Molecular typing of isolates obtained from aborted foetuses in Brucella-free Holstein dairy cattle herd after immunisation with Brucella abortus RB51 vaccine in Egypt.

[1]  H. Neubauer,et al.  Isolation of Brucella abortus from a Dog and a Cat Confirms their Biological Role in Re‐emergence and Dissemination of Bovine Brucellosis on Dairy Farms , 2017, Transboundary and emerging diseases.

[2]  P. Calistri,et al.  A diagnostic protocol to identify water buffaloes (Bubalus bubalis) vaccinated with Brucella abortus strain RB51 vaccine. , 2015, Veterinaria Italiana.

[3]  H. Neubauer,et al.  Animal brucellosis in Egypt. , 2014, Journal of infection in developing countries.

[4]  C. Saegerman,et al.  Bovine brucellosis in Argentina and bordering countries: update. , 2014, Transboundary and emerging diseases.

[5]  J. Álvarez,et al.  Assessment of Genetic Diversity of Zoonotic Brucella spp. Recovered from Livestock in Egypt Using Multiple Locus VNTR Analysis , 2014, BioMed research international.

[6]  M. Heinemann,et al.  Genetic stability of Brucella abortus S19 and RB51 vaccine strains by multiple locus variable number tandem repeat analysis (MLVA16). , 2013, Vaccine.

[7]  K. Mills,et al.  Abortion and premature birth in cattle following vaccination with Brucella abortus strain RB51 , 2013, Journal of veterinary diagnostic investigation : official publication of the American Association of Veterinary Laboratory Diagnosticians, Inc.

[8]  A. M. Lima-Ribeiro,et al.  Detection of Brucella spp. DNA in the semen of seronegative bulls by polymerase chain reaction. , 2013, Transboundary and emerging diseases.

[9]  J. Skyberg,et al.  Progress in Brucella vaccine development , 2013, Frontiers in Biology.

[10]  B. Arellano-Reynoso,et al.  Isolation of a field strain of Brucella abortus from RB51-vaccinated- and brucellosis-seronegative bovine yearlings that calved normally , 2012, Tropical Animal Health and Production.

[11]  Hasanjani Roushan Mohammad Reza,et al.  Brucellosis Vaccines: An Overview , 2012 .

[12]  Sumit Joshi,et al.  Safety and immunogenicity of Brucella abortus strain RB51 vaccine in cross bred cattle calves in India. , 2012, Indian journal of experimental biology.

[13]  H. Adesokan,et al.  Seroprevalence of Brucella abortus and B. canis in household dogs in southwestern Nigeria: a preliminary report. , 2011, Journal of the South African Veterinary Association.

[14]  E. Díaz-Aparicio,et al.  Isolation of Brucella melitensis from a RB51-vaccinated seronegative goat , 2011, Tropical Animal Health and Production.

[15]  Erna Aescht,et al.  Romeis - Mikroskopische Technik , 2010 .

[16]  P. Nicoletti Brucellosis: past, present and future. , 2010, Prilozi.

[17]  E. Skjerve,et al.  Characterization of some Brucella species from Zimbabwe by biochemical profiling and AMOS-PCR , 2009, BMC Research Notes.

[18]  J. Gorvel,et al.  Rough mutants defective in core and O-polysaccharide synthesis and export induce antibodies reacting in an indirect ELISA with smooth lipopolysaccharide and are less effective than Rev 1 vaccine against Brucella melitensis infection of sheep. , 2009, Vaccine.

[19]  H. Ashour,et al.  Multicenter Study of Brucellosis in Egypt , 2008, Emerging infectious diseases.

[20]  B. Garin‐Bastuji,et al.  Evaluation of a Multiplex PCR Assay (Bruce-ladder) for Molecular Typing of All Brucella Species, Including the Vaccine Strains , 2008, Journal of Clinical Microbiology.

[21]  G. Vergnaud,et al.  Evaluation of Brucella MLVA typing for human brucellosis. , 2007, Journal of microbiological methods.

[22]  S. Shi,et al.  Chapter 1 – Techniques of Immunohistochemistry: Principles, Pitfalls and Standardization , 2006 .

[23]  F. Denoeud,et al.  Evaluation and selection of tandem repeat loci for a Brucella MLVA typing assay , 2006, BMC Microbiology.

[24]  E. Moreno,et al.  Rough vaccines in animal brucellosis: structural and genetic basis and present status. , 2004, Veterinary research.

[25]  M. Refai Incidence and control of brucellosis in the Near East region. , 2002, Veterinary microbiology.

[26]  S. Olsen Responses of adult cattle to vaccination with a reduced dose of Brucella abortus strain RB51. , 2000, Research in veterinary science.

[27]  M. Struelens,et al.  Molecular epidemiologic typing systems of bacterial pathogens: current issues and perspectives. , 1998, Memorias do Instituto Oswaldo Cruz.

[28]  Z. Bercovich Maintenance of Brucella abortus-free herds: a review with emphasis on the epidemiology and the problems in diagnosing brucellosis in areas of low prevalence. , 1998, The Veterinary quarterly.

[29]  M. Palmer,et al.  Experimental Infection of Pregnant Cattle with the Vaccine Candidate Brucella abortus Strain RB51: Pathologic, Bacteriologic, and Serologic Findings , 1996, Veterinary pathology.

[30]  J. L. Alabart,et al.  Effect of antibiotics contained in two Brucella selective media on growth of Brucella abortus, B. melitensis, and B. ovis , 1996, Journal of clinical microbiology.

[31]  B. Bricker,et al.  Differentiation of Brucella abortus bv. 1, 2, and 4, Brucella melitensis, Brucella ovis, and Brucella suis bv. 1 by PCR , 1994, Journal of clinical microbiology.

[32]  T. Ficht,et al.  Pathogenesis of Brucella. , 2008, Critical reviews in microbiology.

[33]  E. Zowghi,et al.  Isolation of Brucella organisms from the milk of seronegative cows. , 1990, Revue scientifique et technique.

[34]  Z. Bercovich,et al.  Use of delayed-type hypersensitivity test to diagnose brucellosis in calves born to infected dams. , 1990, The Veterinary quarterly.

[35]  J. Verger,et al.  Techniques for the Brucellosis Laboratory , 1988 .

[36]  S. MacDiarmid,et al.  The effect of reduced-dose Brucella abortus strain 19 vaccination in accredited dairy herds. , 1985, The British veterinary journal.

[37]  R. J. Henderson Cause for concern. Dealing in brucella-infected cattle , 1969, British medical journal.

[38]  H. Lall,et al.  Studies on brucellosis. , 1960 .