CPEB1 regulates cellular function by post-transcriptionally controlling its targeted transcripts' translation. After bound to CPEs, CPEB1 recruits cytoplasmic poly (A) polymerase GLD2 to elongate the poly (A) tail for the maintenance of mRNA stability. The stability of mRNA is positively correlated with translational output. It is unexamined whether CPEB1 interacts with translation machinery to regulation translation. Previous reports demonstrate that phosphorylation is required for its regulation on translation. However, it is not well understood whether phosphorylation is essential for CPEB1 interaction with translation machinery or not. Here, we performed mass spectrometry on C2 cells transfected with CPEB1-mVenus or CPEB1 (T171A, S177A)-mVenus after IgG or mVenus antibody immunoprecipitation. After analysis, we identify CPEB1 interacting proteins and the phosphorylation dependent interacting proteins such as ribosomal proteins. Thus, our data suggest that CPEB1 regulate translation by interacting with translation machinery in a phosphorylation dependent manner.