Extensive electrophysiological experiments on Aplysia neurons have resulted in an understanding of simple behaviors in terms of the activities of a single identified neurons. Beginning with the work of Kupfermann & Kandel, neuropeptides in Aplysia have become increasingly implicated as chemical agents that control or affect behavior. Several neuropeptides have been isolated and characterized; recently, the genes that code for several of these neuropeptides have been isolated. Studies of neuropeptide gene expression and the behaviors affected thereby have been bridged in the egg-laying hormone neuroendocrine system. The role of polyproteins in coordinating complex, fixed-action patterns is beginning to emerge. The continued investigation of this neuroendocrine system, and the other cell-specific polyproteins that have been characterized more recently, promises to yield further insights into the roles of neuropeptides in governing behavior.
Neuron L11 in the abdominal ganglion of Aplysia californica is thought to be both cholinergic and peptidergic. In previous studies, we isolated a cDNA clone encoding the precursor for an L11 secreted protein(s) by differentially screening an abdominal ganglion cDNA library. We now report the isolation of genomic clones encoding the L11 cDNA sequences. Analysis of these clones reveals that the gene is present in a single copy per haploid genome. RNA blotting and cDNA cloning demonstrate that the L11 gene is expressed not only in the abdominal ganglion but in the head ganglia as well. To define the positions of cells expressing this gene and to follow their processes, we raised antibodies to synthetic peptides defined by the cDNA sequence. Histochemistry revealed about 100 neurons containing immunoreactive material. These cells arborize in the neuropil and are distributed throughout the central nervous system, representing about 0.5% of the Aplysia central neurons. In addition, cells in the abdominal ganglion send processes to the mantle floor at the base of the gill via the genital and branchial nerves. Our data suggest that this network of cells expresses the single L11 peptide gene.
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