CRAL_TRIO domain proteins are known to bind small lipophilic molecules such as retinal, inositol and Vitamin E and include such gene family members as PINTA, α-tocopherol transfer (ATT) proteins, retinoid binding proteins, and clavesins. In insects, very little is known about either the molecular evolution of this family of proteins or their ligand specificity. Here we characterize insect CRAL_TRIO domain proteins and present the first insect CRAL_TRIO protein phylogeny constructed by performing reciprocal BLAST searches of the reference genomes of Drosophila melanogaster, Anopheles gambiae, Apis mellifera, Tribolium castaneum, Bombyx mori, Manduca sexta and Danaus plexippus. We find several highly conserved amino acid residues in the CRAL_TRIO domain-containing genes across insects and a gene expansion resulting in more than twice as many gene family members in lepidopterans than in other surveyed insect species, but no lepidopteran homolog of the PINTA gene in Drosophila. In addition, we examined the expression pattern of CRAL_TRIO domain genes in Manduca sexta heads using RNA-Seq data. Of the 42 gene family members found in the M. sexta reference genome, we found 30 expressed in the head tissue with similar expression profiles between males and females. Our results suggest this gene family underwent a large expansion in lepidopteran, making the lepidopteran CRAL_TRIO domain family distinct from other holometabolous insect lineages.