Rapid differentiation of Francisella species and subspecies by fluorescent in situ hybridization targeting the 23S rRNA
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K. Trebesius | A. Podbielski | W. Splettstoesser | E. Seibold | Wolf D Splettstoesser | Erik Seibold | Ella Zeman | Karlheinz Trebesius | Andreas Podbielski | E. Zeman
[1] G. A. Tkachenko,et al. Molecular identification and typing of Burkholderia pseudomallei and Burkholderia mallei: when is enough enough? , 2008, Transactions of the Royal Society of Tropical Medicine and Hygiene.
[2] O. Landt,et al. Real-time PCR using hybridization probes for the rapid and specific identification of Francisella tularensis subspecies tularensis. , 2007, Molecular and cellular probes.
[3] D. Lane. 16S/23S rRNA sequencing , 1991 .
[4] K. Trebesius,et al. Fluorescent In Situ Hybridization Allows Rapid Identification of Microorganisms in Blood Cultures , 2000, Journal of Clinical Microbiology.
[5] J. Kool,et al. Laboratory Analysis of Tularemia in Wild-Trapped, Commercially Traded Prairie Dogs, Texas, 2002 , 2004, Emerging infectious diseases.
[6] J. Heesemann,et al. Rapid and specific detection of Helicobacter pylori macrolide resistance in gastric tissue by fluorescent in situ hybridisation , 2000, Gut.
[7] M. T. Gallardo,et al. Outbreak of tularaemia in Castilla y León, Spain. , 1998, Euro surveillance : bulletin Europeen sur les maladies transmissibles = European communicable disease bulletin.
[8] Mary L. Bouxsein,et al. Theoretical and Practical Considerations , 2001 .
[9] Jeannine M. Petersen,et al. Development of a Multitarget Real-Time TaqMan PCR Assay for Enhanced Detection of Francisella tularensis in Complex Specimens , 2003, Journal of Clinical Microbiology.
[10] Philip K. Russell,et al. Tularemia as a biological weapon: medical and public health management. , 2001, JAMA.
[11] E. Stackebrandt,et al. Nucleic acid techniques in bacterial systematics , 1991 .
[12] J. Govan,et al. Assessment of Fluorescent In Situ Hybridization and PCR-Based Methods for Rapid Identification of Burkholderia cepacia Complex Organisms Directly from Sputum Samples , 2007, Journal of Clinical Microbiology.
[13] S. Telford,et al. A new Francisella (Beggiatiales: Francisellaceae) inquiline within Dermacentor variabilis say (Acari: Ixodidae). , 2005, Journal of medical entomology.
[14] Rudolf Amann,et al. In Situ Accessibility of Escherichia coli 23S rRNA to Fluorescently Labeled Oligonucleotide Probes , 2001, Applied and Environmental Microbiology.
[15] J. Petersen,et al. Real-time PCR for Francisella tularensis Types A and B , 2006, Emerging infectious diseases.
[16] A. Lawler. Biodefense labs. Boston University Under Fire for Pathogen Mishap. , 2005, Science.
[17] Hans-Jürgen Busse,et al. Description of Francisella hispaniensis sp. nov., isolated from human blood, reclassification of Francisella novicida (Larson et al. 1955) Olsufiev et al. 1959 as Francisella tularensis subsp. novicida comb. nov. and emended description of the genus Francisella. , 2010, International journal of systematic and evolutionary microbiology.
[18] C. Broome,et al. Infection caused by Francisella philomiragia (formerly Yersinia philomiragia). A newly recognized human pathogen. , 1989, Annals of internal medicine.
[19] R. Eisen,et al. Multiple Francisella tularensis Subspecies and Clades, Tularemia Outbreak, Utah , 2008, Emerging infectious diseases.
[20] R. Lathe. Synthetic oligonucleotide probes deduced from amino acid sequence data. Theoretical and practical considerations. , 1985, Journal of molecular biology.
[21] K. Márialigeti,et al. Detection of a novel Francisella in Dermacentor reticulatus: a need for careful evaluation of PCR-based identification of Francisella tularensis in Eurasian ticks. , 2009, Vector Borne and Zoonotic Diseases.
[22] A. Borczyk,et al. Early recognition of atypical Francisella tularensis strains lacking a cysteine requirement , 1994, Journal of clinical microbiology.
[23] C. Kuske,et al. Detection of Diverse New Francisella-Like Bacteria in Environmental Samples , 2005, Applied and Environmental Microbiology.
[24] P. Mead,et al. Molecular Epidemiology of Francisella tularensis in the United States. , 2009, Clinical infectious diseases : an official publication of the Infectious Diseases Society of America.
