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{{Article|Lu Nicoll|2009|Neuron • [http://www.sciencedirect.com/science/article/pii/S0896627309002554 PDF]|19409270|Subunit composition of synaptic AMPA receptors revealed by a single-cell genetic approach.}} | |||
Figure 6. Analysis of Extrasynaptic AMPARs (A) Sample traces of AMPAR currents from OOPs from uninfected control (black) and Cre (green) cells from CA1 pyramidal neurons from various genetic backgrounds. Scale bar, 200 pA, 1 s. The recordings were made from acute hippocampal slices (P13–P17 for DGluA2 and P20– P28 for all other genetic backgrounds) from animals injected at P0–P2. (B) I/V curves of AMPAR currents from OOPs. Control, black; Cre, green. Deletion of the GluA2 subunit, but not other subunits, caused strong inward rectification of the evoked current. Bar graph at the bottom shows the RI for each condition (Cnt, 0.85 ± 0.02, n = 8; DGluA1, 0.81 ± 0.04, n = 5; p = 0.39; DGluA2, 0.09 ± 0.01, n = 6; *p < 0.001; DGluA3, 0.80 ± 0.03, n = 5; p = 0.22; DGluA2A3, 0.10 ± 0.02, n = 6; *p < 0.001; DGluA1A2, 0.15 ± 0.03, n = 5; *p < 0.001). (C) Summary bar graph shows consequences of deletion of respective genes on AMPAR current from OOPs (Cnt, ~648.7 ± 45.2 pA, n = 23; DGluA1, ~35.3 ± 13.1 pA, n = 16, *p < 0.001; DGluA2, ~684.3 ± 92.2 pA, n = 11, p = 0.70; DGluA3, ~674.2 ± 63.5 pA, n = 13, p = 0.74; DGluA2A3, ~656.8 ± 76.3 pA, n = 14, p = 0.92; DGluA1A3, ~2.5 ± 1.0 pA, n = 14, *p < 0.001; DGluA1A2, ~24.1 ± 5.2 pA, n = 25, *p < 0.001; DGluA1A2A3, ~1.01 ± 0.65 pA, n = 8, *p < 0.001). (D) Summary bar graph shows consequences of deletion of respective genes on AMPAR EPSCs (percent control: DGluA1, 19.4 ± 3.1%, n = 31, *p < 0.001; DGluA2, 51.7 ± 3.8%, n = 86, *p < 0.001; DGluA3, 83.8 ± 1.0%, n = 19, *p < 0.05; DGluA2A3, 42.8 ± 5.2%, n = 14, *p < 0.001; DGluA1A3, 12.1 ± 2.4%, n = 12, *p < 0.001; DGluA1A2, 5.7 ± 1.4%, n = 24, *p < 0.001; DGluA1A2A3, 2.4 ± 0.6%, n = 13, *p < 0.001). (E) Models for AMPAR compositions at synaptic and extrasynaptic membranes. At CA1 pyramidal neurons, ~80% synaptic AMPARs are GluA1A2 heteromers, and ~16% synaptic AMPARs are GluA2A3 heteromers. On the other hand, ~95% extrasynaptic AMPARs are GluA1A2 heteromers. | |||
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Latest revision as of 14:34, 2 January 2015
Lu Nicoll • 2009 • Neuron • PDF
Figure 6. Analysis of Extrasynaptic AMPARs (A) Sample traces of AMPAR currents from OOPs from uninfected control (black) and Cre (green) cells from CA1 pyramidal neurons from various genetic backgrounds. Scale bar, 200 pA, 1 s. The recordings were made from acute hippocampal slices (P13–P17 for DGluA2 and P20– P28 for all other genetic backgrounds) from animals injected at P0–P2. (B) I/V curves of AMPAR currents from OOPs. Control, black; Cre, green. Deletion of the GluA2 subunit, but not other subunits, caused strong inward rectification of the evoked current. Bar graph at the bottom shows the RI for each condition (Cnt, 0.85 ± 0.02, n = 8; DGluA1, 0.81 ± 0.04, n = 5; p = 0.39; DGluA2, 0.09 ± 0.01, n = 6; *p < 0.001; DGluA3, 0.80 ± 0.03, n = 5; p = 0.22; DGluA2A3, 0.10 ± 0.02, n = 6; *p < 0.001; DGluA1A2, 0.15 ± 0.03, n = 5; *p < 0.001). (C) Summary bar graph shows consequences of deletion of respective genes on AMPAR current from OOPs (Cnt, ~648.7 ± 45.2 pA, n = 23; DGluA1, ~35.3 ± 13.1 pA, n = 16, *p < 0.001; DGluA2, ~684.3 ± 92.2 pA, n = 11, p = 0.70; DGluA3, ~674.2 ± 63.5 pA, n = 13, p = 0.74; DGluA2A3, ~656.8 ± 76.3 pA, n = 14, p = 0.92; DGluA1A3, ~2.5 ± 1.0 pA, n = 14, *p < 0.001; DGluA1A2, ~24.1 ± 5.2 pA, n = 25, *p < 0.001; DGluA1A2A3, ~1.01 ± 0.65 pA, n = 8, *p < 0.001). (D) Summary bar graph shows consequences of deletion of respective genes on AMPAR EPSCs (percent control: DGluA1, 19.4 ± 3.1%, n = 31, *p < 0.001; DGluA2, 51.7 ± 3.8%, n = 86, *p < 0.001; DGluA3, 83.8 ± 1.0%, n = 19, *p < 0.05; DGluA2A3, 42.8 ± 5.2%, n = 14, *p < 0.001; DGluA1A3, 12.1 ± 2.4%, n = 12, *p < 0.001; DGluA1A2, 5.7 ± 1.4%, n = 24, *p < 0.001; DGluA1A2A3, 2.4 ± 0.6%, n = 13, *p < 0.001). (E) Models for AMPAR compositions at synaptic and extrasynaptic membranes. At CA1 pyramidal neurons, ~80% synaptic AMPARs are GluA1A2 heteromers, and ~16% synaptic AMPARs are GluA2A3 heteromers. On the other hand, ~95% extrasynaptic AMPARs are GluA1A2 heteromers.
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