부산대학교 도서관

The characterization of genetic risk factors for complex diseases located on chromosome-6 frequently requires human leucocyte antigen (HLA) genotyping of large patient cohorts. Currently available methods do not support high-throughput HLA typing beyond the major allele group level. We, thus, developed a high-throughput approach for the HLA-DQB1 and HLA-DRB1 loci that is based on PyrosequencingTM. PyrosequencingTM offers a higher degree of automation than direct sequencing or oligotyping. Using a dispensation order optimized for the particular HLA locus, rapid group typing and fine resolution can be achieved. We implemented the method for two important HLA loci– DQB1 and DRB1. The HLA-DQB1 typing method comprises the following steps: splitting the potential alleles after a generic polymerase chain reaction (PCR) amplification into groups with a first PyrosequencingTM reaction and resolving the split allele groups by means of five further PyrosequencingTM reactions. The HLA-DR gene family is known to be the most polymorphic one in the HLA class-II region because of a large number of DRB1 alleles. Because of this complex nature, HLA-DRB1 typing was performed by means of a combination of sequence-specific PCR typing and PyrosequencingTM. HLA-DQB1 typing and HLA-DRB1 typing were performed successfully by using standard DNA samples with the help of known HLA genotypes and in a blind study by using the samples from the Deutscher Zell Austausch 2002 and 2003. The approach was optimized and was practically tested for genotyping in disease association studies. Our well-elaborated PyrosequencingTM-based protocols offer a new alternative to the existing HLA class-II typing methods and represent a convenient and economic solution, a unique combination of high accuracy with high-sample throughput. [ABSTRACT FROM AUTHOR]