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Design of a heme-binding peptide motif adopting a ?-hairpin conformation.


ABSTRACT: Heme-binding proteins constitute a large family of catalytic and transport proteins. Their widespread presence as globins and as essential oxygen and electron transporters, along with their diverse enzymatic functions, have made them targets for protein design. Most previously reported designs involved the use of ?-helical scaffolds, and natural peptides also exhibit a strong preference for these scaffolds. However, the reason for this preference is not well-understood, in part because alternative protein designs, such as those with ?-sheets or hairpins, are challenging to perform. Here, we report the computational design and experimental validation of a water-soluble heme-binding peptide, Pincer-1, composed of predominantly ?-scaffold secondary structures. Such heme-binding proteins are rarely observed in nature, and by designing such a scaffold, we simultaneously increase the known fold space of heme-binding proteins and expand the limits of computational design methods. For a ?-scaffold, two tryptophan zipper ?-hairpins sandwiching a heme molecule were linked through an N-terminal cysteine disulfide bond. ?-Hairpin orientations and residue selection were performed computationally. Heme binding was confirmed through absorbance experiments and surface plasmon resonance experiments (KD = 730 ± 160 nm). CD and NMR experiments validated the ?-hairpin topology of the designed peptide. Our results indicate that a helical scaffold is not essential for heme binding and reveal the first designed water-soluble, heme-binding ?-hairpin peptide. This peptide could help expand the search for and design space to cytoplasmic heme-binding proteins.

SUBMITTER: Nagarajan D 

PROVIDER: S-EPMC6005436 | biostudies-literature | 2018 Jun

REPOSITORIES: biostudies-literature

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Design of a heme-binding peptide motif adopting a β-hairpin conformation.

Nagarajan Deepesh D   Sukumaran Sujeesh S   Deka Geeta G   Krishnamurthy Kiran K   Atreya Hanudatta S HS   Chandra Nagasuma N  

The Journal of biological chemistry 20180425 24


Heme-binding proteins constitute a large family of catalytic and transport proteins. Their widespread presence as globins and as essential oxygen and electron transporters, along with their diverse enzymatic functions, have made them targets for protein design. Most previously reported designs involved the use of α-helical scaffolds, and natural peptides also exhibit a strong preference for these scaffolds. However, the reason for this preference is not well-understood, in part because alternati  ...[more]

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