Influenza virus is mainly spread by droplet to infect the respiratory tract and lungs. Patients usually have cough, fever, fatigue, weakness and rhinitis, while severe cases can cause respiratory failure and even death. 　　Novel H7N9 avian-origin influenza outbreak occurred in the coastal provinces of China in AD 2013 spring. As of June, raised great concern about a total of 131 cases of infection and 36 cases of death were reported. High mortality rates of H7N9 infection make the pathogenicity of H7N9 and the potential of human to human transmission. A severe case of H7N9 infection was diagnosed in Taiwan in late April. Viral nucleic acid was extracted from collected samples and subjected to PCR and sequencing. The H7N9 sequences from GISIAD influenza database were used to compare to specific amino acid site substitutions appear in the viral population from cross-hosts and the presence of potential drug resistance. Total H7N9 plasmids and reference strains were analyzed to release some information. At the 627 amino acid site of PB2 protein, there are glutamic acid from avian-origin virus different in the arginine from human-origin. The 289 amino acid site of neuraminidase presents lysine for resistance strain and arginine for wild type strain. In addition, as a neuraminidase skeleton site, the 219 site from plasmid is mutated from isoleucine to arginie. And the correlation between point mutation and resistance needs to be further evaluated. 　We constructed the plasmid for reverse genetic system manufacturing recombinant viruses. Cytopathic effects caused by recombinant viruses observed after culture and amplification. Confirmed the recombinant virus is indeed successful production.