The outbreak of H5N1 avian influenza strains infectious to human has dire neurological and pathological consequences. This led to the massive vaccination of host poultry, resulting in a Fujian-like variant (vFJ) resistant to immunization with two mutations at the furin-processing site of hemagglutinin: loss of the P2 Lys and P9 substitution of Gln to Leu within the cleavage site. We synthesized 14mer peptides mimicking the processing site of Fujian-like strains. We found that the peptide with the vFJ sequence is less cleaved as compared to the parent FJ-derived peptide by furin at either neutral or acidic pH values. We hypothesize that the double hemagglutinin mutations in vFJ may result in viruses with less processed hemagglutinin, thereby providing a mechanism for evading immune neutralization.