Abstract
Whole-genome shotgun (WGS) sequencing has become a routine method in genome research over the past decade. However, the assembly of highly polymorphic regions in WGS projects remains a challenge, especially for large genomes. Employing BAC library constructing, PCR screening and Sanger sequencing, traditional strategy is laborious and expensive, which hampers research on polymorphic genomic regions. As one of the most highly polymorphic regions, the major histocompatibility complex (MHC) plays a central role in the adaptive immunity of all jawed vertebrates. In this study, we introduced an efficient procedure based on recombination screening and short-reads assembly. With this procedure, we constructed a high quality 488-kb region of crested ibis MHC that consists of 3 superscaffolds and contains 50 genes. Our sequence showed comparable quality (97.29% identity) to traditional Sanger assembly, while the workload was reduced almost 7 times. Comparative study revealed distinctive features of crested ibis by exhibiting the COL11A2-BLA-BLB-BRD2 cluster and presenting both ADPRH and odorant receptor (OR) gene in the MHC region. Furthermore, the conservation of the BF-TAP1-TAP2 structure in crested ibis and other vertebrate lineages is interesting in light of the hypothesis that coevolution of functionally related genes in the primordial MHC is responsible for the appearance of the antigen presentation pathways at the birth of the adaptive immune system.
Highlights
The major histocompatibility complex (MHC) is involved in immunity defenses and mate choice in all jawed vertebrates [1, 2]
Based on the sequence of PCR production in the positive pool, a recombinant cassette was designed for each target site (S2 Table)
Featured by recombination isolation and a short-read assembly, the clone-based sequence and assembly (CSA) strategy introduced in the study is much more efficient than traditional solutions
Summary
The major histocompatibility complex (MHC) is involved in immunity defenses and mate choice in all jawed vertebrates [1, 2]. Increasing evidence has indicated that individuals make mating choices with respect to MHC. In order to produce offspring with stronger immune system, females tend to mate with males who carrying genetically different alleles or some specific advantage alleles [3,4,5]. Characterized by high polymorphism, large allelic differences, repeatrich and GC-rich, MHC is recognized as one of the most complex genomic regions. PLOS ONE | DOI:10.1371/journal.pone.0168744 December 20, 2016
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