Cold-active citrate synthase: mutagenesis of active-site residues

doi:10.1093/protein/14.9.655

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Protein Engineering, Vol. 14, No. 9, 655-661, September 2001
© 2001 Oxford University Press

Cold-active citrate synthase: mutagenesis of active-site residues

Ursula Gerike, Michael J. Danson^,1 and David W. Hough

Centre for Extremophile Research, Department of Biology and Biochemistry, University of Bath, Bath BA2 7AY, UK

A comparison of the crystal structure of the dimeric enzymecitrate synthase from the psychrophilic Arthrobacter strainDS2-3R with that of the structurally homologous enzyme fromthe hyperthermophilic Pyrococcus furiosus reveals a significantdifference in the accessibility of their active sites to substrates.In this work, we investigated the possible role in cold activityof the greater accessibility of the Arthrobacter citrate synthase.By site-directed mutagenesis, we replaced two alanine residuesat the entrance to the active site with an arginine and glutamateresidue, respectively, as found in the equivalent positionsof the Pyrococcus enzyme Also, we introduced a loop into theactive site of the psychrophilic citrate synthase, again mimickingthe situation in the hyperthermophilic enzyme. Analysis of thethermoactivity and thermostability of the mutant enzymes revealsthat cold activity is not significantly compromised by the mutations,but rather the affinity for one of the substrates, acetyl-CoA,is dramatically increased. Moreover, one mutant (Loop insertion/K313L/A361R)has an increased thermostability but a reduced temperature optimumfor catalytic activity. This unexpected relationship betweenstability and activity is discussed with respect to the natureof the dependence of catalytic activity on temperature.

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Cold-active citrate synthase: mutagenesis of active-site residues