The identification of expression variants is a challenge in HLA diagnostics. We here describe the identification of the novel allele HLA-B*3565Q. The serological HLA class I type, as determined by a lymphocytotoxicity test, was A11,24; B38; Bw4; Cw-; whereas PCR-sequence-specific primers resulted in A*11,*24, B*35,*38; Cw*12, thus suggesting the presence of a nonexpressed B*35 allele. To clarify the lack of serological HLA-B35 reactivity, exons 2 and 3 were sequenced following haplotype-specific amplification. At position 564 from the beginning of the coding region (exon 3), a transversion (C-->G) was observed, which, at the amino acid level, results in a substitution from cysteine to tryptophane at position 164 of the mature polypeptide. Because this position is essential for the formation of a disulfide bond linking the cysteine residues at positions 101 and 164, which is strongly conserved in functional class I molecules of vertebrates, the disruption of this bond is very likely to be the reason for the lack of serological detectability. We later found the same novel allele in a second unrelated individual, of whom we were able to establish a lymphoblastoid cell line (B-LCL). Serological testing of this B-LCL indicated a very low aberrant expression of HLA-B*3565Q, which cannot be expected to be detected by standard serology techniques.
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