood cultures from a female cancer patient. No identification could be reached using phenotypic techniques. Amplification of the tRNA intergenic spacers revealed fragments with lengths of 116, 133, and 270 bp, but no such pattern was present in our reference library. Sequencing of the 16S rRNA gene revealed its identity as Moraxella atlantae, a species isolated only rarely and published only once as causing infection. In retrospect, the phenotypic characteristics fit the identification as M. atlantae (formerly known as CDC group M-3). Comparative 16S rRNA sequence analysis indicates that M. atlantae, M. lincolnii, and M. osloensis might constitute three separate genera within the MORAXELLACEAE: After treatment with amoxicillin-clavulanic acid for 2 days, fever subsided and the patient was dismissed.
Topics: Adenocarcinoma; Adult; Amoxicillin-Potassium Clavulanate Combination; Bacteremia; Base Sequence; DNA, Bacterial; DNA, Ribosomal; Female; Genes, Bacterial; Humans; Molecular Sequence Data; Moraxella; Neisseriaceae Infections; Opportunistic Infections; RNA, Bacterial; RNA, Ribosomal, 16S; Rectal Neoplasms; Sequence Homology, Nucleic Acid; Species Specificity
PubMed: 12089312
DOI: 10.1128/JCM.40.7.2693-2695.2002 -
International Journal of Systematic... Jan 1998Thirty-three strains previously classified into 11 species in the bacterial family Moraxellaceae were subjected to phylogenetic analysis based on 16S rRNA sequences. The...
Thirty-three strains previously classified into 11 species in the bacterial family Moraxellaceae were subjected to phylogenetic analysis based on 16S rRNA sequences. The family Moraxellaceae formed a distinct clade consisting of four phylogenetic groups as judged from branch lengths, bootstrap values and signature nucleotides. Group I contained the classical moraxellae and strains of the coccal moraxellae, previously known as Branhamella, with 16S rRNA similarity of > or = 95%. A further division of group I into five tentative clusters is discussed. Group II consisted of two strains representing Moraxella atlantae and Moraxella osloensis. These strains were only distantly related to each other (93.4%) and also to the other members of the Moraxellaceae (< or = 93%). Therefore, reasons for reclassification of these species into separate and new genera are discussed. Group III harboured strains of the genus Psychrobacter and strain 752/52 of [Moraxella] phenylpyruvica. This strain of [M.] phenylpyruvica formed an early branch from the group III line of descent. Interestingly, a distant relationship was found between Psychrobacter phenylpyruvicus strain ATCC 23333T (formerly classified as [M.] phenylpyruvica) and [M.] phenylpyruvica strain 752/52, exhibiting less than 96% nucleotide similarity between their 16S rRNA sequences. The establishment of a new genus for [M.] phenylpyruvica strain 752/52 is therefore suggested. Group IV contained only two strains of the genus Acinetobacter. Strategies for the development of diagnostic probes and distinctive sequences for 16S rRNA-based species-specific assays within group I are suggested. Although these findings add to the classificatory placements within the Moraxellaceae, analysis of a more comprehensive selection of strains is still needed to obtain a complete classification system within this family.
