Kathleen C. Barracchini scite author profile

Sequence-based typing (SBT) is one of the most comprehensive methods utilized for HLA typing. However, one of the inherent problems with this typing method is the interpretation of ambiguous allele combinations which occur when two or more different allele combinations produce identical sequences. The purpose of this study is to investigate the probability of this occurrence. We performed HLA-A,-B SBT for Exons 2 and 3 on 676 donors. Samples were analyzed with a capillary sequencer. The racial distribution of the donors was as follows: 615-Caucasian, 13-Asian, 23-African American, 17-Hispanic and 8-Unknown. 672 donors were analyzed for HLA-A locus ambiguities and 666 donors were analyzed for HLA-B locus ambiguities. At the HLA-A locus a total of 548 total ambiguous allele combinations were identified (548/1344 = 41%). Most (278/548 = 51%) of these ambiguities were due to the fact that Exon 4 analysis was not performed. At the HLA-B locus 322 total ambiguous allele combinations were found (322/1332 = 24%). The HLA-B*07/08/15/27/35/44 antigens, common in Caucasians, produced a large portion of the ambiguities (279/322 = 87%). A large portion of HLA-A and B ambiguous allele combinations can be addressed by utilizing a group-specific primary amplification approach to produce an unambiguous homozygous sequence. Therefore, although the prevalence of ambiguous allele combinations is high, if the resolution of these ambiguities is clinically warranted, methods exist to compensate for this problem.

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Differences in Frequency Distribution of HLA-A2 Subtypes Between North American and Italian White Melanoma Patients: Relevance for Epitope Specific Vaccination Protocols

Player

Barracchini²,

Simonis³

et al. 1996

Journal of Immunotherapy

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High Throughput Hla Sequence-Based Typing (Sbt) Utilizing the Abi Prism® 3700 Dna Analyzer

Adams

Barracchini

Simonis

et al. 2001

Tumori

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Aims and background The genetic complexity of the human major histocompatibility complex (MHC) has required the development of various molecular typing methods. The purpose of this paper is to compare the results of two of these molecular methods: sequenced based typing (SBT) and polymerase chain reaction (PCR) using sequence specific primers (PCR-SSP). Methods The SBT method described utilizes an ABI Prism® 3700 DNA Analyzer, which has been designed fro high throughput production of sequence data through highly automated operation with significant walk-away time. The ABI Prism® 3700 DNA Analyzer is a 96-capillary electrophoresis instrument with the capability of running four 96-well plates black to back in a sixteen-hour period. Potentially, data from this machine can produce Class I sequences for A or B loci for 64 samples in this time frame. The SBT method encompassed exons 2, 3, and 4 with forward and reverse sequence orientation reactions using the PE Biosystems HLA-A and HLA-B Sequenced Based Typing Kits (PE Applied Biopsystems/Perkin-Elmer, Foster City, CA, USA). Most SBT methods previously employed only gather data from exons 2 and 3 which distinguishes most of the polymorphism necessary to identify the majority of alleles in the HLA region. However, in an effort to discern numerous null alleles in the HLA region, exon 4 data is also included. The PCR-SSP method utilized consists of one 96 well tray, with 95 primer mixes and one negative control, per sample designed to produce an intermediate/high resolution HLA-A, B typing. Results Data from one 96-well capillary run on the ABI Prism® 3700 DNA Analyzer, which consists of results from 16 samples for HLA-A or HLA-B loci, was compared to data derived from sixteen HLA-A and HLA-B PCR-SSP typings. 75% of loci tested achieved a higher resolution HLA typing by the SBT method. Discussion The ability to provide allele level HLA typing results can have significant functional implications for the bone marrow transplant community and numerous vaccine studies.

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HLA antigens in childhood onset schizophrenia

Jacobsen

Mittleman

Kumra

et al. 1998

Psychiatry Research

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KEL6 and KEL7 genotyping with sequence‐specific primers

et al. 2006

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