Feedback
|
Support
|
Log in / Register
Home
|
Browse the library
|
Search the library
|
About the library
|
My library
Quick search
Neuronal migration
Development
Neuroscience
Entire library
BioMed Central images
Biology Image Library images
All Subjects
Neuroscience
Behavioral & Cognitive Neurosciences
Development
Acquisition of neural identity
Axon guidance & topographic maps
Circuit connectivity patterns
Cortical organisation
Development of neurological systems
Neural induction
Neurogenesis
Neuronal migration
Neuronal survival
Repair & response to injury
Molecular & Cellular Biology
Neurological & Psychiatric Disorders
Systems Neuroscience
Techniques
Subject heads:
Mark Bear
Geoffrey Burnstock
Graham Collingridge
Frances Edwards
Mark Ellisman
David Fitzpatrick
Gary Greenberg
Mark Mattson
Michael Paradiso
Steve Redman
Stephen J. Smith
Arthur Toga
Christopher Walsh
Michael Zigmond
Editors:
David Greenberg
Neuronal migration (8 items)
5 per page
20 per page
100 per page
by date added
by title
All images
Photographs
Micrographs
Illustrations
Animations
Movies
all items on this page
checked items
to slideset
Page 1 of 2. Select Page:
1
2
>>
1.
PAR-aPKC complex disruption causes a ventral mismigration in which FBMNs escape the hindbrain ventrally
© Grant and Moens; licensee BioMed Central Ltd.
2.
In the absence of Laminin, FBMNs fail to speed up and do not reorient centrosomes
© Grant and Moens; licensee BioMed Central Ltd.
3.
Removal of aPKC or
Pard6gb
results in defects of apical midline formation and maintenance
© Grant and Moens; licensee BioMed Central Ltd.
4.
FBMNs exit the hindbrain through holes in the ventral Laminin-containing basement membrane that can be phenocopied by Laminin knockdown
© Grant and Moens; licensee BioMed Central Ltd.
5.
aPKC functions cell non-autonomously to prevent ventral mismigration
© Grant and Moens; licensee BioMed Central Ltd.
Page 1 of 2. Select Page:
1
2
>>
© 1999- 2013 BioMed Central Ltd unless otherwise stated. Part of
Springer Science+Business Media
|
Cookies
