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Leveraging the histidine kinase-phosphatase duality to sculpt two-component signaling

Stefanie Meier, Elina Multamäki, Américo Tavares Ranzani, Heikki Takala, Andreas Möglich

2024Nature Communications26 citationsDOIOpen Access PDF

Abstract

Bacteria must constantly probe their environment for rapid adaptation, a crucial need most frequently served by two-component systems (TCS). As one component, sensor histidine kinases (SHK) control the phosphorylation of the second component, the response regulator (RR). Downstream responses hinge on RR phosphorylation and can be highly stringent, acute, and sensitive because SHKs commonly exert both kinase and phosphatase activity. With a bacteriophytochrome TCS as a paradigm, we here interrogate how this catalytic duality underlies signal responses. Derivative systems exhibit tenfold higher red-light sensitivity, owing to an altered kinase-phosphatase balance. Modifications of the linker intervening the SHK sensor and catalytic entities likewise tilt this balance and provide TCSs with inverted output that increases under red light. These TCSs expand synthetic biology and showcase how deliberate perturbations of the kinase-phosphatase duality unlock altered signal-response regimes. Arguably, these aspects equally pertain to the engineering and the natural evolution of TCSs.

Topics & Concepts

Histidine kinaseComponent (thermodynamics)Duality (order theory)PhosphataseHistidineKinaseComputer scienceCell biologyComputational biologyPhosphorylationBiochemistryBiologyEnzymePhysicsMathematicsCombinatoricsThermodynamicsGene Regulatory Network AnalysisMicrotubule and mitosis dynamicsPhotosynthetic Processes and Mechanisms
Leveraging the histidine kinase-phosphatase duality to sculpt two-component signaling | Litcius