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Biocatalysis Volume 1, 1987 - Issue 2
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Original Article

A New Synthesis Of Coenzymically Active Water-Soluble Macromolecular Nad And Nadp Derivatives

Andreas F. Bückmann GBF, Gesellschaft für Biotechnologische Forschung mbH, Mascheroder Weg 1, D-3300, Braunschweig, FRG
Pages 173-186 | Received 11 Jul 1987, Published online: 11 Jul 2009

References

  • Bückmann A. F. Process for the production of adenine ring system containing coenzymes bound to macromolecules. 1979, German Patent DP 28.41.414.
  • Bückmann A. F. Process for the production of N6-substituted NAD, NADP or FAD. 1986, German Patent DP 36.17.535.8.
  • Bückmann A. F., Wray V. An unexpected transformation of N(1)-(2-aminoethyl)-NAD(P) in mild aqueous conditions. Poster presented at the 4th FECHEM Conference on Heterocycles in Bio-Organic Chemistry. 23–28 May, 1986. Houthalen, Belgium
  • Bückmann A. F., Morr M., Johansson G. Functionalization of poly(ethylene glycol) and monomethoxy-poly(ethylene glycol). Makromol. Chem. 1981; 182: 1379–1384
  • Bückmann A. F., Morr M., Kula M. R. Preparation of technical grade polyethylene glycol (PEG)-(Mr= 20000)-N6-(2-aminoethyl)-NADH by a procedure adaptable to large-scale synthesis. Biotechnol. Appl. Biochem. 1987; 9: 258–268
  • Bückmann A. F., Wray V., van der Plas H. C. Two unexpected transformations of N(1)-(2-aminoethyl)-adenine derivatives of NAD, NADP and FAD under mild aqueous conditions. Proc. 11th International Conference of Heterocyclic Chemistry. 16-21 August, 1987. Heidelberg, to be published.
  • Bückmann A. F., Kula M. R., Wichmann R., Wandrey C. An efficient synthesis of high-molecular-weight NAD(H) derivatives suitable for continuous operation with coenzyme dependent enzyme systems. J. Appl. Biochem. 1981; 3: 301–315
  • Fuller C. W., Rubin J. R., Bright H. J. A simple procedure for covalent immobilization of NADH in a soluble and enzymically active form. Eur. J. Biochem. 1980; 103: 421–430
  • LeGoffic F., Sicsic S., Vincent C. A two-step synthesis of new water-soluble polymers of NAD and ADP. Eur. J. Biochem. 1980; 108: 143–148
  • Lindberg M., Larsson P. O., Mosbach K. A new immobilized NAD analogue, its application in affinity chromatography and as a functioning coenzyme. Eur. J. Biochem. 1973; 40: 187–193
  • Lowe C. R., Mosbach K. The synthesis of adenine-substituted derivatives of NADP and their potential as active coenzymes and affinity adsorbents. Eur. J. Biochem. 1974; 49: 511–520
  • Muramatsu M., Urabe I., Yamada Y., Okada H. Synthesis and kinetic properties of a new NAD derivative carrying a vinyl group. Eur. J. Biochem. 1977; 80: 111–117
  • Okuda K., Urabe I., Okada H. Synthesis of poly(ethylene glycol)-bound NADP by selective modification at the 6-amino group of NADP. Eur. J. Biochem. 1985; 151: 33–38
  • Riva S., Carrea G., Veronese F. M., Bückmann A. F. Effect of coupling site and nature of the polymer on the coenzymatic properties of water-soluble macromolecular NAD derivatives with selected dehydrogenase enzymes. Enzyme Microb. Technol. 1986; 9: 556–560
  • Sakaguchi Y., Sugahara M., Endo J., Murachi T. Recycling of dextran-bound NAD with immobilized apoenzymes in continuous-flow analyses of L-lactate, L-glutamate, and glutamate- oxaloacetate aminotransferase activity in serum. J. Appl. Biochem. 1981; 3: 32–41
  • Schmidt H. L., Grenner G. Coenzyme properties of NAD-bound to different matrices through the amino group in the 6-position. Eur. J. Biochem. 1976; 67: 295–302
  • Sogin D. C. 2′,3′-Cyclic NADP as a substrate for 2′.3′-cyclic nucleotide 3′-phosphohydrolase. J. Neurochem. 1976; 27: 1333–1337
  • Von Specht B. U., Seinfeld H., Brendel W. Polyvinylpyrroiidone as a soluble carrier of proteins. Hoppe-Seyler's Z. Physiol. Chem. 1973; 354: 1659–1660
  • Wandrey C., Bossow B. (1985) Continuous cofactor regeneration: utilization of polymer bound NAD(H) for the production of optically active acids. Proc. 3rd International Conference on Chemistry and Biotechnology of Biological Active Natural Products, SofiaBulgaria, 16–21 September, 1986. 1: 195–215
  • Weibel M. K., Fuller C. W., Stadel J. M., Bückmann A. F., Doyle T., Bright H. J. NADH coupled to soluble dextran: Synthesis and properties. Enzyme Engineering 1974; 2: 203–208
  • Wichmann R., Wandrey C., Bückmann A. F., Kula M. R. Continuous enzymatic transformation in an enzyme membrane reactor with simultaneous NAD(H) regeneration. Biotechnol. Bioeng. 1981; 23: 2789–2802
  • Zapelli P., Rossodivita A., Re L. Synthesis of coenzymically active soluble and insoluble macromolecularized NAD derivatives. Eur. J. Biochem. 1975; 54: 475–482
  • Zapelli P., Pappa R., Rossodivita A., Re L. Preparation and coenzymic activity of soluble polyethyleneimine-bound NADP derivatives. Eur. J. Biochem. 1977; 72: 309–315

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