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Journal Abstract Search

267 related items for PubMed ID: 11682499

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  • 45. Direct identification of slowly growing Mycobacterium species by analysis of the intergenic 16S-23S rDNA spacer region (ISR) using a GelCompar II database containing sequence based optimization for restriction fragment site polymorphisms (RFLPs) for 12 enzymes.
    Gürtler V, Harford C, Bywater J, Mayall BC.
    J Microbiol Methods; 2006 Feb; 64(2):185-99. PubMed ID: 15979743
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  • 46. Species-level identification of Bacillus strains isolates from marine sediments by conventional biochemical, 16S rRNA gene sequencing and inter-tRNA gene sequence lengths analysis.
    Miranda CA, Martins OB, Clementino MM.
    Antonie Van Leeuwenhoek; 2008 Mar; 93(3):297-304. PubMed ID: 17922298
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  • 47. Identification of Streptococcus species and Haemophilus influenzae by direct sequencing of PCR products from 16S-23SrDNA intergenic spacer regions.
    Lu X, Yang C, Li L, Yang H.
    Chin Med J (Engl); 2002 Sep; 115(9):1415-7. PubMed ID: 12411126
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  • 48. [Characterization of thermophilic spore-forming bacteria from a geothermal spring in Lithuania based on 16S rDNA and 16S-23S rDNA intergenic spacers analyses].
    Kuĭsene N, Emantene R, Valiunas D, Chitavichus D.
    Mikrobiologiia; 2002 Sep; 71(6):824-8. PubMed ID: 12526205
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  • 50. tDNA-PCR followed by automated fluorescent capillary electrophoresis for identification of bacterial species.
    Baele M, Stakenborg T, Lopes dos Santos Santiago G, Haesebrouck F, Vaneechoutte M.
    Cold Spring Harb Protoc; 2009 Apr; 2009(4):pdb.prot5196. PubMed ID: 20147139
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  • 51. PCR fingerprinting of whole genomes: the spacers between the 16S and 23S rRNA genes and of intergenic tRNA gene regions reveal a different intraspecific genomic variability of Bacillus cereus and Bacillus licheniformis [corrected].
    Daffonchio D, Borin S, Frova G, Manachini PL, Sorlini C.
    Int J Syst Bacteriol; 1998 Jan; 48 Pt 1():107-16. PubMed ID: 9542081
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  • 54. Technical note: use of transfer RNA-intergenic spacer PCR combined with capillary electrophoresis to identify coagulase-negative Staphylococcus species originating from bovine milk and teat apices.
    Supré K, De Vliegher S, Sampimon OC, Zadoks RN, Vaneechoutte M, Baele M, De Graef E, Piepers S, Haesebrouck F.
    J Dairy Sci; 2009 Jul; 92(7):3204-10. PubMed ID: 19528597
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  • 56. A comparison of polymerase chain reaction and international organization for standardization methods for determination of Enterobacter sakazakii contamination of infant formulas from Chinese mainland markets.
    Ye Y, Wu Q, Yao L, Dong X, Wu K, Zhang J.
    Foodborne Pathog Dis; 2009 Dec; 6(10):1229-34. PubMed ID: 19743923
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  • 57. 16S rRNA gene based analysis of Enterobacter sakazakii strains from different sources and development of a PCR assay for identification.
    Lehner A, Tasara T, Stephan R.
    BMC Microbiol; 2004 Nov 25; 4():43. PubMed ID: 15563736
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  • 58. Genetic diversity of Pierce's disease strains and other pathotypes of Xylella fastidiosa.
    Hendson M, Purcell AH, Chen D, Smart C, Guilhabert M, Kirkpatrick B.
    Appl Environ Microbiol; 2001 Feb 25; 67(2):895-903. PubMed ID: 11157260
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  • 59. A dual approach employing MALDI-TOF MS and real-time PCR for fast species identification within the Enterobacter cloacae complex.
    Pavlovic M, Konrad R, Iwobi AN, Sing A, Busch U, Huber I.
    FEMS Microbiol Lett; 2012 Mar 25; 328(1):46-53. PubMed ID: 22150997
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