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  • Title: Reaction mechanisms of Trp120-->Phe and wild-type glucoamylases from Aspergillus niger. Interactions with maltooligodextrins and acarbose.
    Author: Olsen K, Christensen U, Sierks MR, Svensson B.
    Journal: Biochemistry; 1993 Sep 21; 32(37):9686-93. PubMed ID: 8373772.
    Abstract:
    Interactions of wild-type and Trp120-->Phe glucoamylase with maltooligodextrin (Gx) substrates and the tight-binding inhibitor acarbose (A) were investigated here using stopped-flow fluorescence spectroscopy and steady-state kinetic measurements. All wild-type and Trp120-->Phe glucoamylase reactions followed the three-step model E + Gx(or A) (k1) <==> (k-1) EGx (or A) (k2) <==> (k-2) E*Gx(or A) (k3) --> E + P or E-A, previously shown to account for the glucoamylase-maltose system [Olsen, K., Svensson, B., & Christensen, U. (1992) Eur. J. Biochem. 209, 777-784]. K1 = k-1/k1, k2, and k-2, and the catalytic constant, k3, are determined. Binding of maltooligodextrins in the first reaction step is weak, with little difference between wild-type and Trp120-->Phe glucoamylase. The second step, involving a conformational change, in contrast, is strongly influenced by the mutation and by the substrate length. Here wild-type glucoamylase reacts faster and forms more stable intermediates the longer the substrate. In contrast, Trp120-->Phe reacts slower the longer the substrate. The effect of the mutation is thus smallest on maltose. The Trp120-->Phe substitution reduces the fluorescence signal only by 12-20%, indicating that other tryptophanyl residues are important in reporting the conformational change. Trp120 also strongly influences the actual catalytic step, since the mutation decreases the kc values 30-80-fold. Acarbose behaves similar to maltotetraose in the first and the second steps with wild-type but not the Trp120-->Phe glucoamylase. Also, a third step in the acarbose reaction which parallels the catalytic step is strongly affected by the mutation. The rate constant k3 increases 200-fold.
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