Structural basis for the catalysis and substrate specificity of homoserine kinase

S. S. Krishna, T. Zhou, M. Daugherty, A. Osterman, H. Zhang

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71 Scopus citations


Homoserine kinase (HSK), the fourth enzyme in the aspartate pathway of amino acid biosynthesis, catalyzes me pnosphorylanon of L-homoserine (Hse) to L-homoserine phosphate, an intermediate in the production of L-threonine, L-isoleucine, and in higher plants, L-methionine. The high-resolution structures of Methanococcus jannaschii HSK ternary complexes with its amino acid substrate and ATP analogues have been determined by X-ray crystallography. These structures reveal the structural determinants of the tight and highly specific binding of Hse, which is coupled with local conformational changes that enforce the sequestration of the substrate. The δ-hydroxyl group of bound Hse is only 3.4 Å away from the γ-phosphate of the bound nucleotide, poised for the in-line attack at the γ-phosphorus. The bound nucleotides are flexible at the triphosphate tail. Nevertheless, a Mg2+ was located in one of the complexes that binds between the β- and γ-phosphates of the nucleotide with good ligand geometry and is coordinated by the side chain of Glu130. No strong nucleophile (base) can be located near the phosphoryl acceptor hydroxyl group. Therefore, we propose that the catalytic mechanism of HSK does not involve a catalytic base for activating the phosphoryl acceptor hydroxyl but instead is mediated via a transition state stabilization mechanism.

Original languageEnglish (US)
Pages (from-to)10810-10818
Number of pages9
Issue number36
StatePublished - Sep 11 2001

ASJC Scopus subject areas

  • Biochemistry


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