Delia Deaconescu scite author profile

The GTP‐binding protein Rap1 regulates integrin‐mediated and other cell adhesion processes. Unlike most other Ras‐related proteins, it contains a threonine in switch II instead of a glutamine (Gln61 in Ras), a residue crucial for the GTPase reaction of most G proteins. Furthermore, unlike most other GTPase‐activating proteins (GAPs) for small G proteins, which supply a catalytically important Arg‐finger, no arginine residue of RapGAP makes a significant contribution to the GTPase reaction of Rap1. For a detailed understanding of the reaction mechanism, we have solved the structure of Rap1 in complex with Rap1GAP. It shows that the Thr61 of Rap is away from the active site and that an invariant asparagine of RapGAPs, the Asn‐thumb, takes over the role of the cis‐glutamine of Ras, Rho or Ran. The structure and biochemical data allow to further explain the mechanism and to define the important role of a conserved tyrosine. The structure and biochemical data furthermore show that the RapGAP homologous region of the tumour suppressor Tuberin is sufficient for catalysis on Rheb.

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GAP1 Family Members Constitute Bifunctional Ras and Rap GTPase-activating Proteins

Kupzig

Deaconescu

Bouyoucef

et al. 2006

Journal of Biological Chemistry

110

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Unravelling the mechanism of dual-specificity GAPs

Sot

Kötting

Deaconescu

et al. 2010

EMBO J

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The molecular mechanism by which dual-specificity RasGAPs of the Gap1 subfamily activate the GTP hydrolysis of both Rap and Ras is an unresolved phenomenon. RasGAPs and RapGAPs use different strategies to stimulate the GTPase reaction of their cognate G-proteins. RasGAPs contribute an arginine finger to orient through the Gln61 of Ras the nucleophilic water molecule. RapGAP contributes an asparagine (Asn thumb) into the active site to substitute for the missing Gln61. Here, by using steadystate kinetic assays and time-resolved Fourier-transform infrared spectroscopy (FTIR) experiments with wild type and mutant proteins, we unravel the remarkable mechanism for the specificity switch. The plasticity of GAP1 IP4BP and RASAL is mediated by the extra GTPase-activating protein (GAP) domains, which promote a different orientation of Ras and Rap's switch-II and catalytic residues in the active site. Thereby, Gln63 in Rap adopts the catalytic role normally taken by Gln61 of Ras. This re-orientation requires specific interactions between switch-II of Rap and helix-a6 of GAPs. This supports the notion that the specificities of fl proteins versus GAP domains are potentially different.

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Structure of the Rap-RapGAP complex

Scrima¹,

Thomas²,

Deaconescu³

et al. 2008

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