Molecular Cloning and Characterization of the Mouse Dopamine D3Receptor Gene: An Additional Intron and an mRNA Variant

Abstract

The intron-exon organization for the murine dopamine D₃ receptor gene was determined. A novel intron of approximately 1 kb was identified in both rat and mouse D₃ receptor genes. This intron (termed intron 4) is situated between coding nucleotides 723 and 724, resulting in a split of former exon 4 (containing nucleotides 527–801) into two separate exons (exon 4 and exon 5). Thus, the coding regions of the D₂ and D₃ receptor genes contain an identical number of exons (seven exons) and share a very similar gene structure. Reverse transcription-PCR experiments revealed a short form of mouse D₃ mRNA (D_3Short) that lacks the first 63 nucleotides from exon 6, and results from a splicing event occurring within this exon. However, this mRNA variant was not found in either rat or human brain. No dopamine D₃ receptor mRNA variants were found deriving from the alternative splicing of exon 5, although its counterpart, exon 6 in the D₂ receptor gene, is spliced out to produce the D_2Short mRNA. These data suggest that, although the intron-exon organizations of the D₂ and D₃ receptor genes are similar, the encoded transcripts may be processed differently.