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The Divergent Orphan Nuclear Receptor ODR-7 Regulates Olfactory Neuron Gene Expression via Multiple Mechanisms in Caenorhabditis elegans
Marc E. Colosimoa, Susan Trana, and Piali Senguptaaa Department of Biology and Volen Center for Complex Systems, Brandeis University, Waltham, Massachusetts 02454
Corresponding author: Piali Sengupta, Brandeis University, 415 South St., Waltham, MA 02454., sengupta{at}brandeis.edu (E-mail)
Communicating editor: P. ANDERSON
270 nuclear receptors of which >250 are unique to nematodes. ODR-7 is the only member of this large divergent family whose functions have been defined genetically. ODR-7 is expressed in the AWA olfactory neurons and specifies AWA sensory identity by promoting the expression of AWA-specific signaling genes and repressing the expression of an AWC-specific olfactory receptor gene. To elucidate the molecular mechanisms of action of a divergent nuclear receptor, we have identified residues and domains required for different aspects of ODR-7 function in vivo. ODR-7 utilizes an unexpected diversity of mechanisms to regulate the expression of different sets of target genes. Moreover, these mechanisms are distinct in normal and heterologous cellular contexts. The odr-7 ortholog in the closely related nematode C. briggsae can fully substitute for all ODR-7-mediated functions, indicating conservation of function across 25–120 million years of divergence.