Soreen Cyphers scite author profile

The catalytic activity of many protein kinases is controlled by conformational changes of a conserved Asp-Phe-Gly (DFG) motif. We used an infrared probe to track the DFG motif of the mitotic kinase Aurora A (AurA) and found that allosteric activation by the spindle-associated protein Tpx2 involves an equilibrium shift towards the active DFG-In state. Förster resonance energy transfer experiments show that the activation loop undergoes a nanometer-scale movement that is tightly coupled to the DFG equilibrium. Tpx2 further activates AurA by stabilizing a water-mediated allosteric network that links the C-helix to the active site through an unusual polar residue in the regulatory spine. The polar spine residue and water network of AurA are essential for phosphorylation-driven activation, but an alternative form of the water network found in related kinases can support Tpx2-driven activation, suggesting that variations in the water-mediated hydrogen bond network mediate regulatory diversification in protein kinases.

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A dynamic mechanism for allosteric activation of Aurora kinase A by activation loop phosphorylation

Ruff

Muretta

Thompson

et al. 2018

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Many eukaryotic protein kinases are activated by phosphorylation on a specific conserved residue in the regulatory activation loop, a post-translational modification thought to stabilize the active DFG-In state of the catalytic domain. Here we use a battery of spectroscopic methods that track different catalytic elements of the kinase domain to show that the ~100 fold activation of the mitotic kinase Aurora A (AurA) by phosphorylation occurs without a population shift from the DFG-Out to the DFG-In state, and that the activation loop of the activated kinase remains highly dynamic. Instead, molecular dynamics simulations and electron paramagnetic resonance experiments show that phosphorylation triggers a switch within the DFG-In subpopulation from an autoinhibited DFG-In substate to an active DFG-In substate, leading to catalytic activation. This mechanism raises new questions about the functional role of the DFG-Out state in protein kinases.

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A dynamic mechanism for allosteric activation of Aurora kinase A by activation loop phosphorylation

Ruff

Muretta

Thompson

et al. 2017

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23Many eukaryotic protein kinases are activated by phosphorylation on a specific conserved 24 residue in the regulatory activation loop, a post-translational modification thought to stabilize the 25 active DFG-In state of the catalytic domain. Here we use a battery of spectroscopic methods 26. CC-BY 4.0 International license peer-reviewed) is the author/funder. It is made available under aThe copyright holder for this preprint (which was not . http://dx.doi.org/10.1101/205260 doi: bioRxiv preprint first posted online 2 that track different catalytic elements of the kinase domain to show that the ~100-fold activation 27 of the mitotic kinase Aurora A (AurA) by phosphorylation occurs without a population shift to the 28 DFG-In state, and that the activation loop of the activated kinase remains highly dynamic.

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Author response: A dynamic mechanism for allosteric activation of Aurora kinase A by activation loop phosphorylation

Ruff

Muretta

Thompson

et al. 2018

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show abstract

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Soreen Cyphers

A water-mediated allosteric network governs activation of Aurora kinase A

A dynamic mechanism for allosteric activation of Aurora kinase A by activation loop phosphorylation

A dynamic mechanism for allosteric activation of Aurora kinase A by activation loop phosphorylation

Author response: A dynamic mechanism for allosteric activation of Aurora kinase A by activation loop phosphorylation

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