Role of src splice variants in nerve terminal function
dc.contributor.advisor
Cousin, Michael A
en
dc.contributor.author
Abdelhameed, Taher
en
dc.date.accessioned
2010-12-14T15:20:03Z
dc.date.available
2010-12-14T15:20:03Z
dc.date.issued
2010
dc.description.abstract
Src is a 60 kDa tyrosine kinase that is expressed in most of animal tissues. Src has three
splice variants, C-src, which is ubiquitously expressed, and N1- and N2-src, which are
neuronal specific splice variants. The srcs are differentially spliced at their SH3 domains,
therefore the hypothesis is that this splicing allows them to have different binding
partners and perform different roles in neurons. The aim of this project is to identify new
interactions for the three src splice variants in neurons and their possible functional roles.
The SH3 domains, kinase active truncated proteins ( 80) and kinase dead mutant full
length versions of the three splice variants of src were cloned from a rat brain cDNA
library into bacterial expression vectors. GST-pull downs from nerve terminal lysates
showed that different src splice variants had different binding partners. These partners
were identified by mass spectrometry and confirmed by western blotting. C-src binding
partners included dynamin, synapsin, and synaptojanin, while N2-src binding partners
included synaptophysin, Munc18-1, and NSF. The interaction between N2-src and Munc
18-1 was characterized further; however a number of in vitro interaction assays and
kinase assays showed that Munc 18-1 may not be a direct binding partner for N2-src or
substrate.
N1-src displayed a stimulation-dependent interaction with dynamin I. This was shown to
be phosphorylation-dependent in contrast to C-src binding. The major phosphorylation
sites on dynamin I, S774 and S778, were not involved in the regulation of N1-src
binding. The binding site for N1-src on dynamin I was different to C-src, with extensive
mutagenesis studies suggesting that the interaction site is at the tail of the dynamin I xa
splice variant, which has an additional two phosphorylation sites.
en
dc.identifier.uri
http://hdl.handle.net/1842/4485
dc.language.iso
en
dc.publisher
The University of Edinburgh
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dc.subject
src
en
dc.subject
nerve terminal
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dc.subject
endocytosis
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dc.subject
exocytosis
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dc.title
Role of src splice variants in nerve terminal function
en
dc.type
Thesis or Dissertation
en
dc.type.qualificationlevel
Doctoral
en
dc.type.qualificationname
PhD Doctor of Philosophy
en
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