%0 Journal Article
%T Evolution of the sex-determination gene Doublesex within the termite lineage.
%A Fujiwara K
%A Miyazaki S
%A Maekawa K
%J Comp Biochem Physiol Part D Genomics Proteomics
%V 52
%N 0
%D 2024 Jul 22
%M 39067306
%F 3.306
%R 10.1016/j.cbd.2024.101297
%X The molecular mechanism of sex determination has long been considered conserved in insects. However, recent studies of hemimetabolous insects have challenged this notion. One notable example is termites. In Reticulitermes speratus, a homolog of sex determination gene, Doublesex (RsDsx), exhibits characteristics that are distinct from those of other insects, including sister-group cockroaches. It comprises a single exon, contains only doublesex/mab-3 DNA-binding domain (DM) but lacks a conserved oligomerization domain (OD), and exhibits transcriptional activity only in males. To investigate whether these characteristics are widespread within the termite lineage, we identified Dsx homologs in three different families. The absence of the conserved OD sequences was observed in all termite species examined, whereas the number of exons and expression patterns between sexes varied among families. Particularly, distinctive differences in Dsx were found in species from the Archotermopsidae and Kalotermitidae, both of which have a linear caste developmental pathway. Our findings indicate that diversification of Dsx structure and expression patterns may have contributed to ecological diversification, such as caste developmental pathways, within the termite lineage.