In this study, we combined mouse genetics and quantitative proteomics to characterize in a comprehensive manner the VAV1 interactome. A line of knock-in mouse expressing endogenous VAV1 molecules with a genetic tag permitting affinity purification was generated and combined with affinity purification and mass spectrometry (AP-MS) to analyze the VAV1 signaling complex that assembles in primary CD4+ T cells over 300 s of activation. This allowed us to describe in a time-resolved manner the interactome of VAV1 in primary CD4+ T cells and to identify 44 previously unknown bindings partners of VAV1. The dataset contains mass spectrometry results from the analysis of AP-MS purifications (based on affinity purification on Streptactin beads of One-Strep-tagged proteins) starting from CD4+ T cells which were either non stimulated or stimulated with pervanadate for different time lengths. Control samples for each time point were prepared from wild-type mice. 8 different conditions were thus analyzed: - VAV1-OST transgenic mice, CD4+ T cells non stimulated (noted Vav_0) - VAV1-OST transgenic mice, CD4+ T cells stimulated 30s (noted Vav_30) - VAV1-OST transgenic mice, CD4+ T cells stimulated 120s (noted Vav_120) - VAV1-OST transgenic mice, CD4+ T cells stimulated 300s (noted Vav_300) - WT mice, CD4+ T cells non stimulated (noted WT_0) - WT mice, CD4+ T cells stimulated 30s (noted WT_30) - WT mice, CD4+ T cells stimulated 120s (noted WT_120) - WT mice, CD4+ T cells stimulated 300s (noted WT_300) Four biological replicates were prepared for these 8 different conditions (noted S1, S2, S3, S4), yielding 32 analyzed samples. Three technical nanoLC-MS runs were acquired for each sample (noted R1, R2, R3), except for some samples of the biological series S4 for which 2 technical nanoLC-MS runs were performed. This led to 91 nanoLC-MS raw files composing the dataset.