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Structure at 1.65 Å of RhoA and its GTPase-activating protein in complex with a transition-state analogue

Katrin Rittinger, Philip A. Walker, John F. Eccleston, Stephen J. Smerdon () and Steven J. Gamblin
Additional contact information
John F. Eccleston: National Institute for Medical Research
Stephen J. Smerdon: National Institute for Medical Research
Steven J. Gamblin: National Institute for Medical Research

Nature, 1997, vol. 389, issue 6652, 758-762

Abstract: Abstract Small G proteins of the Rho family, which includes Rho, Rac and Cdc42Hs, regulate phosphorylation pathways that control a range of biological functions including cytoskeleton formation and cell proliferation1,2,3,4,5,6,7. They operate as molecular switches, cycling between the biologically active GTP-bound form and the inactive GDP-bound state. Their rate of hydrolysis of GTP to GDP by virtue of their intrinsic GTPase activity is slow, but can be accelerated by up to 105-fold through interaction with rhoGAP, a GTPase-activating protein that stimulates Rho-family proteins8,9. As such, rhoGAP plays a crucial role in regulating Rho-mediated signalling pathways. Here we report the crystal structure of RhoA and rhoGAP complexed with the transition-state analogue GDP.AlF4−at 1.65 Å resolution. There is a rotation of 20 degrees between the Rho and rhoGAP proteins in this complex when compared with the ground-state complex Cdc42Hs.GMPPNP/rhoGAP, in which Cdc42Hs is bound to the non-hydrolysable GTP analogue GMPPNP10. Consequently, in the transition state complex but not in the ground state, the rhoGAP domain contributes a residue, Arg 85GAP, directly into the active site of the G protein. We propose that this residue acts to stabilize the transition state of the GTPase reaction. RhoGAP also appears to function by stabilizing several regions of RhoA that are important in signalling the hydrolysis of GTP.

Date: 1997
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DOI: 10.1038/39651

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