Resolving haplotype variation and complex genetic architecture in the human immunoglobulin kappa and lambda chain loci in individuals of diverse ancestry

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Presentation Time: 11:30 AM - 12:45 PM
Poster Board Number: B733
Abstract ID: 5749

Presenting Author:
Eric Engelbrecht , Graduate student at Univ. of Louisville Sch. of Med.

Abstract:

Immunoglobulins (IGs), critical components of the human immune system, are composed of heavy and light protein chains encoded at three genomic loci. The IG Kappa (IGK) chain locus consists of two large, inverted segmental duplications. The complexity of IG loci has hindered effective use of standard high-throughput methods for characterizing genetic variation within these regions. To overcome these limitations, we leverage long-read sequencing to create haplotype-resolved IGK assemblies in an ancestrally diverse cohort (n=36), representing the first comprehensive description of IGK haplotype variation. We identify extensive locus polymorphism, including novel single nucleotide variants (SNVs) and a common novel ∼24.7 Kbp structural variant harboring a functional IGKV gene. Among 47 functional IGKV genes, we identify 141 alleles, 64 (45.4%) of which were not previously curated. We report inter-population differences in allele frequencies for 14 IGKV genes, including alleles unique to specific populations within this dataset. In addition, we identify haplotypes carrying signatures of gene conversion that associate with enrichment of SNVs in the IGK distal region. Finally, we identify extensive polymorphism in the IG Lambda (IGL) locus, including copy number variation for genes encoding IGLC and IGLJ genes. These data lay a foundation for advancing our understanding of how genetic variation in IG loci impacts expressed antibody repertoires in human populations.