Summary
Antisera were raised against several purified, high specific acitivity isozymes of maize alcohol dehydrogenase (ADH1). The various antisera had different effects on the activity of immunoprecipitated ADH. One antiserum completely inactivated maize ADH. This inactivation could be blocked by preicubation of the enzyme with NAD+, its cofactor, or with NADP. The different antisera were used to analyze variant froms of ADH1. Isozymes having lowered specific activity were activated to wild-type levels by precipitation of the enzymes with noninactivating antisera. Isozymes having no detectable ADH activity (CRM+ nulls) were activated by immunoprecipition with noninactivating antisera when preincubated with NAD+ or NADP. All of the CRM+ nulls were shown to be unable to bind NAD+, a flaw which can account for their lack of activity. The results indicate that a conformational equilibrium between active and inactive forms of maize ADH in solution controls the specific activity of the various isozymes. Both controls the specific activity of the various isozymes. Both NAD+ and antibodies raised against high specific activity enzymes can interact with low activity isozymes to shift the balance of the equilibrium toward the active form, thus increasing their specific activity.
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References
Altschuler M, Schwartz D (1984) Effects of phytate on maize alcohol dehydrogenase isozymes. Maydica 29:77–87
Branden C-I, Jornvall H, Eklund H, Furugren B (1975) Alcohol dehydrogenase. In: Boyer P (ed) The enzymes XI. Academic Press, New York
Celada F, Strom R (1983) β-galactosidase: Immune recognition of conformation and mechanism of antibody-induced catalytic activation. Biopolymers 22:465–473
Cinader B (1967) Antibodies to enzymes — a discussion of the mechanisms of inhibition and activation. In: Cinader B (ed) Antibodies to biologically active molecules. Pergamon, New York
Crumpton MJ (1966) Conformational changes in sperm whale myoglobin due to combination with antibodies to myoglobin. Biochem J 100:223–233
Crumpton MJ (1974) Protein antigens: the molecular basis for antigenicity and immunogenicity. In: Sela M (ed) The antigens, vol 2. Academic Press, New York
Dennis ES, Gerlach WL, Pryor AJ, Bennetzen JL, Inglis A, Llewellyn D, Sachs MM, Ferl RJ, Peacock WJ (1984) Molecular analysis of the alcohol dehydrogenase (Adh1) gene of maize. Nucleic Acids Res 12:3983–4000
Eklund H, Nordstrom B, Zeppezauer E, Soderland G, Ohlsson I, Boiwe T, Branden C-I (1974) The structure of horse liver alcohol dehydrogenase. Fed Eur Biochem Soc Lett 44:200–204
Eklund H, Nordstrom B, Zeppezauer E, Soderland G, Ohlsson I, Boiwe T, Soderburg B-O, Topia O, Branden C-I, Åkeson Å (1976) Three dimensional structure of horse liver alcohol dehydrogenase at 2.4 Å resolution. J Mol Biol 102:27–59
Ferl RJ (1980) Molecular aspects of the maize adh inducible gene system. Doctoral Dissertation. Indiana University
Ferl RJ, Brennen MD, Schwartz D (1980) In vitro translotion of maize ADH: evidence for the anaerobic induction of mRNA. Biochem Genet 18:681–691
Freeling M (1973) Simultaneous induction by anaerobiosis or 2,4-D of multiple enzymes specified by two unlinked genes: differential Adh1-Adh2 expression in maize. Mol Gen Genet 127:215–227
Freeling M (1978) Allelic variation at the level of intragenic recombination. Genetics 89:211–224
Freeling M, Birchler JA (1981) Mutants and variants of the alcohol dehydrogenase-1 gene in maize. In: Setlow JK, Hollaender A (eds) Genet Engin Principles Methods 3: 233–264. Plenum, New York
Freeling M, Schwartz D (1973) Genetic relationships between the multiple dehydrogenases of maize. Biochem Genet 8:27–36
Gerlach WL, Pryor AJ, Dennis ES, Ferl RJ, Sachs MM, Peacock WJ (1982) cDNA cloning and induction of the alcohol dehydrogenase gene (Adh-1) of maize. Proc Natl Acad Sci USA 79:2981–2985
Laemmli UK (1970) Cleavage of structural proteins during the assembly of the head of the bacteriophage T4. Nature 227:680–685
Laughner WJ (1970) Biochemical studies on the alcohol dehydrogenase isozymes of Zea mays L. Doctoral Dissertation. Indiana University
Oakley BR, Kirsch DR, Morris NR (1980) A simplified ultrasensitive silver stain for detecting proteins in polyacrylamide gels. Anal Biochem 105:361–363
Ouchterlony O (1967) Immunodiffusion and immunoelectrophoresis. In: Weir DM (ed) Handbook of experimental immunology. Davis, Philadelphia
Pollock MR, Fleming J, Petrie S (1967) The effects of specific antibodies on the biological activities of wild-type bacterial penicillinases and their mutationally altered analogues. In: Cinader B (ed) Antibodies to biologically active molecules. Pergamon, New York
Prager EM, Wilson AC (1971) The dependence of immunological cross-reactivity upon sequence resemblance among lysozymes. J Biol Chem 246:7010–7017
Rossmann MG, Liljas A, Branden C-I, Banaszak LJ (1973) Eyolution of dehydrogenases. In: Boyer P (ed) The enyzmes XI, 3rd edh. Academic Press, New York
Rotman MB, Celada F (1968) Antibody-mediated activation of a defective β-D-galactosidase extracted from an E. coli mutant. Proc Natl Acad Sci USA 60:660–664
Sachs MM, Freeling M (1978) Selective synthesis of alcohol dehydrogenase during anaerobiotic treatment of maize. Mol Gen Genet 161:111–115
Schwartz D (1966) Alcohol dehydrogenase polymorphism in maize: simple and compound loci. Genetics 53:709–715
Schwartz D (1971) Genetic control of alcohol dehydrogenase —a competition model for regulation of gene action. Genetics 67:411–425
Schwartz D (1972) A method of high resolution immunoelectrophoresis for the alcohol dehydrogenase isozymes. J Chromatogr 67:385–388
Schwartz D (1976) Regulation of expression of Adh genes in maize. Proc Natl Acad Sci USA 73:582–584
Wilson I, Niman H, Houghten R, Cherenson A, Connolly M, Lerner R (1984) The structure of an antigenic determinant in a protein. Cell 37:767–778
Zeppezauer E, Soderberg BO, Branden C-I, Åkeson Å, Theorell H (1967) Crystallization of horse liver alcohol dehydrogenase complexes from alcohol solutions. Acta Chem Scand 21:1099–1101
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Communicated by H. Saedler
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Irish, E.E., Schwartz, D. Activation of low and null activity isozymes of maize alcohol dehydrogenase by antibodies. Mole Gen Genet 208, 271–278 (1987). https://doi.org/10.1007/BF00330453
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DOI: https://doi.org/10.1007/BF00330453