PAG-3, a Zn-finger transcription factor, determines neuroblast fate inC. elegans

Citations Over Time

Abstract

During Caenorhabditis elegans development, the patterns of cell divisions, cell fates and programmed cell deaths are reproducible from animal to animal. In a search for mutants with abnormal patterns of programmed cell deaths in the ventral nerve cord, we identified mutations in the gene pag-3, which encodes a zinc-finger transcription factor similar to the mammalian Gfi-1 and Drosophila Senseless proteins. In pag-3 mutants, specific neuroblasts express the pattern of divisions normally associated with their mother cells, producing with each reiteration an abnormal anterior daughter neuroblast and an extra posterior daughter cell that either terminally differentiates or undergoes programmed cell death, which accounts for the extra cell corpses seen in pag-3 mutants. In addition, some neurons do not adopt their normal fates in pag-3 mutants. The phenotype of pag-3 mutants and the expression pattern of the PAG-3 protein suggest that in some lineages pag-3 couples the determination of neuroblast cell fate to subsequent neuronal differentiation. We propose that pag-3 counterparts in other organisms determine blast cell identity and for this reason may lead to cell lineage defects and cell proliferation when mutated.

Related Papers

• → The multivulva phenotype of certain Caenorhabditis elegans mutants results from defects in two functionally redundant pathways.(1989)257 cited
• → MUTATIONS WITH DOMINANT EFFECTS ON THE BEHAVIOR AND MORPHOLOGY OF THE NEMATODE CAENORHABDITIS ELEGANS(1986)199 cited
• → A Limited Number of Caenorhabditis elegans Genes Are Readily Mutable to Dominant, Temperature-Sensitive Maternal-Effect Embryonic Lethality(1997)7 cited
• Anterior-Posterior Polarity in Caenorhabditis elegans: Establishment of Asymmetries at the One-Cell Stage and Beyond(2007)
• → The cell polarity protein aPKCl couples asymmetric divisions to cell fate decisions in the epidermal lineage(2012)