Characterization of three splice variants and genomic organization of the mouse BMAL1 gene.

The BMAL1 gene encodes a member of the basic helix-loop-helix/PER-ARNT-SIM (bHLH/PAS) family of transcription factors. It is a key regulator of circadian rhythms. Using sequence information from human BMAL1 (hBMAL1) cDNAs previously reported by our laboratory, we have isolated and characterized cDNAs encoding three splice variants of the mouse BMAL1 (mBMAL1) gene. Of the three splice variants, mBMAL1b extends for 1878 bp in the coding sequence, which is 91% identical to that of hBMAL1b; its deduced amino acid sequence is 626 residues long and is 98% identical to that of hBMAL1b, and sequence identities in the bHLH, PAS-A, and PAS-B regions are 98, 100, and 100%, respectively. mBMAL1b' arises from alternative usage of exon 2, which results in a 7-amino-acid insertion and alternative splice acceptor usage at the intron 9/exon 10 splice junction, which causes an alanine residue deletion. mBMAL1b' encodes 632 amino acids and contains the bHLH/PAS domains. mBMAL1g' is generated by alternative splice acceptor usage at the intron 6/exon 7 splice junction, which results in a 28-bp deletion adjacent to the 5' end of the PAS domain. Since the 28-bp deletion shifts the reading frame, mBMAL1g' is predicted to encode a product of only 222 amino acids that lacks the PAS domain. The tissue distributions of the three splice variants showed some variation. The variations in the tissue distributions and predicted amino acid sequences suggest that the three splice variants may have different functions. Direct sequencing of the genomic mBMAL1 clones indicated that the coding sequence of mBMAL1 spans 32 kb and includes 17 exons. An unusual exon/intron donor sequence was found in intron 14, which begins with GC at the 5' end. Comparison with the bHLH/PAS family genes revealed that the intron/exon splice pattern of mBMAL1 most closely matches that of the mAhr, which suggests that BMAL1 and Ahr belong to the same subclass and may be derived from a common primordial gene. Copyright 1999 Academic Press.