Synapsins I and II are a family of synaptic vesicleâassociated phosphoproteins involved in the shortâterm regulation of neurotransmitter release. In this review, we discuss a working model for the molecular mechanisms by which the synapsins act. We propose that synapsin I links synaptic vesicles to actin filaments in the presynaptic nerve terminal and that these interactions are modulated by the reversible phosphorylation of synapsin I through various signal transduction pathways. The high degree of homology between the synapsins suggests that some of the functional properties of synapsin I are also shared by synapsin II. Copyright © 1990 Cambridge University Press
The synapsins and the regulation of synaptic function
VALTORTA, FLAVIAPenultimo
;
1990-01-01
Abstract
Synapsins I and II are a family of synaptic vesicleâassociated phosphoproteins involved in the shortâterm regulation of neurotransmitter release. In this review, we discuss a working model for the molecular mechanisms by which the synapsins act. We propose that synapsin I links synaptic vesicles to actin filaments in the presynaptic nerve terminal and that these interactions are modulated by the reversible phosphorylation of synapsin I through various signal transduction pathways. The high degree of homology between the synapsins suggests that some of the functional properties of synapsin I are also shared by synapsin II. Copyright © 1990 Cambridge University PressI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
