G. J. Schlauderer scite author profile

In vertebrates, there are different adenylate kinases in the compartments cytosol, mitochondrial intermembrane space, and mitochondrial matrix. Here, we report the spatial structure of the intermembrane species established in two crystal forms by X-ray diffraction analyses at 1.92 and 2.1 A resolution. In both structures, the enzyme is unligated, and thus in an "open" conformation. The enzyme was prepared from bovine liver, containing at least five variants arisen from posttranscriptional and posttranslational modifications. It could only be crystallized after removing some of these variants. A comparison with the known structures of the adenylate kinases from cytosol and mitochondrial matrix reveals structural differences that should play a role in protein targeting because none of these enzymes contains a cleavable signal peptide. A further comparison with adenylate kinases from Grampositive bacteria showed that the structural Zn2+ ion of these species is replaced by a strictly conserved assembly of hydrogen bonded residues.

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Highly ordered crystals of channel-forming membrane proteins, of nucleoside-monophosphate kinases, of FAD-containing oxidoreductases and of sugar-processing enzymes and their mutants

Schulz

Dreyer

Klein

et al. 1992

Journal of Crystal Growth

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G. J. Schlauderer

Adenylate kinase motions during catalysis: an energetic counterweight balancing substrate binding

Movie of the structural changes during a catalytic cycle of nucleoside monophosphate kinases

Structure of a Mutant Adenylate Kinase Ligated with an ATP-analogue Showing Domain Closure Over ATP

The structure of bovine mitochondrial adenylate kinase: Comparison with isoenzymes in other compartments

Highly ordered crystals of channel-forming membrane proteins, of nucleoside-monophosphate kinases, of FAD-containing oxidoreductases and of sugar-processing enzymes and their mutants

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