Par proteins and neuronal polarity
- 29 December 2010
- journal article
- review article
- Published by Wiley in Developmental Neurobiology
- Vol. 71 (6), 483-494
- https://doi.org/10.1002/dneu.20867
Abstract
A hallmark of neurons is their ability to polarize with dendrite and axon specification to allow the proper flow of information through the nervous system. Over the past decade, extensive research has been performed in an attempt to understand the molecular and cellular machinery mediating this neuronal polarization process. It has become evident that many of the critical regulators involved in establishing neuronal polarity are evolutionarily conserved proteins that had previously been implicated in controlling the polarization of other cell types. At the forefront of this research are the partition defective (Par) proteins. In this review,we will provide a commentary on the progressof work regarding the central importance of Parproteins in the establishment of neuronal polarity. © 2010 Wiley Periodicals, Inc. Develop Neurobiol 71: 483–494, 2011Keywords
This publication has 108 references indexed in Scilit:
- TGF-β Signaling Specifies Axons during Brain DevelopmentCell, 2010
- Axonal elongation triggered by stimulus-induced local translation of a polarity complex proteinNature Cell Biology, 2009
- Mammalian Par3 Regulates Progenitor Cell Asymmetric Division via Notch Signaling in the Developing NeocortexNeuron, 2009
- Par3 and Dynein Associate to Regulate Local Microtubule Dynamics and Centrosome Orientation during MigrationCurrent Biology, 2009
- The PAR-6 Polarity Protein Regulates Dendritic Spine Morphogenesis through p190 RhoGAP and the Rho GTPaseDevelopmental Cell, 2008
- The PAR Proteins: Fundamental Players in Animal Cell PolarizationDevelopmental Cell, 2007
- Ubiquitination of the GTPase Rap1B by the ubiquitin ligase Smurf2 is required for the establishment of neuronal polarityThe EMBO Journal, 2007
- Similar requirements for CDC-42 and the PAR-3/PAR-6/PKC-3 complex in diverse cell typesDevelopmental Biology, 2007
- A role for Drosophila LKB1 in anterior–posterior axis formation and epithelial polarityNature, 2003
- Microtubules and Neuronal PolarityNeuron, 1999