Antigen-receptor genes of the agnathan lamprey are assembled by a process involving copy choice

Jawless vertebrates have acquired immunity but do not have immunoglobulin-type antigen receptors. Variable lymphocyte receptors (VLRs) have been identified in lamprey that consist of multiple leucine-rich repeat (LRR) modules. An active VLR gene is generated by the assembly of a series of variable gene segments, including many that encode LRRs. Stepwise assembly of the gene segments seems to occur by replacement of the intervening DNA between the 5' and 3' constant-region genes. Here we report that lamprey (Lethenteron japonicum) assemble their VLR genes by a process involving 'copy choice'. Regions of short homology seemed to prime copying of donor LRR-encoding sequences into the recipient gene. Those LRR-encoding germline sequences were abundant and shared extensive sequence homologies. Such genomic organization permits initiation of copying anywhere in an LRR-encoding module for the generation of various hybrid LRRs. Thus, a vast repertoire of recombinant VLR genes could be generated not only by copying of various LRR segments in diverse combinations but also by the use of multiple sites in an LRR gene segment for priming.