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Identifying and Engineering Ion Pairs in Adenylate Kinases

Authors :
George N. Phillips
Euiyoung Bae
Source :
Journal of Biological Chemistry. 280:30943-30948
Publication Year :
2005
Publisher :
Elsevier BV, 2005.

Abstract

Molecular dynamics simulations were performed to study thermal stabilization of proteins via electrostatic interactions of ion pairs. Dynamic motions of four ion pairs previously proposed to be important in thermal stability of adenylate kinase from the thermophile Bacillus stearothermophilus were monitored during the simulation. One of the four ion pairs identified in the crystal structure, Lys180-Asp114, was not maintained in close contact suggesting that the ion pair does not contribute to thermal stability. Among the other three ion pairs, the ion pair Arg116-Glu198 was proposed to be the most important for stability. To predict behaviors of the ion pairs when engineered into a mesophilic homologue to increase stability, in silico mutants of adenylate kinase from the mesophile Bacillus subtilis were generated, and their molecular dynamics simulations were carried out. The ion pairs in the mutant simulations displayed similar behaviors to those in the simulation of the thermophilic protein. To validate the results of the simulations experimentally, the same mutants were produced in vitro and their thermal stabilities were measured using differential scanning calorimetry. In agreement with the simulations, the Lys180-Asp114 did not result in any increase in stability by itself or additive effect with other ion pairs, whereas a mutant with the Arg116-Glu198 exhibited the highest stability among the mutants having one of the four ion pairs. These results provide specific knowledge about stability in adenylate kinases and more generally suggest that molecular dynamics simulations can provide valuable information for identifying and engineering ion pairs.

Details

ISSN :
00219258
Volume :
280
Database :
OpenAIRE
Journal :
Journal of Biological Chemistry
Accession number :
edsair.doi...........cc38dab6950b707f6bdc609c2dbecc77