Application of High Enzyme Activities Present in Clostridium Thermoaceticum for the Efficient Regeneration of NADPH, NADP+, NADH AND NAD+

Crude extracts of Clostridium thermoaceticum DSM 521 contain various AMAPORs (artificial mediator accepting pyridine nucleotide oxidoreductases). The specific activities of this mixture of AMAPORs is about 8-9 U mg^-1 protein (µmoles mg^-1 min^-1) for NADPH and 3-4 U mg^-1 protein for NADH formation with reduced methylviologen (MV⁺⁺) as electron donor. These AMAPOR-activities are only slightly oxygen sensitive. The reoxidation of NADPH and NADH with carboxamido-methylviologen is catalysed by crude extracts with 2.0 and 1.6 U mg^-1 protein, respectively. The same crude extracts also catalyse the dehydrogenation of reduced pyridine nucleotides with suitable quinones such as anthraquinone-2,6-disulphonate. The reduced quinone can be reoxidised by dioxygen.

The K_m-values of these enzymes for the pyridine nucleotides and also for the artificial electron mediators are in a suitable range for preparative transformations.

Furthermore the crude extract of C. thermoaceticum contains about 2.5 U mg^-1 protein of an NADP⁺-dependent formate dehydrogenase (FDH), which is suitable for NADPH and/or MV⁺⁺ regeneration. The regeneration of MV⁺⁺ with FDH and formate as electron donor proceeds with a specific activity of about 5 U mg^-1 protein of the crude extract. The reduced viologen in turn reduces NAD(P)⁺ by AMAPOR. The formate dehydrogenase is sensitive to oxygen.

Examples of compounds which have been prepared by combination of AMAPORs or formate dehydrogenase with an oxidoreductase are: (S)-3-hydroxycarboxylates, esters of (S)-3-hydroxycarboxylates, (1R,2S)-1-hydroxypropane-tricarboxylate (D_s-(+)-isocitrate), L_s-(-)-isocitrate and 6-phosphogluconate.     

Xylene‐Bridged Phosphaviologen Oligomers and Polymers as High‐Performance Electrode‐Modifiers for Li‐Ion Batteries

Lithium‐ion batteries are one of the most common forms of energy storage devices used in society today. Due to the inherent limitations of conventional Li‐ion batteries, organic materials have surfaced as potentially suitable electrode alternatives with improved performance and sustainability. Viologens and phosphaviologens in particular, are strong electron‐accepting materials with excellent kinetic properties, making them suitable candidates for battery applications. In this paper, new polymeric species of the latter moieties are reported that lead to improved electrode stability and device performance. The performance of the phosphaviologen is further enhanced through the utilization of both redox steps, allowing for good performance proof‐of‐concept hybrid organic/Li‐ion batteries. This opens the potential for more sustainable and improved battery performance for use in current energy applications.     

Application of High Enzyme Activities Present in Clostridium Thermoaceticum for the Efficient Regeneration of NADPH,NADP+, NADH AND NAD+

Crude extracts of Clostridium thermoaceticum DSM 521 contain various AMAPORs (artificial mediator accepting pyridine nucleotide oxidoreductases). The specific activities of this mixture of AMAPORs is about 8–9 U mg^?1 protein (µmoles mg^?1 min^?1) for NADPH and 3–4 U mg^?1 protein for NADH formation with reduced methylviologen (MV⁺⁺) as electron donor. These AMAPOR-activities are only slightly oxygen sensitive. The reoxidation of NADPH and NADH with carboxamido-methylviologen is catalysed by crude extracts with 2.0 and 1.6 U mg^?1 protein, respectively. The same crude extracts also catalyse the dehydrogenation of reduced pyridine nucleotides with suitable quinones such as anthraquinone-2,6-disulphonate. The reduced quinone can be reoxidised by dioxygen.

The K_m-values of these enzymes for the pyridine nucleotides and also for the artificial electron mediators are in a suitable range for preparative transformations.

Furthermore the crude extract of C. thermoaceticum contains about 2.5 U mg^?1 protein of an NADP⁺-dependent formate dehydrogenase (FDH), which is suitable for NADPH and/or MV⁺⁺ regeneration. The regeneration of MV⁺⁺ with FDH and formate as electron donor proceeds with a specific activity of about 5 U mg^?1 protein of the crude extract. The reduced viologen in turn reduces NAD(P)⁺ by AMAPOR. The formate dehydrogenase is sensitive to oxygen.

Examples of compounds which have been prepared by combination of AMAPORs or formate dehydrogenase with an oxidoreductase are: (S)-3-hydroxycarboxylates, esters of (S)-3-hydroxycarboxylates, (1R,2S)-1-hydroxypropane-tricarboxylate (D_s-(+)-isocitrate), L_s-(-)-isocitrate and 6-phosphogluconate.