How the cell-specific gene expression is precisely controlled? To understand mechanism of the transcriptional regulation, we have taken a simple strategy. We have been trying to extract consensus regulatory sequence by comparing many upstream sequences, which share spatial and temporal expression pattern in a certain cell. There are a large number of GFP reporters that are known to show cell-specific expression in particular set of cells i n C. elegans. One can accordingly expect that the same transcription machinery might regulate the genes, which are expressed in a certain cell. We check the expression patterns of a series of deletion promoter::GFP reporters in transgenic worms, and identify minimal enhancer < /span>$B!H(Jcore$B!I(J for the cell-specific expression. Not all, but some cases, such a core should share the common (or similar) sequence, and most probably it would be the binding site for upstream transcription factor. We are currently collecting and analyzing head neuron-specific promoters. Thus far, we are narrowing down 7 promoters for the expression in the thermosensing neuron AFD; for example, 30 bp sequence of
gcy-8 (guanylyl cyclase), 120 bp sequence of
nhr-38 (nuclear hormone receptor), etc. Interestingly, in these sequences we have found binding consensus for the transcription factor OTX1, which has important roles for head development in fly and vertebrate. Eventually, it has been revealed that the
ttx-1 (OTX1 homolog of C. elegans) regulates both gcy- 8 and
nhr-38 expression in AFD (Satterlee et al. 2001). Systematic promoter analysis also demonstrated that some deletion cause ectopic expression in additional neurons. This observation suggests negative regulatory mechanism seems to participate in cell specific ation. Further analysis will be reported at the meeting. Ref.: J. S. Satterlee et al. Neuron 31: 943-956 (2001)