The Single Easiest Plan To Apply For Adenylyl cyclase Reviewed
As we were interested in the different neural mechanisms that underlie true and false recognition, we analyzed the encoding- and retrieval-related brain GS-7340 activity resulting from the following four conditions: (a) recollection-based true recognition (Remember response to a Same item), (b) familiarity-based true recognition (Know response to a Same item), (c) recollection-based false recognition (Remember response to a Similar item), and (d) familiarity-based false recognition (Know response to a Similar item). A second-level analysis of the parameter estimates for the voxels in each of these four conditions was then computed as a repeated-measures analysis of variance (ANOVA). In this analysis, each participant was treated Adenylyl cyclase as a random effect. We created a three-way 2?��?2?��?2 ANOVA model with the task type (encoding or retrieval), the stimulus type (Same or Similar), and the response type (Remember or Know) as factors. Appropriate corrections were made for non-sphericity and repeated measures (Friston et al., 2002a?and?Friston et al., 2002b). Comparisons between the conditions were performed using appropriately weighted linear contrasts and were determined on a voxel-by-voxel basis. For the encoding and retrieval data sets, we created two selleckchem separate 2?��?2 ANOVA models with the stimulus type (Same or Similar) and the response type (Remember or Know) as factors. This procedure allowed for us to perform F-tests to identify interactions between the two factors across brain regions during the encoding and retrieval phases. For the whole-brain analyses, the threshold of significance was set at p?