Structural origins of clustered protocadherin-mediated neuronal barcoding

Structural origins of clustered protocadherin-mediated neuronal barcoding

Clustered protocadherins mediate neuronal self-recognition and non-self discrimination—neuronal “barcoding”—which underpin neuronal self-avoidance in vertebrate neurons. Recent structural, biophysical, computational, and cell-based studies on protocadherin structure and function have led to a compel...

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Veröffentlicht in:Seminars in cell & developmental biology 2017-09, Vol.69 (C), p.140-150
Hauptverfasser: Rubinstein, Rotem, Goodman, Kerry Marie, Maniatis, Tom, Shapiro, Lawrence, Honig, Barry
Format: Artikel
Sprache:eng
Schlagworte:
Animals
Cadherins - chemistry
Cadherins - metabolism
Cell-cell recognition
Clustered protocadherins
Crystal structure
Humans
Models, Molecular
Neuronal self-avoidance
Neurons - metabolism
Phylogeny
Protein interaction specificity
Protein Multimerization
Structure-Activity Relationship
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Zusammenfassung:Clustered protocadherins mediate neuronal self-recognition and non-self discrimination—neuronal “barcoding”—which underpin neuronal self-avoidance in vertebrate neurons. Recent structural, biophysical, computational, and cell-based studies on protocadherin structure and function have led to a compelling molecular model for the barcoding mechanism. Protocadherin isoforms assemble into promiscuous cis-dimeric recognition units and mediate cell–cell recognition through homophilic trans-interactions. Each recognition unit is composed of two arms extending from the membrane proximal EC6 domains. A cis-dimeric recognition unit with each arm coding adhesive trans homophilic specificity can generate a zipper-like assembly that in turn suggests a chain termination mechanism for self-vs-non-self-discrimination among vertebrate neurons.
ISSN:1084-9521
1096-3634
DOI:10.1016/j.semcdb.2017.07.023