AI Article Synopsis
- - Postsynaptic density-95 (PSD-95) is a key protein involved in synaptic functions like spatial learning and plasticity, known for binding with the NMDA receptor.
- - Researchers cloned the PSD-95 gene in mice and found two new splice variants (PSD-95alpha-2b and PSD-95alpha-Delta18) along with another potential variant (PSD-95gamma), highlighting their significance in NMDA receptor interactions.
- - The study also uncovered various untranslated regions in the PSD-95 mRNA that may regulate protein production after transcription, indicating a complex diversity in PSD-95 protein structure and function.
Article Abstract
Postsynaptic density-95 (PSD-95) is an evolutionarily conserved synaptic adaptor protein that is known to bind many proteins including the NMDA receptor. This observation has implicated it in many NMDA receptor-dependent processes including spatial learning and synaptic plasticity. We have cloned and characterised the murine PSD-95 gene. In addition, we have identified two previously uncharacterised splice variants of the major murine PSD-95 transcript (PSD-95alpha): PSD-95alpha-2b results from an extension of exon 2 and PSD-95alpha-Delta18 from the temporal exclusion of exon 18. The presence of PSD-95alpha-2b sequences in other PSD-95 family members implicates this peptide stretch as functionally significant. Another potential transcript (PSD-95gamma) was also identified based on examination of EST databases. Immunoprecipitation assays demonstrate that proteins corresponding in size to PSD-95alpha-Delta18 and PSD-95gamma interact with the NMDA receptor, suggesting an important biological role for these isoforms. Finally, we have performed bioinformatics analyses of the PSD-95 mRNA untranslated regions, identifying multiple translational control elements that suggest protein production could be regulated post-transcriptionally. The variety of mRNA isoforms and regulatory elements identified provides for a high degree of diversity in the structure and function of PSD-95 proteins.
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| http://dx.doi.org/10.1016/j.molbrainres.2004.09.024 | DOI Listing |
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