Kent Gorday scite author profile

Kent Gorday

3Publications

67Citation Statements Received

298Citation Statements Given

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Affiliations

Howard Hughes Medical Institute, QB3, University of California, Berkeley

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Allosteric communication in DNA polymerase clamp loaders relies on a critical hydrogen-bonded junction

Subramanian

Gorday

Marcus

et al. 2021

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Clamp loaders are AAA+ ATPases that load sliding clamps onto DNA. We mapped the mutational sensitivity of the T4 bacteriophage sliding clamp and clamp loader by deep mutagenesis, and found that residues not involved in catalysis or binding display remarkable tolerance to mutation. An exception is a glutamine residue in the AAA+ module (Gln 118) that is not located at a catalytic or interfacial site. Gln 118 forms a hydrogen-bonded junction in a helical unit that we term the central coupler, because it connects the catalytic centers to DNA and the sliding clamp. A suppressor mutation indicates that hydrogen bonding in the junction is important, and molecular dynamics simulations reveal that it maintains rigidity in the central coupler. The glutamine-mediated junction is preserved in diverse AAA+ ATPases, suggesting that a connected network of hydrogen bonds that links ATP molecules is an essential aspect of allosteric communication in these proteins.

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Allosteric communication in DNA polymerase clamp loaders relies on a critical hydrogen-bonded junction

Subramanian

Gorday

Marcus

et al. 2021

Preprint

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A Saturation-Mutagenesis Analysis of the Interplay Between Stability and Activation in Ras

Hidalgo

Nocka

Shah

et al. 2022

Preprint

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Cancer mutations in Ras occur predominantly at three hotspots: Gly 12, Gly 13, and Gln 61. Previously, we reported that deep mutagenesis of H?Ras using a bacterial assay identified many other activating mutations (Bandaru et al., 2017). We now show that the results of saturation mutagenesis of H?Ras in mammalian Ba/F3 cells correlate well with results of bacterial experiments in which H-Ras or K-Ras are co-expressed with a GTPase?activating protein (GAP). The prominent cancer hotspots are not dominant in the Ba/F3 data. We used the bacterial system to mutagenize Ras constructs of different stabilities and discovered a feature that distinguishes the cancer hotspots. While mutations at the cancer hotspots activate Ras regardless of construct stability, mutations at lower-frequency sites (e.g., at Val 14 or Asp 119) can be activating or deleterious, depending on the stability of the Ras construct. We characterized the dynamics of three non-hotspot activating Ras mutants by using NMR to monitor hydrogen?deuterium exchange (HDX). These mutations result in global increases in HDX rates, consistent with the destabilization of Ras. An explanation for these observations is that mutations that destabilize Ras increase nucleotide dissociation rates, enabling activation by spontaneous nucleotide exchange. A further stability decrease can lead to insufficient levels of folded Ras – and subsequent loss of function. In contrast, the cancer hotspot mutations are mechanism-based activators of Ras that interfere directly with the action of GAPs. Our results demonstrate the importance of GAP surveillance and protein stability in determining the sensitivity of Ras to mutational activation.

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Kent Gorday

Allosteric communication in DNA polymerase clamp loaders relies on a critical hydrogen-bonded junction

Allosteric communication in DNA polymerase clamp loaders relies on a critical hydrogen-bonded junction

A Saturation-Mutagenesis Analysis of the Interplay Between Stability and Activation in Ras

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