[1] Christensen H,Bisgaard M,Bojesen A M,et al.Genetic relationships among avian isolates classified as Pasteurella haemolytica,Actinobacillus salpingitidis or Pasteurella anatis with proposal of Gallibacterium anatis gen.nov.,comb.nov.and description of additional genomospecies within Gallibacterium gen.nov [J].International Journal of Systematic and Evolutionary Microbiology,2003,53(1):275-28.
[2] Bisgaard M,Korczak B M,Busse H J,et al.Classification of the taxon 2 and taxon 3 complex of Bisgaard within Gallibacterium and description of Gallibacterium melopsittaci sp.nov., Gallibacterium trehalosifermentans sp.nov.and Gallibacterium salpingitidis sp.Nov [J]. International Journal of Systematic and Evolutionary Microbiology,2009,59(4):735-744.
[3] 王川庆,陈陆,杨霞等.蛋鸡群卡氏杆菌感染情况的初步研究 [J].河南农业科学,2008,(3): 97-100.
[4] Neubauer C,DE Souza-Pilz M,Bojesen A M,et al.Tissue distribution of haemolytic Gallibacterium anatis isolates in laying birds with reproductive disorders [J].Avian Pathology,2009, 38(1):1-7.
[5] Paudel S,Liebhart D,Hess M,et al.Pathogenesis of Gallibacterium anatis in a natural infection model fulfils Koch's postulates:1.Folliculitis and drop in egg production are the predominant effects in specific pathogen free layers [J].Avian Pathology : Journal of the WVPA, 2014,43(5):443-449.
[6] Singh S V,Singh B R,Sinha D K,et al.Gallibacterium anatis:An emerging pathogen of poultry birds and domiciled birds [J].Journal of Veterinary Science & Technology,2016, 7(3):1000324.
[7] 彭志锋,高冬生,刘红英等.鸭源鸡杆菌整合子及其与耐药性的相关性分析 [J].畜牧兽医学报,2016,47(8):1676-1681.
[8] 高冬生.株鸭源鸡杆菌部分耐药基因及其与耐药性关系的研究 [D].河南郑州:河南农业大学,2011.
[9] Bojesen A M,Vazquez M E,Bager R J,et al.Antimicrobial susceptibility and tetracycline resistance determinant genotyping of Gallibacterium anatis [J].Veterinary Microbiology,2011, 148(1):105-110.
[10] Liu C C,Ou S C,Tan D H,et al.The fimbrial protein is a virulence factor and potential vaccine antigen of avibacterium paragallinarum [J].Avian Diseases,2016,60(3):649-655.
[11] Maier B,Wong G C.How bacteria use type IV pili machinery on surfaces [J].Trends Microbiol,2015,23(12):775-788.
[12] Bager R J,Nesta B,Pors S E,et al.The fimbrial protein FlfA from Gallibacterium anatis is a virulence factor and vaccine candidate [J].Infection and Immunity,2013,81(6):1964-1973.
[13] Lucio M,Vaca S,V Zquez C,et al.Adhesion of Gallibacterium anatis to chicken oropharyngeal epithelial cells and the identification of putative fimbriae [J].Advances in Microbiology,2012,2(4): 505-510.
[14] Vaca S,Monroy E,Rojas L,et al.Adherence of Gallibacterium anatis to inert surfaces [J].J Anim Vet Adv,2011,10(13):1688-1693.
[15] Spaulding C N,Hultgren S J.Adhesive pili in UTI pathogenesis and drug development [J]. Pathogens,2016,5(1):30.
[16] Wilkie I,Harper M,Boyce J,et al.Pasteurella multocida:Diseases and pathogenesis [M]. Berlin:Springer Publishing Company,2012:1-22.
[17] Bager R J,Kudirkiene E,DA Piedade I,et al.In silico prediction of Gallibacterium anatis pan-immunogens [J].Veterinary Research,2014,45(1):80.
[18] Novotny L A,Jurcisek J A,Ward M O,et al. Antibodies against the majority subunit of type IV Pili disperse nontypeable Haemophilus influenzae biofilms in a Luxs-dependent manner and confer therapeutic resolution of experimental otitis media [J].Mol Microbiol,2015,96(2):276-292.
[19] Okay S,Ozcengiz E,Gursel I,et al.Immunogenicity and protective efficacy of the recombinant Pasteurella lipoprotein E and outer membrane protein H from Pasteurella multocida A:3 in mice [J].Res Vet Sci,2012,93(3):1261-1265. |