guanosine-diphosphate and beryllium-trifluoride

guanosine-diphosphate has been researched along with beryllium-trifluoride* in 1 studies

Other Studies

1 other study(ies) available for guanosine-diphosphate and beryllium-trifluoride

Article	Year
Characterization of the hinges of the effector loop in the reaction pathway of the activation of ras-proteins. Kinetics of binding of beryllium trifluoride to V29G and I36G mutants of Ha-ras-p21. Protein science : a publication of the Protein Society, 1999, Volume: 8, Issue:9 This work experimentally confirms the pathway of activation of Ha-ras-p21, which was calculated by the method of Targeted Molecular Dynamics (TMD) (Díaz JF, Wroblowski B, Schlitter J, Engelborghs Y, 1997a, Proteins Struct Funct Genet 28:434-451). The process can be studied experimentally by analyzing the binding of BeF3- to the GDP complex of the active fluorescent mutant Y32W (Díaz JF, Sillen A, Engelborghs Y, 1997b, J Biol Chem 227:23138-23143). Two mutants, V29G and 136G, have been constructed at both sides of the effector loop of the active fluorescent mutant. This was done to check the proposed reaction pathway and to provide further insight into the mechanism of the activation of ras proteins. Both mutations accelerate the conformational isomerization with two orders of magnitude, demonstrating convincingly the role of these residues as hinges of the effector loop in one or more of the transitions of the conformational change. These results provide experimental support to the pathway calculated by TMD analysis. Topics: Beryllium; Fluorides; Glycine; Guanosine Diphosphate; Humans; Isoleucine; Kinetics; Point Mutation; Protein Binding; Protein Conformation; Proto-Oncogene Proteins p21(ras); Thermodynamics; Valine	1999

Article

Year

Characterization of the hinges of the effector loop in the reaction pathway of the activation of ras-proteins. Kinetics of binding of beryllium trifluoride to V29G and I36G mutants of Ha-ras-p21.

Protein science : a publication of the Protein Society, 1999, Volume: 8, Issue:9

This work experimentally confirms the pathway of activation of Ha-ras-p21, which was calculated by the method of Targeted Molecular Dynamics (TMD) (Díaz JF, Wroblowski B, Schlitter J, Engelborghs Y, 1997a, Proteins Struct Funct Genet 28:434-451). The process can be studied experimentally by analyzing the binding of BeF3- to the GDP complex of the active fluorescent mutant Y32W (Díaz JF, Sillen A, Engelborghs Y, 1997b, J Biol Chem 227:23138-23143). Two mutants, V29G and 136G, have been constructed at both sides of the effector loop of the active fluorescent mutant. This was done to check the proposed reaction pathway and to provide further insight into the mechanism of the activation of ras proteins. Both mutations accelerate the conformational isomerization with two orders of magnitude, demonstrating convincingly the role of these residues as hinges of the effector loop in one or more of the transitions of the conformational change. These results provide experimental support to the pathway calculated by TMD analysis.

Topics: Beryllium; Fluorides; Glycine; Guanosine Diphosphate; Humans; Isoleucine; Kinetics; Point Mutation; Protein Binding; Protein Conformation; Proto-Oncogene Proteins p21(ras); Thermodynamics; Valine

1999