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Mutagenesis studies have confirmed the Ag85C functions through a Glu-His-Ser <scene name='69/694220/Catalytic_triad/4'>catalytic triad</scene>, similar to that of [http://en.wikipedia.org/wiki/Chymotrypsin chymotrypsin]. By modifying each of the catalytic residues separately testing the enzyme’s relative activity, it has been shown that mutation of any one of these residues dramatically reduces activity (Figure #). The S124 alcohol’s nucleophilicity is inductively strengthened through H260 and E224, which allows the S124 residue to catalyze a reaction that involves [http://en.wikipedia.org/wiki/Cord_factor trehalose 6, 6’-dimycolate]. The formation of the functional catalytic triad relies on upon Van der Waals interaction between C209 and the peptide bond between L232 and T231. This interaction results in a kinked conformation of the α9 helix, which promotes that activity of the catalytic triad. As a result, Ag85C, a mycolyl transferase, can facilitate the modification of trehalose monomycolates to trehalose dimycolates, which are then transported to the bacterial cell wall.