R.K. Wierenga scite author profile

Recent studies on triosephosphate isomerase (TIM)-barrel enzymes highlight the remarkable versatility of the TIMbarrel scaffold. At least 15 distinct enzyme families use this framework to generate the appropriate active site geometry, always at the C-terminal end of the eight parallel L L-strands of the barrel. Sequence and structure comparisons now suggest that many of the TIM-barrel enzymes are evolutionarily related. Common structural properties of TIM-barrel enzymes are discussed. ß

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Interaction of pyrophosphate moieties with .alpha.-helixes in dinucleotide-binding proteins

Wierenga¹,

Demaeyer²,

Hol³

1985

Biochemistry

517

371

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The crystal structure of an engineered monomeric triosephosphate isomerase, monoTIM: the correct modelling of an eight-residue loop

et al. 1993

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The coenzyme analog adenosine 5-diphosphoribose displaces FAD in the active site of p-hydroxybenzoate hydroxylase. An x-ray crystallographic investigation

Laan¹,

Schreuder²,

Swarte³

et al. 1989

Biochemistry

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p-Hydroxybenzoate hydroxylase (PHBH) is an NADPH-dependent enzyme. To locate the NADPH binding site, the enzyme was crystallized under anaerobic conditions in the presence of the substrate p-hydroxybenzoate, the coenzyme analogue adenosine 5-diphosphoribose (ADPR), and sodium dithionite. This yielded colorless crystals that were suitable for X-ray analysis. Diffraction data were collected up to 2.7-A resolution. A difference Fourier between data from these colorless crystals and data from yellow crystals of the enzyme-substrate complex showed that in the colorless crystals the flavin ring was absent. The adenosine 5'-diphosphate moiety, which is the common part between FAD and ADPR, was still present. After restrained least-squares refinement of the enzyme-substrate complex with the riboflavin omitted from the model, additional electron density appeared near the pyrophosphate, which indicated the presence of an ADPR molecule in the FAD binding site of PHBH. The complete ADPR molecule was fitted to the electron density, and subsequent least-squares refinement resulted in a final R factor of 16.8%. Replacement of bound FAD by ADPR was confirmed by equilibrium dialysis, where it was shown that ADPR can effectively remove FAD from the enzyme under mild conditions in 0.1 M potassium phosphate buffer, pH 8.0. The empty pocket left by the flavin ring is filled by solvent, leaving the architecture of the active site and the binding of the substrate largely unaffected.

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The structure of rabbit muscle phosphoglucomutase at intermediate resolution.

Lin¹,

Konno²,

Abad‐Zapatero³

et al. 1986

Journal of Biological Chemistry

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Crystal transfer experiments carried out with crystals of tryanosomal triosephosphate isomerase (TIM)

Wierenga

Zeelen

Noble

1992

Journal of Crystal Growth

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Selective Interaction of Glycosomal Enzymes from Trypanosoma brucei with Hydrophobic Cyclic Hexapeptides

Callens¹,

Vanroy²,

Zeelen³

et al. 1993

Biochemical and Biophysical Research Communications

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Crystallographic studies of 3-ketoacylCoA thiolase from yeast Saccharomyces cerevisiae

Zeelen

Wierenga

Erdmann

et al. 1990

Journal of Molecular Biology

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R.K. Wierenga

The TIM‐barrel fold: a versatile framework for efficient enzymes

Interaction of pyrophosphate moieties with .alpha.-helixes in dinucleotide-binding proteins

The crystal structure of an engineered monomeric triosephosphate isomerase, monoTIM: the correct modelling of an eight-residue loop

The coenzyme analog adenosine 5-diphosphoribose displaces FAD in the active site of p-hydroxybenzoate hydroxylase. An x-ray crystallographic investigation

The structure of rabbit muscle phosphoglucomutase at intermediate resolution.

Crystal transfer experiments carried out with crystals of tryanosomal triosephosphate isomerase (TIM)

Selective Interaction of Glycosomal Enzymes from Trypanosoma brucei with Hydrophobic Cyclic Hexapeptides

Crystallographic studies of 3-ketoacylCoA thiolase from yeast Saccharomyces cerevisiae

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