Add to ORKGUnderstanding how cell fate decisions are regulated is a fundamental goal of developmental and stem cell biology. Most studies on the control of cell fate decisions address the contributions of changes in transcriptional programming, epigenetic modifications, and biochemical differentiation cues. However, recent studies have found that other aspects of cell biology also make important contributions to regulating cell fate decisions. These cues can have a permissive or instructive role and are integrated into the larger network of signaling, functioning both upstream and downstream of developmental signaling pathways. Here, we summarize recent insights into how cell fate decisions are influenced by four aspects of cell biology: metabolism, r...
Correct and timely lineage decisions are critical for normal embryonic development and homeostasis o...
Cellular decision making is the process whereby cells assume different, functionally important and h...
SummaryCell fate decisions are fundamental for development, but we do not know how transcriptional n...
There is an increasing appreciation for the role of metabolism in cell signaling and cell decision m...
Abstract: Molecular oxygen has been known to play a critical role in a wide range of biological proc...
The maintenance of cellular identity requires continuous adaptation to environmental changes. This p...
Plasticity in energy metabolism allows stem cells to match the divergent demands of self-renewal and...
Accumulating evidence implicates mitochondrial and metabolic pathways in the establishment of plurip...
Transcriptional mechanisms of cell fate decisions revealed by single cell expression profiling Victo...
How organ morphogenesis specifies cell fate and whether organ progenitors are predetermined or speci...
The fundamental question of how an undifferentiated progenitor cell adopts a more specialized cell f...
Cell fate determination is a fundamental aspect of development and tissue homeostasis, orchestrated ...
Despite extensive knowledge about the transcriptional regulation of stem cell differentiation, less ...
Correct and timely lineage decisions are critical for normal embryonic development and homeostasis o...
© 2015 Elsevier Ltd. All rights reserved. Meticulous and precise control of organ size is undoubtedl...
Correct and timely lineage decisions are critical for normal embryonic development and homeostasis o...
Cellular decision making is the process whereby cells assume different, functionally important and h...
SummaryCell fate decisions are fundamental for development, but we do not know how transcriptional n...
There is an increasing appreciation for the role of metabolism in cell signaling and cell decision m...
Abstract: Molecular oxygen has been known to play a critical role in a wide range of biological proc...
The maintenance of cellular identity requires continuous adaptation to environmental changes. This p...
Plasticity in energy metabolism allows stem cells to match the divergent demands of self-renewal and...
Accumulating evidence implicates mitochondrial and metabolic pathways in the establishment of plurip...
Transcriptional mechanisms of cell fate decisions revealed by single cell expression profiling Victo...
How organ morphogenesis specifies cell fate and whether organ progenitors are predetermined or speci...
The fundamental question of how an undifferentiated progenitor cell adopts a more specialized cell f...
Cell fate determination is a fundamental aspect of development and tissue homeostasis, orchestrated ...
Despite extensive knowledge about the transcriptional regulation of stem cell differentiation, less ...
Correct and timely lineage decisions are critical for normal embryonic development and homeostasis o...
© 2015 Elsevier Ltd. All rights reserved. Meticulous and precise control of organ size is undoubtedl...
Correct and timely lineage decisions are critical for normal embryonic development and homeostasis o...
Cellular decision making is the process whereby cells assume different, functionally important and h...
SummaryCell fate decisions are fundamental for development, but we do not know how transcriptional n...