Andreas Bichet scite author profile

Cytochromes P450 are involved in the biosynthesis of steroid hormones in mitochondria of the adrenal gland. The electrons required for these reactions are provided via a redox chain consisting of adrenodoxin reductase (AdR) and adrenodoxin (Adx). A prerequisite for a fast and efficient electron transfer as well as high catalytic activity is the formation of functional complexes between the different redox partners. To improve the protein-protein interactions by directed evolution, we developed a new in vivo selection system. This high-throughput screening method is based on the yeast two-hybrid system. It enables a background-free screening for increased protein-protein interactions between stable and functional species including cofactor-containing proteins (FAD, [2Fe-2S], heme). The method was successfully applied for the directed evolution of Adx and selected variants were analyzed biochemically and biophysically. All analyzed proteins exhibit typical characteristics of [2Fe-2S]-cluster-type ferredoxins. Adx-dependent substrate conversion assays with different cytochromes demonstrated that the improved ability of the mutants to form complexes results in an enhanced catalytic efficiency of the cytochrome P450 system.

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The "Bringer" Strategy: A Very Fast and Highly Efficient Method for Construction of Mutant Libraries by Error-Prone Polymerase Chain Reaction of Ring-Closed Plasmids

Bichet

Bureik

Lenz

et al. 2004

ABAB

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Random mutagenesis constitutes a keystone in many strategies of directed evolution of biocatalysts and is often done by error-prone polymerase chain reaction (epPCR). Traditionally, the epPCR-generated DNA fragments are then subcloned into an expression vector to obtain a mutant library, which in turn is transformed into a suited host and screened for mutants that display the desired property. However, the vast majority of epPCR-generated fragments generally are lost during the subcloning step, making it the bottleneck in the mutant library construction procedure. Here we report a rapid and convenient strategy based on the epPCR amplification of a ring-closed expression plasmid that contains the gene of interest; after a DpnI digest the product of the epPCR reaction constitutes the mutant library and can be used directly for screening procedures. Primers binding to the beta-lactamase gene were chosen to allow application of the strategy to as broad a range of target plasmids as possible. The functionality of this approach was demonstrated by mutating the alpha-peptide coding region of the lacZ gene.

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Using the yeast two-hybrid system as in vivo screening-system for interactions between adrenodoxin and its redoxpartners

Bichet¹,

Hannemann²,

Bernhardt³

2002

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Andreas Bichet

Cytochrome P450 systems—biological variations of electron transport chains

Substitution of lysine with glutamic acid at position 193 in bovine CYP11A1 significantly affects protein oligomerization and solubility but not enzymatic activity

A new application of the yeast two-hybrid system in protein engineering

The "Bringer" Strategy: A Very Fast and Highly Efficient Method for Construction of Mutant Libraries by Error-Prone Polymerase Chain Reaction of Ring-Closed Plasmids

Using the yeast two-hybrid system as in vivo screening-system for interactions between adrenodoxin and its redoxpartners

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