Description:
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A high-resolution structure determination of glycolate oxidase from spinach is reported. X-ray data were collected on films at the synchrotron radiation source in Daresbury, England. The structure was solved by using two heavy-atom derivatives and a solvent-flattening procedure developed by B.-C. Wang. The subunit structure is essentially a structure of the eight-stranded α/β-barrel type first described for triosephosphate isomerase. In addition, there are 70 residues at the NH
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terminus and 45 residues between strand four and helix four of the barrel, which are arranged in a helical domain outside the COOH end of the parallel strands of the barrel. The active site is in a cleft between these domains with the coenzyme FMN essentially bound to the barrel and a substrate analogue, thioglycolate, bound to the helical domain. The molecule is octameric with 422 symmetry and has a 15- to 20-Å-wide hole in the middle.
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