Saccharomyces cerevisiae THI4p is a suicide thiamine thiazole synthase. Academic Article

abstract

• Thiamine pyrophosphate 1 is an essential cofactor in all living systems. Its biosynthesis involves the separate syntheses of the pyrimidine 2 and thiazole 3 precursors, which are then coupled. Two biosynthetic routes to the thiamine thiazole have been identified. In prokaryotes, five enzymes act on three substrates to produce the thiazole via a complex oxidative condensation reaction, the mechanistic details of which are now well established. In contrast, only one gene product is involved in thiazole biosynthesis in eukaryotes (THI4p in Saccharomyces cerevisiae). Here we report the preparation of fully active recombinant wild-type THI4p, the identification of an iron-dependent sulphide transfer reaction from a conserved cysteine residue of the protein to a reaction intermediate and the demonstration that THI4p is a suicide enzyme undergoing only a single turnover.

authors

• Begley, Tadhg
• Russell, David

published proceedings

• Nature

altmetric score

• 34.592

author list (cited authors)

• Chatterjee, A., Abeydeera, N. D., Bale, S., Pai, P., Dorrestein, P. C., Russell, D. H., Ealick, S. E., & Begley, T. P.

citation count

• 130

complete list of authors

• Chatterjee, Abhishek||Abeydeera, N Dinuka||Bale, Shridhar||Pai, Pei-Jing||Dorrestein, Pieter C||Russell, David H||Ealick, Steven E||Begley, Tadhg P

publication date

• January 2011

publisher

• Springer Nature  Publisher

published in

• Nature  Journal

keywords

• Amino Acid Sequence
• Biocatalysis
• Carbon-nitrogen Lyases
• Conserved Sequence
• Cysteine
• Iron
• Molecular Sequence Data
• Recombinant Proteins
• Saccharomyces Cerevisiae
• Saccharomyces Cerevisiae Proteins
• Sulfides
• Sulfur
• Thiamine
• Thiamine Pyrophosphate
• Thiazoles

Digital Object Identifier (DOI)

• 10.1038/nature10503

start page

• 542

end page

• 546

volume

• 478

issue

• 7370

URL

• http://dx.doi.org/10.1038/nature10503