Add to ORKGTwo ETS transcription factors of the Pea3 subfamily are induced in subpopulations of dorsal root ganglion (DRG) sensory and spinal motor neurons by target-derived factors. Their expression controls late aspects of neuronal differentiation such as target invasion and branching. Here, we show that the late onset of ETS gene expression is an essential requirement for normal sensory neuron differentiation. We provide genetic evidence in the mouse that precocious ETS expression in DRG sensory neurons perturbs axonal projections, the acquisition of terminal differentiation markers, and their dependence on neurotrophic support. Together, our findings indicate that DRG sensory neurons exhibit a temporal developmental switch that can be revealed by ...
The connections formed between sensory and motor neurons (MNs) play a critical role in the control o...
The connections formed between sensory and motor neurons (MNs) play a critical role in the control o...
The connections formed between sensory and motor neurons (MNs) play a critical role in the control o...
Two ETS transcription factors of the Pea3 subfamily are induced in subpopulations of dorsal root gan...
Two ETS transcription factors of the Pea3 subfamily are induced in subpopulations of dorsal root gan...
Two ETS transcription factors of the Pea3 subfamily are induced in subpopulations of dorsal root gan...
Two ETS transcription factors of the Pea3 subfamily are induced in subpopulations of dorsal root gan...
Two ETS transcription factors of the Pea3 subfamily are induced in subpopulations of dorsal root gan...
Two ETS transcription factors of the Pea3 subfamily are induced in subpopulations of dorsal root gan...
<div><p>Two ETS transcription factors of the Pea3 subfamily are induced in subpopulations of dorsal ...
<p>Schematic summary diagram illustrating the importance of temporally appropriate upregulation of t...
The connections formed between sensory and motor neurons (MNs) play a critical role in the control o...
The connections formed between sensory and motor neurons (MNs) play a critical role in the control o...
The connections formed between sensory and motor neurons (MNs) play a critical role in the control o...
The connections formed between sensory and motor neurons (MNs) play a critical role in the control o...
The connections formed between sensory and motor neurons (MNs) play a critical role in the control o...
The connections formed between sensory and motor neurons (MNs) play a critical role in the control o...
The connections formed between sensory and motor neurons (MNs) play a critical role in the control o...
Two ETS transcription factors of the Pea3 subfamily are induced in subpopulations of dorsal root gan...
Two ETS transcription factors of the Pea3 subfamily are induced in subpopulations of dorsal root gan...
Two ETS transcription factors of the Pea3 subfamily are induced in subpopulations of dorsal root gan...
Two ETS transcription factors of the Pea3 subfamily are induced in subpopulations of dorsal root gan...
Two ETS transcription factors of the Pea3 subfamily are induced in subpopulations of dorsal root gan...
Two ETS transcription factors of the Pea3 subfamily are induced in subpopulations of dorsal root gan...
<div><p>Two ETS transcription factors of the Pea3 subfamily are induced in subpopulations of dorsal ...
<p>Schematic summary diagram illustrating the importance of temporally appropriate upregulation of t...
The connections formed between sensory and motor neurons (MNs) play a critical role in the control o...
The connections formed between sensory and motor neurons (MNs) play a critical role in the control o...
The connections formed between sensory and motor neurons (MNs) play a critical role in the control o...
The connections formed between sensory and motor neurons (MNs) play a critical role in the control o...
The connections formed between sensory and motor neurons (MNs) play a critical role in the control o...
The connections formed between sensory and motor neurons (MNs) play a critical role in the control o...
The connections formed between sensory and motor neurons (MNs) play a critical role in the control o...