we transfected dissociated rat hippocampal neurons at DIV 6 with wild type BRAG1 merged to mCherry at its N terminus. chloroadenosine was used to avoid epileptic task after blocking inhibition. The bath solutions were gassed with five minutes CO2/95% O2. Repair saving pipettes contained, cesium methanesulfonate 115, CsCl 20, HEPES 10, MgCl2 2. ALK inhibitor 5, Na2ATP 4, Na3GTP 0. 4, salt phosphocreatine 10, EGTA 0. 6, and spermine 0. 1, at pH 7. 25. Synaptic responses were evoked by bipolar electrodes with single voltage impulses put into s. radiatum 300 um from the registered hippocampal CA1 pyramidal neurons. To minimize the result from AMPA responses, the top NMDA responses at 40 mV were calculated after electronic subtraction of estimated AMPA responses at 40 mV. Results are reported as mean s. e. m. and statistical differences were identified using Wilcoxon test. IQ motifs are most commonly known as binding domains for calmodulin. Even though BRAG1, BRAG2 and BRAG3 each contain an IQ like pattern N terminal to the catalytic site, it has not yet been demonstrated that some of the BRAGs do indeed bind CaM. Inspection of this motif indicated that it fits the consensus sequence for calciumindependent CaM binding. To determine if this is actually the case, mRNA lysates of Hela cells expressing Myc tagged BRAG1 were incubated with CaMsepharose in either the presence or absence of Ca2. As shown in Fig. 1C, BRAG1 was robustly precipitated by CaM sepharose, although not sepharose alone. More over, this relationship was strengthened in the presence of EGTA, indicating that BRAG1 preferentially binds to Ca2 free CaM. Replacement of three conserved residues within the agreement IQ theme totally abrogated CaM binding. But, mutation of the conserved glutamate residue within the Sec7 area essential for catalytic activity, had no effect on the capability of BRAG1 to bind CaM, indicating that catalytic activity doesn’t influence calmodulin binding. Deletion buy OSI-420 of an N terminal coiled coil domain does seem to result in more effective CaM binding than BRAG1 WT. This may be an effect of the improved solubility of BRAG1 N, or it could declare that the coiled coil motif regulates accessibility of the IQ motif to CaM. Previous studies have revealed the localization of BRAG1 specifically in the postsynaptic membrane of excitatory synapses using equally immunofluorescence and electron microscopy. To confirm this localization, we stained dissociated rat hippocampal neurons at 21 days in vitro with rabbit antiserum raised against a peptide corresponding to amino acids 258 275 of BRAG1. As expected from previous studies, we recognized endogenous BRAG1 at distinct clusters along dendrites that demonstrably co brand with the excitatory postsynaptic sign, PSD 95. We next sought to verify that exogenously expressed mCherry tagged BRAG1 fusion proteins localized to excitatory synapses, similar to endogenous BRAG1. Nerves were counterstained for PSD 95 and set at DIV 19.