Effects of intermolecular hydrogen-bonding interactions on the amide I mode of N-methylacetamide (NMA) are studied by matrix-isolation infrared (IR) spectroscopy and ab initio molecular orbital calculations. The wavenumbers of the amide I IR bands of NMA in Ar and N2 matrixes with various NMA/matrix gas mixing ratios are compared with those calculated for the monomer, dimers, and trimers of trans-NMA and the monomer and dimer of cis-NMA. The band at 1708 (1706) cm-1 in Ar (N2) matrixes is assigned to the amide I mode of the monomer of trans-NMA. The band observed at 1686 (1681) cm-1 in Ar (N2) matrixes with the NMA/matrix gas mixing ratio larger than 1/500 is assigned to the amide I band due to the dimers of trans-NMA. The bands observed at lower wavenumbers for samples with the NMA/matrix gas mixing ratio as large as 1/100 are assigned to the amide I bands of the trimers and larger clusters of trans-NMA. It is likely that the band observed at 1695 (1693) cm-1 in the Ar (N2) matrix arises from the dimer o...