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FEBS Lett. 1999 Aug 27;457(2):189-92.

Analysis of the domain structure of elongation factor-2 kinase by mutagenesis.

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Department of Biochemistry, University of Leicester, University Road, Leicester, UK.


A number of elongation factor-2 kinase (eEF-2K) mutants were constructed to investigate features of this kinase that may be important in its activity. Typical protein kinases possess a highly conserved lysine residue in subdomain II which follows the GXGXXG motif of subdomain I. Mutation of two lysine residues, K340 and K346, which follow the GXGXXG motif in eEF-2K had no effect on activity, showing that such a lysine residue is not important in eEF-2K activity. Mutation of a conserved pair of cysteine residues C-terminal to the GXGXXG sequence, however, completely inactivated eEF-2K. The eEF-2K CaM binding domain was localised to residues 77-99 which reside N-terminal to the catalytic domain. Tryptophan 84 is an important residue within this domain as mutation of this residue completely abolishes CaM binding and eEF-2K activity. Removal of approximately 130 residues from the C-terminus of eEF-2K completely abolished autokinase activity; however, removal of only 19 residues inhibited eEF-2 kinase activity but not autokinase activity, suggesting that a short region at the C-terminal end may be important in interacting with eEF-2. Likewise, removal of between 75 and 100 residues from the N-terminal end completely abolished eEF-2K activity.

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