In this study, the kinetic properties of wild-type and C117D mutant H. influenzae MurA (Hi MurA), which catalyzes the first reaction in the biosynthetic pathway of the cell wall, were characterized. Purified recombinant Hi MurA was active at pH values ranging from pH 5.5 to pH 10, and its $K_m$ (UNAG), $K_m$ (PEP), and $k_{cat}$ values were measured to be 31 ${mu}M$, 24 ${mu}M$, and 210 $min^{-1}$, respectively. Hi MurA activity was effectively inhibited by fosfomycin with an $IC_{50}$ value of 60 ${mu}M$. Hi MurA contains a cysteine residue (C117) at the loop region near the PEP binding, whereas MurA from fosfomycin resistant Mycobaterium tuberculosis or Chlamydia trachomatis contain an aspartate residue instead of the cysteine at the corresponding site. Aspartate substitution of Cys117 in Hi MurA shifted its optimum pH from 7.8 to 6.0. In addition, the $K_m$ values for UNAG and PEP were increased to 160 ${mu}M$ and 150 ${mu}M$, respectively, and the $k_{cat}$ value was significantly reduced to 41 $min^{-1}$. Furthermore, the C117D mutant form of Hi MurA was not inhibited by 1 mM fosfomycin. These results indicate that the Cys117 of Hi MurA is the binding site of fosfomycin and plays an important role in the fast turnover of the catalytic reaction.