Aim: To express and purify Tat-p53 fusion protein and investigate its transduction efficiency.
Methods: The gene encoding wide-type p53 was isolated using RT-PCR from A549 cell line and cloned into pTAT-HA and pET32a prokaryotic expression vectors. Recombinant plasmids were transformed into E.coli BL21(DE3)LysS, then the transformed cells were induced with IPTG. The expression and purification of the Tat-p53 and p53 were analyzed by SDS-PAGE. BALB/c mice were immunized with purified p53 protein. The serum was isolated and the antibody specific to p53 was measured by ELISA. The transduction efficiency of Tat-p53 was detected using indirect immunofluorescence assay.
Results: Prokaryotic expression vectors of Tat-p53 and p53 were constructed correctly. Tat-p53 fusion protein and p53 protein were successfully expressed and purified. p53 specific mouse antiserum was obtained. IFA result indicated that Tat-p53 fusion protein transduced into HepG2 cells efficiently.
Conclusion: The obtained Tat-p53 fusion protein may be valuable for the basic research on therapy for liver carcinoma.