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Publication Abstract from PubMed

Human UDP-glucose dehydrogenase (hUGDH) is regulated by an atypical allosteric mechanism in which the feedback inhibitor UDP-xylose (UDP-Xyl) competes with the substrate for the active site. Binding of UDP-Xyl triggers the T131-loop/alpha6 allosteric switch, which converts the hexameric structure of hUGDH into an inactive, horseshoe-shaped complex (EOmega). This allosteric transition buries residue A136 in the protein core to produce a subunit interface that favors the EOmega structure. Here we use a methionine substitution to prevent the burial of A136 and trap the T131-loop/alpha6 switch in the active conformation. We show that hUGDHA136M does not exhibit substrate cooperativity, which is strong evidence that the methionine substitution prevents the formation of the low-UDP-Glc-affinity EOmega state. In addition, the inhibitor affinity of hUGDHA136M is reduced 14-fold, which most likely represents the Ki for competitive inhibition in the absence of the allosteric transition to the higher-affinity EOmega state. hUGDH also displays a lag in progress curves, which is caused by a slow, substrate-induced isomerization that activates the enzyme. Stopped-flow analysis shows that hUGDHA136M does not exhibit hysteresis, which suggests that the T131-loop/alpha6 switch is the source of the slow isomerization. This interpretation is supported by the 2.05 A resolution crystal structure of hUGDHA136M, which shows that the A136M substitution has stabilized the active conformation of the T131-loop/alpha6 allosteric switch. This work shows time that the T131-loop/alpha6 allosteric switch couples allostery and hysteresis in hUGDH.

Allostery and Hysteresis Are Coupled in Human UDP-Glucose Dehydrogenase.,Beattie NR, Keul ND, Sidlo AM, Wood ZA Biochemistry. 2016 Dec 22. doi: 10.1021/acs.biochem.6b01044. PMID:27966912^[1]

From MEDLINE®/PubMed®, a database of the U.S. National Library of Medicine.