The active zone is a specialized presynaptic structure where vesicles containing neurotransmitters fuse with the plasma membrane, releasing the neurotransmitters to the post-synaptic membrane. At the EM level, electron dense active zones are surrounded by clusters of vesicles. A few components of the active zone have been identified such as UNC-10 (Koushika et al., 2001), UNC-13 (Richmond et al., 1999; Aravamudan et al., 1999) and SYD-2 (Zhen and Jin, 1999) but even fewer have been implicated in active zone establishment, differentiation or maintainance.
syd-2 encodes a homolog of liprin- and has been shown to be a component of the active zone. Mutations in
syd-2 give rise to larger active zones. At a previous meeting, we reported a SYD-2::GFP marker that could be used to visualize active zones in live animals. The SYD-2::GFP protein marker was placed under the promoter of
unc-25 which expresses in GABAergic neurons. We have performed a SYD-2::GFP screen to identify a dditional factors involved in the formation of the active zone. An EMS mutagenesis screen was performed looking for mutations affecting the formation of the active zone. Approximately 2500 haploid genomes were screened and we are currently characterizing 5 isolated mutant alleles.
hp77 and
hp121 represent two loci on chromosome X,
hp102 and
hp198 represent two loci on chromosome IV and
hp129 is on chromosome V.
hp121 and
hp102 have behavioural unc phenotypes,
hp198 are slightly dumpy while
hp77 and
hp129 do not appear to have any behaviour or physical phenotypes. Initial characterization and phenotypic analysis will be presented on these mutants. It is our hope that the molecular characterization of these mutants will provide information on factors involved in the establishment, differentiation, and maintenance of active zones. Ultimately, this information will provide insight into the genetic pathways used to establish neural synapses in general.References: Aravamudan B, Fergestad T, Davis WS, Rodesch CK, and Broadie K. (1999) Nature Neuroscience. 2:965; Koushika SP, Richmond JE, Hadwiger G, Weimer RM, Jorgensen EM and Nonet M. (2001) Nature Neuroscience. 4:997-1005; Richmond JE, Davis WS and Jorgensen EM. (1999) Nature Neuroscience. 2:959-64; Zhen M and Jin Y. (1999) Nature. 401:371-5