Prevotella intermedia is a Gram-negative bacterium that is notably linked to periodontitis and acute necrotizing ulcerative gingivitis. P. intermedia is known to utilise the T9SS to secrete and anchor virulence factors to the cell surface, presumably via C-terminal modification of the cargo protein with a cell surface polysaccharide. The identity of the linking sugar and the sites of modification on the cargo have yet to be determined. Here, we first employed Hidden Markov Models to predict cargo proteins in P. intermedia, and then conducted LC-MS/MS analyses of partially deglycosylated fractions to characterise the C-terminal glycosylation. A total of 80 cargo proteins were predicted based on the presence of a T9SS C-terminal domain signal (CTD), and these were divided into 48 short CTDs predicted by AlphaFold to adopt a single 3-stranded β-sheet and 32 long CTDs predicted to form the more typical larger β-sandwich structures. Cleavage sites for five short CTDs and four long CTDs were experimentally determined, and glycosylation was observed at the mature C-terminus of six cargo. Two glycans were identified of delta masses 419.198 and 433.185 Da, corresponding to novel linkages to N-alanyl dHex-HexNAc and N-alanyl (Me-dHex)-HexNAc, respectively, with the alanine amide-linked to the protein C-terminus. This indicated that both short and long CTDs were cleaved and glycosylated. AlphaFold multimer modelling predicted that both kinds of CTDs could bind to the PorV shuttle protein in the same manner, with the conserved CTD motifs interacting with the same sites in PorV.