Accurate characterization of the amino acid sequence and post-translational modifications (PTMs) of monoclonal antibodies (mAbs) is essential for evaluating product quality. Peptide mapping through bottom-up LC/MS analysis is a key methodology for this purpose. While trypsin is commonly the first choice for mAb digestion, it typically yields high but incomplete sequence coverage. As a result, supplementary endoproteases such as Asp-N, chymotrypsin, Glu-C or Lys-C are often employed to enhance coverage. In this report, we evaluated another endoprotease, Tryp-N, which serves as an effective alternative to trypsin for mAb analysis. The sequence coverages achieved for bevacizumab, cetuximab, NISTmAb, and trastuzumab with Tryp-N were comparable to that of trypsin, and the combination of both enzymes slightly improved overall sequence coverage. Notably, both trypsin and Tryp-N generated identical peptides beside the N- and C-terminal ends. The presence of a basic amino acid at opposite ends of the peptide often resulted in complementary sequence coverage of the MS2 of the same peptide sequences. These complementary ion series can be leveraged for precise localization of PTMs, as demonstrated in detail for deamidation, and oxidation sites as well as single amino acid variations (SAVs).