Add to ORKGIn the Caenorhabditis elegans germline, proliferation is induced by Notch-type signaling. Entry of germ cells into meiosis is triggered by activity of the GLD-1 and GLD-2 pathways, which function redundantly to promote meiosis and/or inhibit proliferation. Activation of the germline Notch-type receptor, GLP-1, ultimately inhibits the activities of the GLD-1 and GLD-2 pathways. We previously identified several ego (enhancer of glp-1) genes that promote germline proliferation and interact genetically with the GLP-1 signaling pathway. Here, we show that atx-2 is an ego gene. Our data suggest that ATX-2 is not a positive regulator of the GLP-1 signaling pathway and GLP-1 signaling is not the sole positive regulator of ATX-2 activity. Moreover, ...
The glp-1 gene is essential for two cell interactions that control cell fate in Caenorhabditis elega...
Many tissues contain multipotent stem cells that are critical for maintaining tissue function. In Ca...
Background: Cell-fate determination requires that cells choose between alternative developmental pat...
Caenorhabditis elegans EGO-1, a putative cellular RNA-directed RNA polymerase, promotes several aspe...
AbstractAn important event in the development of the germline is the initiation of meiotic developme...
The distal tip cell (DTC) regulates the proliferation or differentiation choice in the Cmorhabditis ...
In Caenorhabditis elegans, as in other animals, Notch-type signaling mediates numerous inductive eve...
Notch-type signaling plays a fundamental role in regulating the development of metazoans. In the gon...
AbstractInteractions between the somatic gonad and the germ line influence the amplification, mainte...
Cell-cell interactions control many cell fate choices during the development of multicellular organi...
The Caenorhabditis elegansgene gld-1 is essential for oocyte development; in gld-1 (null) hermaphrod...
Signaling between cells is required for the proper specification of cell fate during the development...
AbstractWe investigated the control of proliferation and differentiation in the larval Caenorhabditi...
In the C. elegans germline, stem cells make a decision to retain the germline proliferative cell fat...
AbstractMaintenance of mitotically cycling germline stem cells (GSCs) is vital for continuous produc...
The glp-1 gene is essential for two cell interactions that control cell fate in Caenorhabditis elega...
Many tissues contain multipotent stem cells that are critical for maintaining tissue function. In Ca...
Background: Cell-fate determination requires that cells choose between alternative developmental pat...
Caenorhabditis elegans EGO-1, a putative cellular RNA-directed RNA polymerase, promotes several aspe...
AbstractAn important event in the development of the germline is the initiation of meiotic developme...
The distal tip cell (DTC) regulates the proliferation or differentiation choice in the Cmorhabditis ...
In Caenorhabditis elegans, as in other animals, Notch-type signaling mediates numerous inductive eve...
Notch-type signaling plays a fundamental role in regulating the development of metazoans. In the gon...
AbstractInteractions between the somatic gonad and the germ line influence the amplification, mainte...
Cell-cell interactions control many cell fate choices during the development of multicellular organi...
The Caenorhabditis elegansgene gld-1 is essential for oocyte development; in gld-1 (null) hermaphrod...
Signaling between cells is required for the proper specification of cell fate during the development...
AbstractWe investigated the control of proliferation and differentiation in the larval Caenorhabditi...
In the C. elegans germline, stem cells make a decision to retain the germline proliferative cell fat...
AbstractMaintenance of mitotically cycling germline stem cells (GSCs) is vital for continuous produc...
The glp-1 gene is essential for two cell interactions that control cell fate in Caenorhabditis elega...
Many tissues contain multipotent stem cells that are critical for maintaining tissue function. In Ca...
Background: Cell-fate determination requires that cells choose between alternative developmental pat...