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Literature DB >> 12454458

Refinement of the arginine kinase transition-state analogue complex at 1.2 A resolution: mechanistic insights.

Mohammad S Yousef¹, Felcy Fabiola, James L Gattis, Thayumanasamy Somasundaram, Michael S Chapman.

Abstract

The three-dimensional crystal structure of an arginine kinase transition-state analogue complex has been refined at 1.2 A resolution, with an overall R factor of 12.3%. The current model provides a unique opportunity to analyze the structure of a bimolecular (phosphagen kinase) enzyme in its transition state. This atomic resolution structure confirms in-line transfer of the phosphoryl group and the catalytic importance of the precise alignment of the substrates. The structure is consistent with a concerted proton transfer that has been proposed for an unrelated kinase. Refinement of anisotropic temperature factors and translation-libration-screw (TLS) analyses led to the identification of four rigid groups and their prevalent modes of motion in the transition state. The relative magnitudes of the mobility of rigid groups are consistent with their proposed roles in catalysis.

Mesh：

Substances：
Arginine Kinase

Year: 2002 PMID： 12454458 DOI： 10.1107/s0907444902014683

Source DB: PubMed Journal: Acta Crystallogr D Biol Crystallogr ISSN： 0907-4449

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Cited

27 in total

1. Deceleration of arginine kinase refolding by induced helical structures.

Authors: Hai-Long Li; Sheng-Mei Zhou; Daeui Park; Hyoung Oh Jeong; Hae Young Chung; Jun-Mo Yang; Fan-Guo Meng; Wei-Jiang Hu
Journal: Protein J Date: 2012-04 Impact factor: 2.371

2. The structure of lombricine kinase: implications for phosphagen kinase conformational changes.

Authors: D Jeffrey Bush; Olga Kirillova; Shawn A Clark; Omar Davulcu; Felcy Fabiola; Qing Xie; Thayumanasamy Somasundaram; W Ross Ellington; Michael S Chapman
Journal: J Biol Chem Date: 2011-01-06 Impact factor: 5.157

3. Arginine kinase: joint crystallographic and NMR RDC analyses link substrate-associated motions to intrinsic flexibility.

Authors: Xiaogang Niu; Lei Bruschweiler-Li; Omar Davulcu; Jack J Skalicky; Rafael Brüschweiler; Michael S Chapman
Journal: J Mol Biol Date: 2010-11-12 Impact factor: 5.469

Refinement of the arginine kinase transition-state analogue complex at 1.2 A resolution: mechanistic insights.

1. Deceleration of arginine kinase refolding by induced helical structures.

2. The structure of lombricine kinase: implications for phosphagen kinase conformational changes.

3. Arginine kinase: joint crystallographic and NMR RDC analyses link substrate-associated motions to intrinsic flexibility.

4. Interactions and dynamics of the Shine Dalgarno helix in the 70S ribosome.

5. Crystallization and X-ray analysis of the Schistosoma mansoni guanidino kinase.

6. Crystal structures of arginine kinase in complex with ADP, nitrate, and various phosphagen analogs.

7. The Michaelis Complex of Arginine Kinase Samples the Transition State at a Frequency That Matches the Catalytic Rate.

8. Intrinsic domain and loop dynamics commensurate with catalytic turnover in an induced-fit enzyme.

9. The role of phosphagen specificity loops in arginine kinase.

10. Hyperconjugation-mediated solvent effects in phosphoanhydride bonds.