HPhA, a recombinant histone-like protein from Pyrococcus horikoshii OT3 strain, has compacting activity with DNA as previously reported. The extreme stability and DNA packaging activity of the HPhA make it a candidate as a DNA carrier. Here, the plasmid DNA-HPhA complexes were fully characterized by gel retardation assay and DNase resistance assay. It was further proved that HPhA has in vitro DNA transfection activity. HPhA-mediated transfection efficiency was dependent on the mass ratio of HPhA to DNA, the incubation time and the presence of calcium. A protocol for HPhA-mediated transfection in vitro was established to improve transfection efficiency. The optimal mass ratio of HPhA to DNA was 6:1, and the incubation time required for the DNA-HPhA complex to be in contact with the cell was 4 h. In addition, the presence of 2 mM CaCl2 in the cell culture medium was required for efficient transfection. Serum did not show inhibition of HPhA-mediated transfection. Most importantly, the cytotoxicity of HPhA is lower than that of commonly used cationic liposome-based gene delivery systems, and HPhA-mediated transfection in NIH 3T3, HEK 293, HL-7702, HepG2 and Cos 7 cell lines in vitro has a higher efficiency and reproducibility. These results demonstrate that the HPhA is a new, potentially widely applicable and highly efficient gene carrier.