[25] P. Kiratisin,et al. Emergence of Francisella novicida Bacteremia, Thailand , 2008, Emerging infectious diseases.
[26] J. Petersen,et al. Characterization of a novicida-like subspecies of Francisella tularensis isolated in Australia. , 2003, Journal of medical microbiology.
[27] R. Amann,et al. Combination of 16S rRNA-targeted oligonucleotide probes with flow cytometry for analyzing mixed microbial populations , 1990, Applied and environmental microbiology.
[28] L. G. Carter,et al. Methods for Enhanced Culture Recovery of Francisella tularensis , 2004, Applied and Environmental Microbiology.
[29] K. Mätz-Rensing,et al. Re-emergence of tularemia in Germany: Presence of Francisella tularensis in different rodent species in endemic areas , 2008, BMC infectious diseases.
[30] A. Bauernfeind,et al. Molecular Procedure for Rapid Detection ofBurkholderia mallei and Burkholderia pseudomallei , 1998, Journal of Clinical Microbiology.
[31] R. Grunow,et al. Population Structure of Francisella tularensis , 2006, Journal of bacteriology.
[32] P. Keim,et al. Molecular Epidemiology, Evolution, and Ecology of Francisella , 2007, Annals of the New York Academy of Sciences.
[33] D. Colquhoun,et al. Francisella asiatica sp. nov. isolated from farmed tilapia (Oreochromis sp.) and elevation of Francisella philomiragia subsp. noatunensis to species rank as Francisella noatunensis comb. nov., sp. nov. , 2009, International journal of systematic and evolutionary microbiology.
[34] Heather L. Stang,et al. Isolation and Characterization of a Novel Francisella sp. from Human Cerebrospinal Fluid and Blood , 2008, Journal of Clinical Microbiology.
[35] P. Schuff-Werner,et al. Diagnostic procedures in tularaemia with special focus on molecular and immunological techniques. , 2005, Journal of veterinary medicine. B, Infectious diseases and veterinary public health.
[36] M. Bhide,et al. Molecular Method for Discrimination between Francisella tularensis and Francisella-Like Endosymbionts , 2008, Journal of Clinical Microbiology.
[37] T. Morner. The ecology of tularaemia. , 1992 .
[38] J. Heesemann,et al. Development of rRNA-Targeted PCR and In Situ Hybridization with Fluorescently Labelled Oligonucleotides for Detection of Yersinia Species , 1998, Journal of Clinical Microbiology.
[39] A. Nylund,et al. Elevation of Francisella philomiragia subsp. noatunensis Mikalsen et al. (2007) to Francisella noatunensis comb. nov. [syn. Francisella piscicida Ottem et al. (2008) syn. nov.] and characterization of Francisella noatunensis subsp. orientalis subsp. nov., two important fish pathogens , 2009, Journal of applied microbiology.
[40] A. Sjöstedt,et al. Analysis of 16S ribosomal DNA sequences of Francisella strains and utilization for determination of the phylogeny of the genus and for identification of strains by PCR. , 1994, International journal of systematic bacteriology.
[41] Richard W. Titball,et al. Genome-Wide DNA Microarray Analysis of Francisella tularensis Strains Demonstrates Extensive Genetic Conservation within the Species but Identifies Regions That Are Unique to the Highly Virulent F. tularensis subsp. tularensis , 2003, Journal of Clinical Microbiology.
[42] A. Sjöstedt. Tularemia: History, Epidemiology, Pathogen Physiology, and Clinical Manifestations , 2007, Annals of the New York Academy of Sciences.
[43] A. Tärnvik,et al. New Approaches to Diagnosis and Therapy of Tularemia , 2007, Annals of the New York Academy of Sciences.
[44] D A Stahl,et al. Fluorescent-oligonucleotide probing of whole cells for determinative, phylogenetic, and environmental studies in microbiology , 1990, Journal of bacteriology.
[45] S. Gedikoğlu,et al. Re-emergence of tularemia in Turkey. , 2009, International journal of infectious diseases : IJID : official publication of the International Society for Infectious Diseases.
[46] W. Kratzer,et al. Tularemia in Germany: the tip of the iceberg? , 2008, Epidemiology and Infection.
[47] E. W. Lang,et al. Analyzing time-dependent microarray data using independent component analysis derived expression modes from human macrophages infected with F. tularensis holartica , 2009, J. Biomed. Informatics.
[48] T. Mörner. The ecology of tularaemia. , 1992, Revue scientifique et technique.
[49] N. Wellinghausen,et al. Rapid Detection of Brucella spp. in Blood Cultures by Fluorescence In Situ Hybridization , 2006, Journal of Clinical Microbiology.