LysineMutation of the Claw-Arm-Like Loop AcceleratesCatalysis by Cellobiohydrolases

Searching for viable strategies to accelerate the catalytic cycle of glycoside hydrolase family 7 (GH7) cellobiohydrolase I (CBHI)—the workhorse cellulose-degrading enzymes, we have performed a total of 12-μs molecular dynamics simulations on GH7 CBHI, which brought to light a new mechanism for cellobiose expulsion, coined “claw-arm” action. The loop flanking the product binding site plays the role of a flexible “arm” extending toward cellobiose, and residue Thr389 of this loop acts as a “claw” that captures cellobiose. Five mutations of residue Thr389 were considered to enhance the loop-cellobiose interaction. The lysine mutant was found to significantly accelerate cellobiose expulsion and facilitate polysaccharide-chain translocation. Lysine mutation of Thr393 in Talaromyces emersonii CBHI (TeCel7A) performed similarly. Lysine approaches the catalytic area and stabilizes the Michaelis complex, potentially affecting glycosylation, the rate-limiting step of the catalytic cycle. QM/MM calculations indicate...