Topics: DNA Primers; DNA, Bacterial; Molecular Sequence Data; Moraxella bovis; Moraxella catarrhalis; Oligonucleotides; Phylogeny; RNA, Bacterial; RNA, Ribosomal, 16S; Species Specificity
PubMed: 9542079
DOI: 10.1099/00207713-48-1-75 -
International Journal of Systematic... Apr 1993DNA-DNA hybridization was used to determine the levels of genomic relatedness of the three species of "false neisseriae," Neisseria caviae, Neisseria cuniculi, and... (Comparative Study)
Comparative Study
DNA-DNA hybridization was used to determine the levels of genomic relatedness of the three species of "false neisseriae," Neisseria caviae, Neisseria cuniculi, and Neisseria ovis. The reference strains of these species exhibited high levels of intraspecies relatedness (93 to 100% for N. caviae, 79 to 100% for N. cuniculi, and 68 to 100% for N. ovis) but low levels of interspecific relatedness (less than 34%) to each other and to various species belonging to the beta subclass of the Proteobacteria (Kingella kingae, Neisseria gonorrhoeae, Neisseria meningitidis, and Oligella urethralis) or to the gamma subclass (Branhamella catarrhalis, Kingella indologenes, Moraxella atlantae, Moraxella bovis, Moraxella lacunata subsp. lacunata, Moraxella lacunata subsp. liquefaciens, Moraxella nonliquefaciens, Moraxella osloensis, and Moraxella phenylpyruvica). However, the levels of DNA-DNA hybridization for the three species of "false neisseriae" were significantly higher with the species belonging to the gamma subclass (average, 13.7%) than with the species belonging to the beta subclass (average, 4.5%). These data suggest that N. caviae, N. cuniculi, and N. ovis are three separate genomic species in the gamma subclass. An ascendant hierarchical classification based only on fatty acid profiles distinguished four main classes containing (i) most of the "classical moraxellae," the "false neisseriae," and B. catarrhalis, (ii) only Acinetobacter spp., (iii) M. nonliquefaciens and "misnamed moraxellae" (M. atlantae, M. osloensis, and M. phenylpyruvica), and (iv) the "true neisseriae," the three Kingella species, and O. urethralis. Fatty acids that distinguish these four classes were identified. The fatty acid profiles of the two strains of Psychrobacter immobilis which we studied are not very similar to the profiles of the other taxa. Our results support the hypothesis that the three species of "false neisseriae," B. catarrhalis, the "classical moraxellae," and Acinetobacter spp. should be included in the same family.
Topics: Bacterial Typing Techniques; DNA, Bacterial; Fatty Acids; Humans; Neisseria; Nose; Nucleic Acid Hybridization; Phenotype; Sputum; Terminology as Topic
PubMed: 8494736
DOI: 10.1099/00207713-43-2-210 -
The Journal of Infection Sep 1991We describe the first reported case of human infection caused by Moraxella atlantae (formerly known as CDC group M-3) and its successful treatment with intravenous...
We describe the first reported case of human infection caused by Moraxella atlantae (formerly known as CDC group M-3) and its successful treatment with intravenous cefuroxime. The isolation and identification of this species, as well as the pathogenesis of the infection, are discussed. It is recommended that isolates of Moraxella species be speciated so that the epidemiological characteristics and pathogenesis of the infections caused by the various species may be understood more completely.
Topics: Adult; Bacteremia; Female; Humans; Lupus Erythematosus, Systemic; Moraxella; Neisseriaceae Infections; Species Specificity
PubMed: 1753122
DOI: 10.1016/0163-4453(91)92335-3 -
APMIS : Acta Pathologica,... May 1989DNA-DNA hybridization using total genomic DNA probes may represent a way of differentiating between miscellaneous bacterial species. This was studied with type and... (Comparative Study)
Comparative Study
DNA-DNA hybridization using total genomic DNA probes may represent a way of differentiating between miscellaneous bacterial species. This was studied with type and reference strains of 20 species in Moraxella, Kingella, and other selected Gram-negative groups. Both radioactive and biotin labelling were employed. Most of the species examined were easily distinguished, such as Moraxella (Branhamella) catarrhalis, M.(B.) ovis, M. atlantae, M. phenylpyruvica, M. osloensis, Neisseria elongata, N. meningitidis, Kingella kingae, K. indologenes, K. dentrificans, Oligella urethralis, Eikenella corrodens, Cardiobacterium hominis, Haemophilus aphrophilus, Actinobacillus actinomycetemcomitans, Gardnerella vaginalis, and DF-2. This reflected the extent of the genetic distances between them as a basis for identification by hybridization. There was some clustering in the Moraxella group. Especially the closely related Moraxella nonliquefaciens, M. lacunata and M. bovis showed strong hybridization affinities. This leads to potential problems in distinguishing these three species from each other by DNA-DNA hybridization with total genomic probes alone.
Topics: DNA Probes; DNA, Bacterial; Moraxella; Neisseriaceae; Nucleic Acid Hybridization; Species Specificity; Transformation, Genetic
PubMed: 2730785
DOI: 10.1111/j.1699-0463.1989.tb00806.x