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Biochemical, Bioinformatic, and Structural Comparisons of Transketolases and Position of Human Transketolase in the Enzyme Evolution.

Rainier-Numa GeorgesLionel BallutNushin AghajariLaurence HecquetFranck CharmantrayBastien Doumèche
Published in: Biochemistry (2024)
Transketolases (TKs) are key enzymes of the pentose phosphate pathway, regulating several other critical pathways in cells. Considering their metabolic importance, TKs are expected to be conserved throughout evolution. However, Tittmann et al. ( J Biol Chem , 2010 , 285(41): 31559-31570) demonstrated that Homo sapiens TK ( hs TK) possesses several structural and kinetic differences compared to bacterial TKs. Here, we study 14 TKs from pathogenic bacteria, fungi, and parasites and compare them with hs TK using biochemical, bioinformatic, and structural approaches. For this purpose, six new TK structures are solved by X-ray crystallography, including the TK of Plasmodium falciparum . All of these TKs have the same general fold as bacterial TKs. This comparative study shows that hs TK greatly differs from TKs from pathogens in terms of enzymatic activity, spatial positions of the active site, and monomer-monomer interface residues. An ubiquitous structural pattern is identified in all TKs as a six-residue histidyl crown around the TK cofactor (thiamine pyrophosphate), except for hs TK containing only five residues in the crown. Residue mapping of the monomer-monomer interface and the active site reveals that hs TK contains more unique residues than other TKs. From an evolutionary standpoint, TKs from animals (including H. sapiens ) and Schistosoma sp. belong to a distinct structural group from TKs of bacteria, plants, fungi, and parasites, mostly based on a different linker between domains, raising hypotheses regarding evolution and regulation.
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