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. 1999 Feb;151(2):617–631. doi: 10.1093/genetics/151.2.617

Genetic and molecular analysis of fox-1, a numerator element involved in Caenorhabditis elegans primary sex determination.

M Skipper 1, C A Milne 1, J Hodgkin 1
PMCID: PMC1460491  PMID: 9927456

Abstract

fox-1 was previously identified as a candidate numerator element based on its overexpression phenotype. FOX-1 is an RRM-type RNA-binding protein, which can bind RNAs in vitro. Western analysis detects FOX-1 throughout development. fox-1::lacZ comes on ubiquitously early during embryogenesis. Postembryonically, fox-1::lacZ is expressed sex specifically in a subset of cells in the head and tail. We describe a Tc1-derived deletion allele [fox-1(Delta)] that removes the RRM domain. fox-1(Delta) confers no phenotype in XXs, but can rescue XO-specific lethality and feminization caused by duplications of the left end of the X. fox-1(Delta) synergizes with putative numerators, resulting in abnormal XX development. Genetic analysis indicated that fox-1(Delta) leads to a slight increase in xol-1 activity, while fox-1(gf) leads to partial loss of xol-1 activity, and xol-1 is epistatic to fox-1. RNase protection experiments revealed increased levels of the 2.2-kb xol-1 message in fox-1(Delta) animals, and reduced levels in fox-1(gf) animals. Additionally, fox-1(Delta) impairs male mating efficiency, which, we propose, represents another function of fox-1, independent of xol-1 and its role in sex determination.

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Selected References

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