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Structural determinants of affinity enhancement between GoLoco motifs and G-protein alpha subunit mutants.


ABSTRACT: GoLoco motif proteins bind to the inhibitory G(i) subclass of G-protein ? subunits and slow the release of bound GDP; this interaction is considered critical to asymmetric cell division and neuro-epithelium and epithelial progenitor differentiation. To provide protein tools for interrogating the precise cellular role(s) of GoLoco motif/G?(i) complexes, we have employed structure-based protein design strategies to predict gain-of-function mutations that increase GoLoco motif binding affinity. Here, we describe fluorescence polarization and isothermal titration calorimetry measurements showing three predicted G?(i1) point mutations, E116L, Q147L, and E245L; each increases affinity for multiple GoLoco motifs. A component of this affinity enhancement results from a decreased rate of dissociation between the G? mutants and GoLoco motifs. For G?(i1)(Q147L), affinity enhancement was seen to be driven by favorable changes in binding enthalpy, despite reduced contributions from binding entropy. The crystal structure of G?(i1)(Q147L) bound to the RGS14 GoLoco motif revealed disorder among three peptide residues surrounding a well defined Leu-147 side chain. Monte Carlo simulations of the peptide in this region showed a sampling of multiple backbone conformations in contrast to the wild-type complex. We conclude that mutation of Glu-147 to leucine creates a hydrophobic surface favorably buried upon GoLoco peptide binding, yet the hydrophobic Leu-147 also promotes flexibility among residues 511-513 of the RGS14 GoLoco peptide.

SUBMITTER: Bosch DE 

PROVIDER: S-EPMC3030341 | biostudies-literature | 2011 Feb

REPOSITORIES: biostudies-literature

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Structural determinants of affinity enhancement between GoLoco motifs and G-protein alpha subunit mutants.

Bosch Dustin E DE   Kimple Adam J AJ   Sammond Deanne W DW   Muller Robin E RE   Miley Michael J MJ   Machius Mischa M   Kuhlman Brian B   Willard Francis S FS   Siderovski David P DP  

The Journal of biological chemistry 20101129 5


GoLoco motif proteins bind to the inhibitory G(i) subclass of G-protein α subunits and slow the release of bound GDP; this interaction is considered critical to asymmetric cell division and neuro-epithelium and epithelial progenitor differentiation. To provide protein tools for interrogating the precise cellular role(s) of GoLoco motif/Gα(i) complexes, we have employed structure-based protein design strategies to predict gain-of-function mutations that increase GoLoco motif binding affinity. Her  ...[more]

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