U n i t C d I m m u nolog ie-M icro bio log ie, B-5000 Namur, BelgiumIsolation of Brucella spp. in marine mammals has been reported during the past several years. A Brucella strain from the spleen and liver of a minke whale (Balaenoptera acutorostrata) was isolated. Conventional typing methods indicated that this isolate was related to the genus Brucella but did not match the profiles of any known Brucella species or biovar. Successful PCR amplification of the Brucella rrs-rrl spacer sequence and of the insertion sequence IS6501 also indicated that the minke whale strain was related to the genus Brucella. In addition, the rrs gene of this strain shared a very high degree of nucleotide identity (>98%) with published Brucella spp. rrs sequences. However, RFLP studies using an IS6501-specif ic probe showed a unique profile for this strain in comparison with the profiles of the six known Brucella species. Moreover, analysis of the omp2 locus by PCR-RFLP, by Southern hybridization using omp2a-and omp2b-specif ic probes, and b y DNA sequencing showed that the minke whale isolate possesses two copies of the omp2b gene instead of one omp2a and one omp2b gene copy or two copies of the omp2a gene described in the six known Brucella species. Thus, molecular typing methods showed that this isolate is clearly distinct from all other known Brucella species and strains. The specific molecular features of this minke whale Brucella isolate raise questions about the lineage between the Brucella strains isolated from marine mammals and the Brucella species isolated from terrestrial mammals.
Antibodies against the 89 kDa Brucella abortus outer membrane protein (OMP) are detected in 68% of B. abortus infected cows. A monoclonal antibody, specifically directed against Brueella OMP89, has been used to screen a phage-displayed peptide library. We describe here results obtained from affinity selection of phages with mAb A7617E3C3 in three rounds of biopanning using a cysteine-constrained peptide library expressed on the surface of filamentous bacteriophages pVIII major coat protein. Deduced amino acid sequences of the peptide region of clones positively detected by colony immunoblotting experiments indicate the presence of a consensus sequence. Peptides corresponding to the most frequently represented sequence have been synthesized. Monoclonal antibody binding to selected phages is inhibited by corresponding cyclic peptides, but not by linear peptides. This confirms the specificity of the peptide sequence for its paratope but also the importance of a certain conformation for binding.
Most of the monoclonal antibodies (MAbs) raised against the fusion (F) protein of the bovine respiratory syncytial virus recognize discontinuous epitopes on the protein. In order to find mimotopes of these epitopes, phage-displayed peptide libraries were screened with MAbs. The results obtained with MAb ALl 1C2 are described here. After four or five pannings, colony immunoscreening with ALl 1C2 allowed the isolation of positive clones that are specific for this monoclonal antibody. Four different sequences were determined on isolated phages, three of which are cysteine-constrained peptides in fusion with PVIII and one is a hexapeptide in fusion with PIII. In the case of the peptides containing two cysteines, the binding to ALllC2 was shown to be dependent on the presence of a disulfide bridge. The recombinant phages were also shown to inhibit the binding of ALl 1C2 to its natural antigen in a competitive ELISA assay.
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