Of the 12 full-length feline leukocyte antigen class I (FLAI) loci, 3 are presumed to be classical: FLAI-E, FLAI-H, and FLAI-K. As diversity is a class Ia hallmark, multi-allelism is an important surrogate supporting a classical designation, in the absence of direct demonstration of T-cell restriction. Conversely, limited polymorphism at an expressed locus suggests regulation of immune effectors with invariant receptors, and non-classical status. FLAI-A, FLAI-J, FLAI-L, and FLAI-O are putative class Ib genes in cats. For both classes, identifying prevalent variants across outbred populations can illuminate specific genotypes to be prioritized for immune studies, as shared alleles direct shared responses. Since variation is concentrated in exons 2 and 3, which encode the antigen-binding domains, partial-length cloning/sequencing can be used for allele discovery, but is laborious and occasionally ambiguous. Here we develop a targeted approach to FLAI genotyping, using the single-molecule real-time (SMRT) platform, which allows full-length (3.4-kb) reads without assembly. Consensus sequences matched full-length Sanger references. Thirty-one new class Ia genes were found in 17 cats. Alleles segregated strongly by loci, and the origins of formerly difficult-to-assign sequences were resolved. Although not targeted, FLAI-L and FLAI-J, and the pseudogene FLAI-F, were also returned. Eighteen class Ib alleles were identified. Diversity was restricted and outside hypervariable regions. Both class Ib genes were transcriptionally active. Novel alternative splicing of FLAI-L was observed. SMRT sequencing of FLAI amplicons is useful for full-length genotyping at feline class Ia loci. High-throughput sequencing could allow highly accurate allele surveys in large cat cohorts.
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