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Improved strategies for electrochemical 1,4-NAD(P)H2 regeneration: A new era of bioreactors for industrial biocatalysis

  • Published:2018-01 Issue:1 Volume:36 Page:120-131
  • ISSN:0734-9750
  • Container-title:Biotechnology Advances
  • language:en
  • Short-container-title:Biotechnology Advances

Author:

Morrison Clifford S.,Armiger William B.,Dodds David R.,Dordick Jonathan S.,Koffas Mattheos A.G.ORCID

Funder

BioChemInsights, Inc., Malvern, PA

Rensselaer Polytechnic Institute

National Science Foundation

Publisher

Elsevier BV

Subject

Biotechnology,Bioengineering,Applied Microbiology and Biotechnology

Reference80 articles.

1. Direct electrochemical regeneration of the enzymatic cofactor 1,4-NADH employing nano-patterned glassy carbon/Pt and glassy carbon/Ni electrodes;Ali;Chem. Eng. J.,2012

2. Electrochemical regeneration of the cofactor NADH employing a carbon nanofibers cathode;Ali;Int. J. Electrochem. Sci.,2012

3. Electrochemical regeneration of NADH on a glassy carbon electrode surface: the influence of electrolysis potential;Ali;Electrochem. Commun.,2011

4. A versatile disulfide-driven recycling system for NADP+ with high cofactor turnover number;Angelastro;ACS Catal.,2017

5. Photocatalyzed oxidation of NAD dimers;Avigliano;Biochim. Biophys. Acta Bioenerg.,1983

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