RT Journal Article SR Electronic T1 Dynamic allostery in substrate binding by human thymidylate synthase JF bioRxiv FD Cold Spring Harbor Laboratory SP 2022.05.16.492048 DO 10.1101/2022.05.16.492048 A1 Bonin, Jeffrey P. A1 Sapienza, Paul J. A1 Lee, Andrew L. YR 2022 UL http://biorxiv.org/content/early/2022/05/16/2022.05.16.492048.abstract AB Human thymidylate synthase (hTS) is essential for DNA replication and therefore a therapeutic target for cancer. Effective targeting requires knowledge of the mechanism(s) of regulation of this 72 kDa homodimeric enzyme. Here, we investigate the mechanism of binding cooperativity of the nucleotide substrate. We have employed exquisitely sensitive methyl-based CPMG and CEST NMR experiments enabling us to identify residues undergoing bifurcated linear 3-state exchange, including concerted switching between active and inactive conformations in the apo enzyme. The inactive state is populated to only ∼1.3%, indicating that conformational selection contributes negligibly to the cooperativity. Instead, methyl rotation axis order parameters, determined by 2H transverse relaxation rates, suggest that rigidification of the enzyme upon substrate binding is responsible for the entropically-driven cooperativity. Lack of the rigidification in product binding and substrate binding to an N-terminally truncated enzyme, both non-cooperative, support this idea. In addition, the lack of this rigidification in the N-terminal truncation indicates that interactions between the flexible N-terminus and the rest of the protein, which are perturbed by substrate binding, play a significant role in the cooperativity—a novel mechanism of dynamic allostery. Together, these findings yield a rare depth of insight into the substrate binding cooperativity of an essential enzyme.Competing Interest StatementThe authors have declared no competing interest.