The interaction between DNA and the nanopore structure plays an important role in nanopore DNA sequencing. Differential interaction forces between each base type and the nanopore structure are obtained by examining the correlation between translocation dwell time and the sequence. The viscous drag force and the intermolecular interaction are identified with single-nucleotide resolution. Active hydrogen donors and acceptors on the inner wall of the nanopore structure are revealed at various offset coordinates. The differential forces as demonstrated in this study have great potential in probing active hydrogen bond interaction in a single protein molecule with subnanometer spatial resolution.