Using α-Helical Coiled-Coils to Design Nanostructured Metalloporphyrin Arrays

Using α-Helical Coiled-Coils to Design Nanostructured Metalloporphyrin Arrays

We have developed a computational design strategy based on the α-helical coiled-coil to generate modular peptide motifs capable of assembling into metalloporphyrin arrays of varying lengths. The current study highlights the extension of a two-metalloporphyrin array to a four-metalloporphyrin array t...

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Veröffentlicht in:Journal of the American Chemical Society 2008-09, Vol.130 (36), p.11921-11927
Hauptverfasser: McAllister, Karen A, Zou, Hongling, Cochran, Frank V, Bender, Gretchen M, Senes, Alessandro, Fry, H. Christopher, Nanda, Vikas, Keenan, Patricia A, Lear, James D, Saven, Jeffery G, Therien, Michael J, Blasie, J. Kent, DeGrado, William F
Format: Artikel
Sprache:eng
Schlagworte:
Amino Acid Sequence
Circular Dichroism
Computer Simulation
Electron Spin Resonance Spectroscopy
Ferric Compounds - chemical synthesis
Ferric Compounds - chemistry
MATERIALS SCIENCE
Metalloporphyrins - chemical synthesis
Metalloporphyrins - chemistry
Models, Molecular
Molecular Conformation
Molecular Sequence Data
Molecular Weight
Nanostructures - chemistry
Peptides - chemical synthesis
Peptides - chemistry
Protein Structure, Secondary
Spectrophotometry, Ultraviolet
Thermodynamics
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Zusammenfassung:We have developed a computational design strategy based on the α-helical coiled-coil to generate modular peptide motifs capable of assembling into metalloporphyrin arrays of varying lengths. The current study highlights the extension of a two-metalloporphyrin array to a four-metalloporphyrin array through the incorporation of a coiled-coil repeat unit. Molecular dynamics simulations demonstrate that the initial design evolves rapidly to a stable structure with a small rmsd compared to the original model. Biophysical characterization reveals elongated proteins of the desired length, correct cofactor stoichiometry, and cofactor specificity. The successful extension of the two-porphyrin array demonstrates how this methodology serves as a foundation to create linear assemblies of organized electrically and optically responsive cofactors.
ISSN:0002-7863
1520-5126
DOI:10.1021/ja800697g