Stochasticity and Positive Feedback Enable Enzyme Kinetics at the Membrane to Sense Reaction Size

Overview

Journal Proc Natl Acad Sci U S A

Specialty Science

Date 2021 Nov 18

PMID 34789575

Citations 8

Authors

Albert A Lee

William Y C Huang

Scott D Hansen

Neil H Kim

Steven Alvarez

Jay T Groves

Affiliations

Soon will be listed here.

Abstract

Here, we present detailed kinetic analyses of a panel of soluble lipid kinases and phosphatases, as well as Ras activating proteins, acting on their respective membrane surface substrates. The results reveal that the mean catalytic rate of such interfacial enzymes can exhibit a strong dependence on the size of the reaction system-in this case membrane area. Experimental measurements and kinetic modeling reveal how stochastic effects stemming from low molecular copy numbers of the enzymes alter reaction kinetics based on mechanistic characteristics of the enzyme, such as positive feedback. For the competitive enzymatic cycles studied here, the final product-consisting of a specific lipid composition or Ras activity state-depends on the size of the reaction system. Furthermore, we demonstrate how these reaction size dependencies can be controlled by engineering feedback mechanisms into the enzymes.

Citing Articles

Positive feedback in Ras activation by full-length SOS arises from autoinhibition release mechanism.

Ren H, Lee A, Lew L, DeGrandchamp J, Groves J Biophys J. 2024; 123(19):3295-3303.

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Bimodality in Ras signaling originates from processivity of the Ras activator SOS without deterministic bistability.

Lee A, Kim N, Alvarez S, Ren H, DeGrandchamp J, Lew L Sci Adv. 2024; 10(25):eadi0707.

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Nonlinear dynamics in phosphoinositide metabolism.

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