“…The transition structure corresponded to the (Me) 2 S=O double-bond cleavage and is similar to the crystal structures of the enzyme in both the oxidized and reduced states. [13] Later studies by Thapper, [14] McNamara, [15,16] Hernandez-Marin and Ziegler, [17] Solomon, [18,19] Hofmann, [20,21] and us [22][23][24] have established a two-step associative mechanism, in which DMSO first binds to the reduced active site, and the S-O bond is cleaved in the second step concomitant with the oxidization of the Mo ion to the Mo VI state (see Scheme 1). The second step is rate limiting and has a predicted activation energy of 76, [14] 80, [15] 69, [17] 68, [18,19] 40, [20,21] or 63 kJ/mol.…”