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How do genetic programs create features common to a specific cell or tissue type while generating modifications necessary for functional diversification? We have addressed this question using the nematode Caenorhabditis elegans.The dorsal D (DD) and ventral D (VD) motomeurons (mns), referred to collectively as the D mns, compose a cross-inhibitory network that contributes to the animals sinuous locomotion.The D mns share a number of structural and functional features, but are distinguished from one another by their synaptic patterns and the expression of a neuropeptide gene.Our findings suggest that the similarities and differences are generated at the transcriptional level.UNC-30 contains a homeodomain and activates structural and functional genes expressed in both classes.UNC-55 is a nuclear receptor expressed in the VD mns that is necessary for generating features that distinguish the two classes of D mns from one another.In unc-55 mutants, the VD mns adopt the DD mn synaptic pattern and peptide expression profile.Conversely, ectopic expression of unc-55 in the DD mns causes them to adopt VD mn features.The promoters of the a neuropeptide gene and several other genes expressed in the DD mns contain putative binding sites for both UNC-30 and UNC-55; alteration of these sites suggests that UNC-55 represses the ability of UNC-30 to activate a subset of genes that are expressed in the DD mns but not in the VD mns.Thus UNC-55 acts as a switch for the features that distinguish these two functionally related classes ofmns.