Updated project metadata. Protein acetylation and crotonylation are important post-translational modifications (PTMs) of lysine. In animal cells, histone lysines are crotonylated or acetylated depends on the relative intracellular concentrations of crotonyl-CoA and acetyl-CoA, and adding crotonate to cell cultures, or reducing the intracellular levels of acetyl-CoA, leads to an increase in histone crotonylation through the direct production of crotonyl-CoA. However, in plant the relationship of acetylation and crotonylation and the effect of the concentration of acetyl-CoA on protein crotonylation were not well known. Our previous study showed that PhACL silencing changed the content of acetyl CoA in petunia corollas. In this study, we performed a global crotonylation proteome analysis of petunia (Petunia hybrida) and found that protein crotonylation have close relationship with protein acetylation and the protein with more crotonylation sites often had more acetylation sites. Crotonylated proteins and acetylated proteins enriched in many common KEGG pathway. However, PhACL silencing resulted in different KEGG pathway enrichment of proteins with different level of crotonylated sites and acetylated sites. Cytoplasm non-histone lysine crotonylation may not depend on the concentrations of acetyl-CoA in petunia corollas. There was a positive correlation between crotonylome and acetylome expression levels in corollas of PhACL-silenced plants and control.