Integration of a Reconstituted de Novo Synthesized Hemoprotein and Native Metalloproteins with Electrode Supports for Bioelectronic and Bioelectrocatalytic Applications

A four-helix bundle de novo synthesized protein is assembled as a monolayer onto a Au electrode. Two of the helices include each two histidine units. This allows the reconstitution of the de novo protein with two Fe(III)−protoporphyrin IX units. Electrochemical characterization of the bis-heme-funct...

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Bibliographic Details
Published in:Journal of the American Chemical Society 1999-07, Vol.121 (27), p.6455-6468
Main Authors: Willner, Itamar, Heleg-Shabtai, Vered, Katz, Eugenii, Rau, Harald K, Haehnel, Wolfgang
Format: Article
Language:English
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Summary:A four-helix bundle de novo synthesized protein is assembled as a monolayer onto a Au electrode. Two of the helices include each two histidine units. This allows the reconstitution of the de novo protein with two Fe(III)−protoporphyrin IX units. Electrochemical characterization of the bis-heme-functionalized de novo protein, surface coverage 2.5 × 10-11 mol·cm-2, reveals that the heme site close to the electrode surface exhibits a redox potential, E° = −0.43 V (vs SCE), whereas the heme center in the remote position with respect to the electrode exhibits a more positive potential, E° = −0.36 V (vs SCE). This enabled the use of the de novo protein as a rectifier element in which rapid vectorial electron transfer occurs. The bis-heme-functionalized de novo protein assembled onto the electrode forms an affinity complex with the cytochrome b1-dependent nitrate reductase (NR, E.C. 1.9.6.1). The affinity complex was cross-linked with glutaric dialdehyde to yield an integrated, electrically contacted, enzyme electrode for the effective bioelectrocatalyzed reduction of NO3 -, current yield 80%. Similarly, the bis-heme-reconstituted de novo protein assembly forms an affinity complex with Co(II)−protoporphyrin-reconstituted myoglobin, Co(II)−Mb. Cross-linking of the affinity complex between the de novo synthesized hemoprotein and Co(II)−Mb with glutaric dialdehyde results in an integrated bioelectrocatalytic electrode for the electrocatalyzed hydrogenation of acetylene dicarboxylic acid (3) to maleic acid (4), current yield 85%.
ISSN:0002-7863
1520-5126
DOI:10.1021/ja983182u