Identification of highly conserved genes: SNZ and SNO in the marine sponge Suberites domuncula : their gene structure and promoter activity in mammalian cells 1The sequences reported here are deposited in the EMBL data base; the Suberites domuncula gene encoding the SDSNZERR (accession No. AJ277952), the SDSNO gene (AJ277953) as well as the SDSNOc cDNA (AJ277954). 1

Recently, we reported that cells from the sponge Suberites domuncula respond to ethylene with an increase in intracellular Ca 2+ level [Ca 2+ ] i, and with an upregulation of the expression of (at least) two genes, a Ca 2+ /calmodulin-dependent protein kinase and the potential ethylene-responsive gene, termed SDSNZERR (A. Krasko, H.C. Schröder, S. Perovic, R. Steffen, M. Kruse, W. Reichert, I.M. Müller, W.E.G. Müller, J. Biol. Chem. 274 (1999)). Here, we describe for the first time that also mammalian (3T3) cells respond to ethylene, generated by ethephon, with an immediate and transient, strong increase in [Ca 2+ ] i. Next, the promoter for the sponge SDSNZERR gene was isolated from S. domuncula. It was found that the SDSNZERR gene is positioned adjacent to the SNZ -related gene (SNZ-proximal open reading frame) ( SDSNO ) and linked, as in Saccharomyces cerevisiae, in a head-to-head manner. Until now, neither homologues nor orthologues of these two genes have been identified in higher metazoan phyla. The full-length genes share a bidirectional promoter. 3T3 cells were transfected with this promoter; the activity of the SDSNZERR promoter was strong and twice as high as that of the SV40 promoter, while the SDSNO promoter was less active. Surprisingly, the activity of the SDSNZERR promoter could not be modulated by ethylene or salicylic acid while it is strongly upregulated, by 4-fold, under serum-starved conditions. It is concluded that the modulation of the level of [Ca 2+ ] i by ethylene in mammalian cells is not correlated with an upregulation of the ethylene-responsive gene SDSNZERR. The data indicate that in mammalian cells, the activity of the SDSNZERR promoter is associated with the repression of serum-mediated growth arrest.