Vertebrate pregnane X receptor (PXR, NR1I2), a ligand-activated nuclear receptor (NR), regulates expression of detoxification genes. Vertebrate PXR orthologs may adaptively evolve to bind deleterious/toxic xenobiotics typically encountered by organisms from their diet. Tunicates (phylum Chordata) are marine filter-feeders that form a sister clade to the Vertebrata. Genomes of two tunicate taxa, Ciona intestinalis and Botryllus schlosseri, encode at least two PXR orthologs (abbreviated VDR/PXRα and β). Here we report characterization of the transcript structures and sequence variation of three tunicate PXR orthologs: C. intestinalis VDR/PXRα and β, and B. schlosseri VDR/PXRα. The three predicted proteins consist of both DNA-binding (DBD) and ligand-binding (LBD) domains typical of NRs. The C. intestinalis VDR/PXRβ LBD may be significantly larger than that of the VDR/PXRα orthologs. In both tunicate taxa, the mRNAs were characterized by high frequencies of single nucleotide polymorphisms (SNPs, ca. 3 SNPs/100 base pairs). The majority of SNPs were synonymous and standard tests (Tajima's D, dN/dS ratios) indicated strong purifying selection. However, one base pair frameshift allelic variants were found in the C. intestinalis VDR/PXRα and β genes. The predicted proteins consisted of a DBD but lacked an LBD. The persistence of these variants may possibly reflect constitutive expression of detoxification genes as a selective advantage in the marine environment. These results provide a foundation for further investigations into the molecular evolution, population genetics and functioning of tunicate receptors involved in detection of marine bioactive compounds.
Keywords: Botryllus schlosseri; Ciona intestinalis; Marine Bioactives; Nuclear receptor; SNPs; Xenobiotics.
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