In Vivo Biogenesis of a De Novo Designed Iron–Sulfur Protein

In vivo expression of metalloproteins requires specific metal trafficking and incorporation machinery inside the cell. Synthetic designed metalloproteins are typically purified without the target metal, which is subsequently introduced through in vitro reconstitution. The extra step complicates prot...

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Bibliographic Details
Published in:ACS synthetic biology 2020-12, Vol.9 (12), p.3400-3407
Main Authors: Jagilinki, Bhanu P, Ilic, Stefan, Trncik, Cristian, Tyryshkin, Alexei M, Pike, Douglas H, Lubitz, Wolfgang, Bill, Eckhard, Einsle, Oliver, Birrell, James A, Akabayov, Barak, Noy, Dror, Nanda, Vikas
Format: Article
Language:English
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Summary:In vivo expression of metalloproteins requires specific metal trafficking and incorporation machinery inside the cell. Synthetic designed metalloproteins are typically purified without the target metal, which is subsequently introduced through in vitro reconstitution. The extra step complicates protein optimization by high-throughput library screening or laboratory evolution. We demonstrate that a designed coiled-coil iron–sulfur protein (CCIS) assembles robustly with [4Fe-4S] clusters in vivo. While in vitro reconstitution produces a mixture of oligomers that depends on solution conditions, in vivo production generates a stable homotrimer coordinating a single, diamagnetic [4Fe-4S]2+ cluster. The multinuclear cluster of in vivo assembled CCIS is more resistant to degradation by molecular oxygen. Only one of the two metal coordinating half-sites is required in vivo, indicating specificity of molecular recognition in recruitment of the metal cluster. CCIS, unbiased by evolution, is a unique platform to examine iron–sulfur protein biogenesis and develop synthetic multinuclear oxidoreductases.
ISSN:2161-5063
2161-5063
DOI:10.1021/acssynbio.0c00514