Add to ORKGAsymmetric cell divisions produce new cell types during animal development. Studies in Caenorhabditis elegans have identified major signal-transduction pathways that determine the polarity of cell divisions. How these relatively few conserved pathways interact and what modulates them to ensure the diversity of multiple tissue types is an open question. The Wnt/β-catenin asymmetry pathway governs polarity of the epidermal T seam cell in the C. elegans tail. Here, we show that the asymmetry of T-seam-cell division and morphogenesis of the male sensory rays require NHR-25, an evolutionarily conserved nuclear receptor. NHR-25 ensures the neural fate of the T-seam-cell descendants in cooperation with the Wnt/β-catenin asymmetry pathway. Loss of ...
AbstractMutations in tcl-2 cause defects in the specification of the fates of the descendants of the...
AbstractDishevelleds are modular proteins that lie at the crossroads of divergent Wnt signaling path...
Transcription factors are key players in gene networks controlling cell fate specification during de...
Asymmetric cell divisions produce new cell types during animal development. Studies in Caenorhabditi...
Summaryβ-Catenin signaling determines the proximal-distal axis of the C. elegans gonad by promoting ...
Summaryβ-Catenin signaling determines the proximal-distal axis of the C. elegans gonad by promoting ...
A correct balance between proliferative and asymmetric cell divisions underlies normal development, ...
A correct balance between proliferative and asymmetric cell divisions underlies normal development, ...
AbstractMetazoan stem cells repopulate tissues during adult life by dividing asymmetrically to gener...
SummaryIn C. elegans, Wnt signaling regulates a number of asymmetric cell divisions. During telophas...
AbstractThe polarities of several cells that divide asymmetrically during Caenorhabditis elegans dev...
SummaryHow asymmetric divisions are connected to the terminal differentiation program of neuronal su...
The orientation of asymmetric cell division contributes to the organization of cells within a tissue...
SummaryAsymmetric cell division is a mechanism for achieving cellular diversity. In C. elegans, many...
C. elegans, with its invariant cell lineage, provides a powerful model system in which to study sign...
AbstractMutations in tcl-2 cause defects in the specification of the fates of the descendants of the...
AbstractDishevelleds are modular proteins that lie at the crossroads of divergent Wnt signaling path...
Transcription factors are key players in gene networks controlling cell fate specification during de...
Asymmetric cell divisions produce new cell types during animal development. Studies in Caenorhabditi...
Summaryβ-Catenin signaling determines the proximal-distal axis of the C. elegans gonad by promoting ...
Summaryβ-Catenin signaling determines the proximal-distal axis of the C. elegans gonad by promoting ...
A correct balance between proliferative and asymmetric cell divisions underlies normal development, ...
A correct balance between proliferative and asymmetric cell divisions underlies normal development, ...
AbstractMetazoan stem cells repopulate tissues during adult life by dividing asymmetrically to gener...
SummaryIn C. elegans, Wnt signaling regulates a number of asymmetric cell divisions. During telophas...
AbstractThe polarities of several cells that divide asymmetrically during Caenorhabditis elegans dev...
SummaryHow asymmetric divisions are connected to the terminal differentiation program of neuronal su...
The orientation of asymmetric cell division contributes to the organization of cells within a tissue...
SummaryAsymmetric cell division is a mechanism for achieving cellular diversity. In C. elegans, many...
C. elegans, with its invariant cell lineage, provides a powerful model system in which to study sign...
AbstractMutations in tcl-2 cause defects in the specification of the fates of the descendants of the...
AbstractDishevelleds are modular proteins that lie at the crossroads of divergent Wnt signaling path...
Transcription factors are key players in gene networks controlling cell fate specification during de...