Emerging coronaviruses (CoVs) primarily cause severe gastroenteric or respiratory diseases in humans and animals, for which no approved therapeutics are available so far. Here A9, a receptor tyrosine kinase inhibitors (RTKIs) of the tyrphostin class was identified as a robust inhibitor of TGEV (Transmissible gastroenteritis virus) infection in cell-based assays. Time-of-addition studies suggested that A9 mainly acts at post-adsorption stage of the TGEV life cycle. Moreover, it also exhibited potent antiviral activity against various coronavirus replication, including MHV, PEDV and FIPV. We further investigated the mechanism of action of A9 against TGEV infection in vitro with comparative phosphoproteomics analysis. We specifically identified the A9 target, p38 and JNK1, the downstream molecules of receptor tyrosine kinases (RTKs) as required for efficient TGEV replication in vitro through plaque assay, qRT-PCR and western blotting assays. Additionally, tests of p38 and JNK1 inhibitors also indicated that interventions targeting p38 was more effective in suppressing TGEV propagation than the JNK. In conclusion, these findings indicate that the receptor tyrosine kinase inhibitor A9 can directly inhibits TGEV replication and its inhibitory activity on TGEV replication mainly regulated by targeting p38, which provide vital clues to design novel drugs against coronavirus.