Genes Regulating Touch Cell Development in Caenorhabditis elegans

Genes Regulating Touch Cell Development in Caenorhabditis elegans

Hongping Du^a and Martin Chalfie^a
^a Department of Biological Sciences, Columbia University, New York, New York 10027

Corresponding author: Martin Chalfie, Department of Biological Sciences, 1012 Fairchild Ctr., MC#2446, Columbia University, 1212 Amsterdam Ave., New York, NY 10027., mc21{at}columbia.edu (E-mail)

Communicating editor: P. ANDERSON

To identify genes regulating the development of the six touchreceptor neurons, we screened the F₂ progeny of mutated animalsexpressing an integrated mec-2::gfp transgene that is expressedmainly in these touch cells. From 2638 mutated haploid genomes,we obtained 11 mutations representing 11 genes that affectedthe production, migration, or outgrowth of the touch cells.Eight of these mutations were in known genes, and 2 definednew genes (mig-21 and vab-15). The mig-21 mutation is the firstknown to affect the asymmetry of the migrations of Q neuroblasts,the cells that give rise to two of the six touch cells. vab-15is a msh-like homeobox gene that appears to be needed for theproper production of touch cell precursors, since vab-15 animalslacked the four more posterior touch cells. The remaining touchcells (the ALM cells) were present but mispositioned. A similartouch cell phenotype is produced by mutations in lin-32. A moresevere phenotype; i.e., animals often lacked ALM cells, wasseen in lin-32 vab-15 double mutants, suggesting that thesegenes acted redundantly in ALM differentiation. In additionto the touch cell abnormalities, vab-15 animals variably exhibitembryonic or larval lethality, cell degenerations, malformationof the posterior body, uncoordinated movement, and defectiveegg laying.

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