Silk moth chorion pseudogenes: hallmarks of genomic evolution by sequence duplication and gene conversion

Abstract

The part of the genetic locus of the domesticated silk moth, Bombyx mori, in which high cysteine (Hc) chorion genes of late developmental specificity reside contains regions encompassing gene-like sequences which exhibit properties distinct from those of functional Hc genes. One of these regions has been characterized and shown to contain a chorion pseudogene, psi HcB.15, which shares pronounced similarities with a transcribed chorion pseudogene, psi HcB.12/13, which was characterized previously. Both pseudogenes are homologous to HcB chorion genes but bear multiple single nucleotide substitutions and short segmental mutations (insertions and deletions) which introduce translational frame shifts and termination codons in the coding regions. Structural characteristics unique to the two pseudogenes suggest that psi HcB.15 was generated first from a functional HcB gene and gave rise subsequently to psi HcB 12/13 as a result of a sequence duplication event. The two pseudogenes can be distinguished from each other by the presence of distinct regions of similarity to the consensus sequence of functional HcB genes which appear to have arisen from gene-conversion-mediated correctional events. These findings lend support to the hypothesis that chorion pseudogene sequences represent reservoirs of genetic information that participates in the evolution of the chorion locus rather than relics of inactivated genes passively awaiting extinction.