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  • Title: Isozyme-specific modules on human aldolase A molecule. Isozyme group-specific sequences 1 and 4 are required for showing characteristics as aldolase A.
    Author: Motoki K, Kitajima Y, Hori K.
    Journal: J Biol Chem; 1993 Jan 25; 268(3):1677-83. PubMed ID: 8420943.
    Abstract:
    Vertebrate aldolase molecules bear at least four stretches of isozyme group-specific sequences (referred to as IGS). The IGSs of the type A isozyme are known to endow the aldolase molecules with some characteristics typical of A. In order to locate the type A regions, 4 chimeric enzymes were constructed between human aldolases A and B and 5 mutant enzymes with single or double mutations in the IGS-1 region. Among engineered proteins, the chimeric enzymes bearing the type A IGS-1 to -4 (BABA34-108:306-363) and the IGS-1 and -4 (BABA34-55:306-363) exhibited similarities to isozyme A in many respects. On the other hand, neither chimeric enzyme bearing the type A IGS-1 to -3 (BAB34-108) nor that bearing the IGS-1 alone (BAB34-55) exhibited properties as isozyme A. Four mutant aldolases A (carrying single mutation in the IGS-1 region) maintained the original activity as A. Similarly, the BA306 chimera with the type B-->A substitution at positions 41 and 45 (BA306 N41K:R45S) failed to exhibit the A-like properties although the activities toward Fru-1,6-P2 and Fru-1-P significantly increased. Conclusively, the type A IGS-1, together with the IGS-4, act as indispensable modules in determining the characteristic properties of human aldolase A.
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