Expression studies with FRDA-EGFP fusion constructs will facilitate delineation of regulatory elements determining the tissue and developmental specificity of FRDA gene expression. These constructs should also facilitate screening for pharmacological compounds that can modulate the expression of the FRDA gene in a clinically relevant manner.
The Babesia bovis antigen 12D3 was analysed to identify potential T-cell epitopes. Two predictive algorithms identified 13 possible sites but there was minimal agreement between the different predictive methods. Experimental determination of the T-cell epitopes recognized by nine cattle was achieved using a panel of overlapping peptides which identified seven different epitopes, five of which were clustered together around residues 210-320 of the molecule. No T cell epitopes were located within the tightly disulphide bonded core of 12D3. Using a series of truncated peptides, the location of two of the epitopes was mapped to residues 35-43 and 266-275. The sequences of these two epitopes was compared with a database of previously described binding motifs for MHC II alleles and each epitope was found to contain three sequence motifs recognized by HLA-DR alleles. The BoLA-DRB3 alleles occurring in these cattle were determined by a sequence specific oligonucleotide hybridization assay. Within those cattle whose T cells proliferated in response to 12D3, there was a consistent pattern of epitope recognition and presence of particular DRB3 alleles. The implications for effective vaccine design are discussed.
A sample of 52 mixed-breed dairy cattle (Holstein Friesian and Jersey) and 51 beef cattle (Hereford) from south-east Queensland was studied. The second exon of BOLA-DRB3 was amplified by polymerase chain reaction (PCR), and polymorphisms were detected by heteroduplex analysis. A large number of different heteroduplex patterns indicated extensive sequence polymorphism. Direct sequencing of PCR products from 1 7 homozygotes and cloning and sequencing of PCR product from two heterozygotes resulted in the identification and characterization of four novel alleles. The previously described allele BoLA-DRB3* 2A is characterized by an amino acid deletion at position 65. We have identified three animals that are homozygous for this amino acid deletion, indicating that the deletion is unlikely to result in loss of function. Two of these animals had allele BoLA-DRB3*2A, and one had a novel allele with codon 65 deleted hut differing from BoLA-DRB3*2A at a number of other amino acid positions. In conclusion, heteroduplex analysis allows rapid discrimination between homozygotes and heterozygotes, and enables rapid identification of new BOLA-DRB3 alleles.
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