Genetic Analysis of Caenorhabditis elegans glp-1 Mutants Suggests Receptor Interaction or Competition

Genetic Analysis of Caenorhabditis elegans glp-1 Mutants Suggests Receptor Interaction or Competition

Anita S.-R. Pepper^a, Darrell J. Killian^a, and E. Jane Albert Hubbard^a
^a Department of Biology, New York University, New York, New York 10003

Corresponding author: E. Jane Albert Hubbard, New York University, 1009 Silver Center, 100 Washington Sq. E., New York, NY 10003., jane.hubbard{at}nyu.edu (E-mail)

Communicating editor: B. J. MEYER

glp-1 encodes a member of the highly conserved LIN-12/Notchfamily of receptors that mediates the mitosis/meiosis decisionin the C. elegans germline. We have characterized three mutationsthat represent a new genetic and phenotypic class of glp-1 mutants,glp-1(Pro). The glp-1(Pro) mutants display gain-of-functiongermline pattern defects, most notably a proximal proliferation(Pro) phenotype. Each of three glp-1(Pro) alleles encodes asingle amino acid change in the extracellular part of the receptor:two in the LIN-12/Notch repeats (LNRs) and one between the LNRsand the transmembrane domain. Unlike other previously describedgain-of-function mutations that affect this region of LIN-12/Notchfamily receptors, the genetic behavior of glp-1(Pro) allelesis not consistent with simple hypermorphic activity. Instead,the mutant phenotype is suppressed by wild-type doses of glp-1.Moreover, a trans-heterozygous combination of two highly penetrantglp-1(Pro) mutations is mutually suppressing. These resultslend support to a model for a higher-order receptor complexand/or competition among receptor proteins for limiting factorsthat are required for proper regulation of receptor activity.Double-mutant analysis with suppressors and enhancers of lin-12and glp-1 further suggests that the functional defect in glp-1(Pro)mutants occurs prior to or at the level of ligand interaction.

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