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Journal Abstract Search

85 related items for PubMed ID: 27227694

  • 1. Rapid identification of bacteria associated with Acute Oak Decline by high-resolution melt analysis.
    Brady C, Allainguillaume J, Denman S, Arnold D.
    Lett Appl Microbiol; 2016 Aug; 63(2):89-95. PubMed ID: 27227694
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  • 4. Brenneria goodwinii sp. nov., associated with acute oak decline in the UK.
    Denman S, Brady C, Kirk S, Cleenwerck I, Venter S, Coutinho T, De Vos P.
    Int J Syst Evol Microbiol; 2012 Oct; 62(Pt 10):2451-2456. PubMed ID: 22140177
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  • 7. Survival of Brenneria goodwinii and Gibbsiella quercinecans, associated with acute oak decline, in rainwater and forest soil.
    Pettifor BJ, Doonan J, Denman S, McDonald JE.
    Syst Appl Microbiol; 2020 Mar; 43(2):126052. PubMed ID: 31932140
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  • 8. Description of Brenneria roseae sp. nov. and two subspecies, Brenneria roseae subspecies roseae ssp. nov and Brenneria roseae subspecies americana ssp. nov. isolated from symptomatic oak.
    Brady C, Hunter G, Kirk S, Arnold D, Denman S.
    Syst Appl Microbiol; 2014 Sep; 37(6):396-401. PubMed ID: 24917366
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  • 9. Gibbsiella greigii sp. nov., a novel species associated with oak decline in the USA.
    Brady C, Hunter G, Kirk S, Arnold D, Denman S.
    Syst Appl Microbiol; 2014 Sep; 37(6):417-22. PubMed ID: 25107271
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  • 10. Integrated multi-omic analysis of host-microbiota interactions in acute oak decline.
    Broberg M, Doonan J, Mundt F, Denman S, McDonald JE.
    Microbiome; 2018 Jan 30; 6(1):21. PubMed ID: 29378627
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  • 11. Multilocus sequence typing provides insights into the population structure and evolutionary potential of Brenneria goodwinii, associated with acute oak decline.
    Kaczmarek M, Mullett MS, McDonald JE, Denman S.
    PLoS One; 2017 Jan 30; 12(6):e0178390. PubMed ID: 28570630
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  • 12. Genomic analysis of bacteria in the Acute Oak Decline pathobiome.
    Doonan J, Denman S, Pachebat JA, McDonald JE.
    Microb Genom; 2019 Jan 30; 5(1):. PubMed ID: 30625111
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  • 14. Gibbsiella dentisursi sp. nov., isolated from the bear oral cavity.
    Saito M, Shinozaki-Kuwahara N, Takada K.
    Microbiol Immunol; 2012 Aug 30; 56(8):506-12. PubMed ID: 22500952
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  • 15. Microbiome and infectivity studies reveal complex polyspecies tree disease in Acute Oak Decline.
    Denman S, Doonan J, Ransom-Jones E, Broberg M, Plummer S, Kirk S, Scarlett K, Griffiths AR, Kaczmarek M, Forster J, Peace A, Golyshin PN, Hassard F, Brown N, Kenny JG, McDonald JE.
    ISME J; 2018 Feb 30; 12(2):386-399. PubMed ID: 29028005
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  • 16. Unifying bacteria from decaying wood with various ubiquitous Gibbsiella species as G. acetica sp. nov. based on nucleotide sequence similarities and their acetic acid secretion.
    Geider K, Gernold M, Jock S, Wensing A, Völksch B, Gross J, Spiteller D.
    Microbiol Res; 2015 Dec 30; 181():93-104. PubMed ID: 26071988
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  • 17. The Role of Bacteria in Acute Oak Decline in South-West Poland.
    Tkaczyk M, Sikora K.
    Microorganisms; 2024 May 15; 12(5):. PubMed ID: 38792825
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  • 18. Kosakonia pseudosacchari sp. nov., an endophyte of Zea mays.
    Kämpfer P, McInroy JA, Doijad S, Chakraborty T, Glaeser SP.
    Syst Appl Microbiol; 2016 Feb 15; 39(1):1-7. PubMed ID: 26597455
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  • 19. Host-microbiota-insect interactions drive emergent virulence in a complex tree disease.
    Doonan JM, Broberg M, Denman S, McDonald JE.
    Proc Biol Sci; 2020 Aug 26; 287(1933):20200956. PubMed ID: 32811286
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  • 20. Bacteria Associated with Acute Oak Decline: Where Did They Come From? We Know Where They Go.
    Maddock D, Brady C, Denman S, Arnold D.
    Microorganisms; 2023 Nov 17; 11(11):. PubMed ID: 38004800
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