Mouse type-2 retinaldehyde dehydrogenase (RALDH2): genomic organization, tissue-dependent expression, chromosome assignment and comparison to other types.

Retinaldehyde dehydrogenase (RALDH) isozymes catalyze the formation of an essential developmental modulator, retinoic acid. We determined the structural organization of mouse type-2 Raldh2 by isolation of overlapping genomic DNA clones from a phage library. The gene consists of 14 exons spanning more than 70 kb of genomic DNA. It was localized to mouse chromosome 6. Northern blot analysis revealed testis-specific expression. The RALDH genes belong to the aldehyde dehydrogenase (ALDH) multi-gene family. Three types of RALDH genes (e.g. human ALDH1/mouse Ahd2/rat RalDH(I), human ALDH11/mouse Raldh2/rat RalDH(II) and human ALDH6) are highly conserved during evolution, sharing about 70% identity at the amino acid level between any two gene types and 90% identity between any two mammalian genes of the same type. Different RALDH types show specific tissue and developmental expression patterns, suggesting (i) a regulatory mechanism of retinoic acid synthesis via different promoters of RALDH genes, and (ii) distinctive biological roles of different isozymes in embryogenesis and organogenesis.