Major histocompatibility complex genotyping with massively paralel pyrosequencing

Major histocompatibility complex genotyping with massively paralel pyrosequencing

Major histocompatibility complex (MHC) genetics dictate adaptive cellular immune responses, making robust MHC genotyping methods essential for studies of infectious disease, vaccine development and transplantation. Nonhuman primates provide essential preclinical models for these areas of biomedical...

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Veröffentlicht in:Nature medicine 2009-11, Vol.15 (11), p.1322
Hauptverfasser: Wiseman, Roger W, Karl, Julie A, Bimber, Benjamin N, O'Leary, Claire E, Lank, Simon M, Tuscher, Jennifer J, Detmer, Ann M, Bouffard, Pascal, Levenkova, Natalya, Turcotte, Cynthia L, Szekeres, Jr., Edward, Wright, Chris, Harkins, Timothy, O'Connor, David H
Format: Artikel
Sprache:eng
Schlagworte:
DNA sequencing
Genetic aspects
Health aspects
Immune response
Major histocompatibility complex
Methods
Nucleotide sequencing
Physiological aspects
Pyrophosphates
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Zusammenfassung:Major histocompatibility complex (MHC) genetics dictate adaptive cellular immune responses, making robust MHC genotyping methods essential for studies of infectious disease, vaccine development and transplantation. Nonhuman primates provide essential preclinical models for these areas of biomedical research. Unfortunately, given the unparalleled complexity of macaque MHCs, existing methodologies are inadequate for MHC typing of these key model animals. Here we use pyrosequencing of complementary DNA-PCR amplicons as a general approach to determine comprehensive MHC class I genotypes in nonhuman primates. More than 500 unique MHC class I sequences were resolved by sequence-based typing of rhesus, cynomolgus and pigtailed macaques, nearly half of which have not been reported previously. The remarkable sensitivity of this approach in macaques demonstrates that pyrosequencing is viable for ultra-high-throughput MHC genotyping of primates, including humans.
ISSN:1078-8956