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Thiazole synthase from Escherichia coli: an investigation of the substrates and purified proteins required for activity in vitro

Thiazole synthase from Escherichia coli: an investigation of the substrates and purified proteins required for activity in vitro
Thiazole synthase from Escherichia coli: an investigation of the substrates and purified proteins required for activity in vitro
Thiamine is biosynthesized by combining two heterocyclic precursors. In Escherichia coli and other anaerobes, one of the heterocycles, 4-methyl-5-(-hydroxyethyl) thiazole phosphate, is biosynthesized from 1-deoxyxylulose-5-phosphate, tyrosine, and cysteine. Genetic evidence has identified thiH, thiG, thiS, and thiF as essential for thiazole biosynthesis in E. coli. In this paper, we describe the measurement of the thiazole phosphate-forming reaction using purified protein components. The activity is shown to require four proteins isolated as heterodimers: ThiGH and ThiFS. Reconstitution of the [4Fe-4S] cluster in ThiH was essential for activity, as was the use of ThiS in the thiocarboxylate form. Spectroscopic studies with ThiGH strongly suggested that S-adenosylmethionine (AdoMet) bound to the [4Fe-4S] cluster, which became more susceptible to reduction to the +1 state. Assays of thiazole phosphate formation showed that, in addition to the proteins, Dxp, tyrosine, AdoMet, and a reductant were required. The analysis showed that no more than 1 mol eq of thiazole phosphate was formed per ThiGH. Furthermore, for each mole of thiazole-P formed, 1 eq of AdoMet and 1 eq of tyrosine were utilized, and 1 eq of 5'-deoxyadenosine was produced. These results demonstrate that ThiH is a member of the "radical-AdoMet" family and support a mechanistic hypothesis in which AdoMet is reductively cleaved to yield a highly reactive 5'-deoxyadenosyl radical. This radical is proposed to abstract the phenolic hydrogen atom from tyrosine, and the resultant substrate radical cleaves to yield dehydroglycine, which is required by ThiG for the thiazole cyclization reaction.
biotin synthase, thiamin biosynthesis, identification, electron-paramagnetic-resonance, phosphate moiety, lysine 2, adenosyl-l-methionine, iron, bacillus-subtilis, anaerobic ribonucleotide reductase, 3-aminomutase
0021-9258
17413-17423
Kriek, M.
e01ddb12-38a7-4733-9e13-c0e5d9670cca
Martins, F.
c5cad3a6-9e8a-42a6-b9aa-73eb3ad21aee
Leonardi, R.
5eeb5bb4-35c4-4277-b309-e9cb19d58b65
Fairhurst, S.A.
a0c85a84-f0f3-4090-a668-c0df111ac481
Lowe, D.J.
555d492d-8f1c-4956-8686-deb46006f21e
Roach, P.L.
ca94060c-4443-482b-af3e-979243488ba9
Kriek, M.
e01ddb12-38a7-4733-9e13-c0e5d9670cca
Martins, F.
c5cad3a6-9e8a-42a6-b9aa-73eb3ad21aee
Leonardi, R.
5eeb5bb4-35c4-4277-b309-e9cb19d58b65
Fairhurst, S.A.
a0c85a84-f0f3-4090-a668-c0df111ac481
Lowe, D.J.
555d492d-8f1c-4956-8686-deb46006f21e
Roach, P.L.
ca94060c-4443-482b-af3e-979243488ba9

Kriek, M., Martins, F., Leonardi, R., Fairhurst, S.A., Lowe, D.J. and Roach, P.L. (2007) Thiazole synthase from Escherichia coli: an investigation of the substrates and purified proteins required for activity in vitro. The Journal of Biological Chemistry, 282 (24), 17413-17423. (doi:10.1074/jbc.M700782200).

Record type: Article

Abstract

Thiamine is biosynthesized by combining two heterocyclic precursors. In Escherichia coli and other anaerobes, one of the heterocycles, 4-methyl-5-(-hydroxyethyl) thiazole phosphate, is biosynthesized from 1-deoxyxylulose-5-phosphate, tyrosine, and cysteine. Genetic evidence has identified thiH, thiG, thiS, and thiF as essential for thiazole biosynthesis in E. coli. In this paper, we describe the measurement of the thiazole phosphate-forming reaction using purified protein components. The activity is shown to require four proteins isolated as heterodimers: ThiGH and ThiFS. Reconstitution of the [4Fe-4S] cluster in ThiH was essential for activity, as was the use of ThiS in the thiocarboxylate form. Spectroscopic studies with ThiGH strongly suggested that S-adenosylmethionine (AdoMet) bound to the [4Fe-4S] cluster, which became more susceptible to reduction to the +1 state. Assays of thiazole phosphate formation showed that, in addition to the proteins, Dxp, tyrosine, AdoMet, and a reductant were required. The analysis showed that no more than 1 mol eq of thiazole phosphate was formed per ThiGH. Furthermore, for each mole of thiazole-P formed, 1 eq of AdoMet and 1 eq of tyrosine were utilized, and 1 eq of 5'-deoxyadenosine was produced. These results demonstrate that ThiH is a member of the "radical-AdoMet" family and support a mechanistic hypothesis in which AdoMet is reductively cleaved to yield a highly reactive 5'-deoxyadenosyl radical. This radical is proposed to abstract the phenolic hydrogen atom from tyrosine, and the resultant substrate radical cleaves to yield dehydroglycine, which is required by ThiG for the thiazole cyclization reaction.

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Published date: 2007
Keywords: biotin synthase, thiamin biosynthesis, identification, electron-paramagnetic-resonance, phosphate moiety, lysine 2, adenosyl-l-methionine, iron, bacillus-subtilis, anaerobic ribonucleotide reductase, 3-aminomutase
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Identifiers

Local EPrints ID: 54326
URI: http://eprints.soton.ac.uk/id/eprint/54326
DOI: doi:10.1074/jbc.M700782200
ISSN: 0021-9258
PURE UUID: c91111c4-cbb6-414b-a0b5-c52e7fa83f6f
ORCID for P.L. Roach: ORCID iD orcid.org/0000-0001-9880-2877

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Date deposited: 31 Jul 2008
Last modified: 15 Mar 2024 10:46

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Contributors

Author: M. Kriek
Author: F. Martins
Author: R. Leonardi
Author: S.A. Fairhurst
Author: D.J. Lowe
Author: P.L. Roach ORCID iD

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