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Vol. 14, No. 19, pp. 2472-2485, October 1, 2000
Department of Biology and Volen Center for Complex Systems, Brandeis
University, Waltham, Massachusetts 02454, USA
Caenorhabditis elegans responds to its complex chemical
environment using a small number of chemosensory neurons. Each of these
neurons exhibits a unique sensory response repertoire. The developmental mechanisms that generate this diversity of function are
largely unknown. Many C. elegans chemosensory neurons,
including the AWA and ASG neurons, arise as lineal sisters of an
asymmetric division. Here we describe the gene unc-130, which
plays a role in the generation of the AWA and ASG neurons. In
unc-130 mutants, the ASG neurons adopt the fate of the AWA
neurons. unc-130 encodes a member of the forkhead domain family
of transcription factors, and is expressed in the precursors to AWA and
ASG neurons. Misexpression of unc-130 in the AWA neurons is
partly sufficient to repress the AWA fate, but not to promote ASG fate.
unc-130 also plays a role in the development of additional
chemosensory neurons. Our experiments show that the ASG neurons share a
developmental default state in common with three types of olfactory
neurons. We propose that distinct cell fates and hence diversity of
function in the chemosensory neurons of C. elegans are
generated in a hierarchical manner, utilizing both lineage-dependent
and independent mechanisms.
[Key Words: Caenorhabditis elegans; chemosensory neuron; asymmetric division; forkhead]
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