Identification of novel functional mini-receptors by combinatorial screening of split-WW domains [Research Data]

Thomas, Franziska; Neitz, Hermann; Paul, Niels Benjamin; Häge, Florian; Lindner, Christina; Graebner, Roman; Kovermann, Michael

Datensatz:
Identification of novel functional mini-receptors by combinatorial screening of split-WW domains [Research Data]

Datum der Erstveröffentlichung

October 4, 2023

Autor:innen

Thomas, Franziska

Neitz, Hermann

Paul, Niels Benjamin

Häge, Florian

Lindner, Christina

Graebner, Roman

Kovermann, Michael

Repositorium der Erstveröffentlichung

University Library Heidelberg

Version des Datensatzes

1.1

DOI (Link zu den Daten)

https://doi.org/10.11588/data/sgn2cn

Angaben zur Forschungsförderung

Deutsche Forschungsgemeinschaft (DFG): 414261058
Deutsche Forschungsgemeinschaft (DFG): 2082/1 390761711

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Chemie: Datensätze

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Published

Zusammenfassung

β-Sheet motifs such as the WW domain are increasingly being explored as building blocks for synthetic biological applications. Since the sequence-structure relationships of β-sheet motifs are generally complex compared to the well-studied α-helical coiled coil (CC), other approaches such as combinatorial screening should be included to vary the function of the peptide. In this study, we present a combinatorial approach to identify novel functional mini-proteins based on the WW-domain scaffold, which takes advantage of the successful reconstitution of the fragmented WW domain of hPin1 (hPin1WW) by CC association. Fragmentation of hPin1WW was performed in both loop 1 (CC-hPin1WW-L1) and loop 2 (CC-hPin1WW-L2), and the respective fragments were linked to the strands of an antiparallel heterodimeric CC. Structural analysis by CD and NMR spectroscopy revealed structural reconstitution of the WW-domain scaffold only in CC-hPin1WW-L1, but not in CC-hPin1WW-L2. Furthermore, by using 1H–15N HSQC NMR, fluorescence and CD spectroscopy, we demonstrated that binding properties of fragmented hPin1WW in CC-hPin1WW-L1 were fully restored by CC association. To demonstrate the power of this approach as a combinatorial screening platform, we synthesized a four-by-six library of N- and C-terminal hPin1WW-CC peptide fragments that was screened for a WW domain that preferentially binds to ATP over cAMP, phophocholine, or IP6. Using this screening platform, we identified one WW domain, which specifically binds ATP, and a phosphorylcholine-specific WW-based mini-receptor, both having binding dissociation constants in the lower micromolar range.

Fachgebiet (DDC)

540 Chemie

Schlagwörter

miniprotein, WW domain, coiled coil, peptide engineering

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Zeitschriftenartikel

Identification of novel functional mini-receptors by combinatorial screening of split-WW domains

(2022) Neitz, Hermann; Paul, Niels Benjamin; Häge, Florian R.; Lindner, Christina; Graebner, Roman; Kovermann, Michael; Thomas, Franziska

DOI: 10.1039/d2sc01078j

Erschienen in: Chemical Science. Royal Society of Chemistry (RSC). 2022, 13(31), S. 9079-9090. ISSN 2041-6520. eISSN 2041-6539. Verfügbar unter: doi: 10.1039/d2sc01078j

Link zu zugehörigem Datensatz

https://doi.org/10.11588/data/sgn2cn/znzi0w

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ISO 690

THOMAS, Franziska, Hermann NEITZ, Niels Benjamin PAUL, Florian HÄGE, Christina LINDNER, Roman GRAEBNER, Michael KOVERMANN, 2023. Identification of novel functional mini-receptors by combinatorial screening of split-WW domains [Research Data]

BibTex

RDF

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Identification of novel functional mini-receptors by combinatorial screening of split-WW domains [Research Data]

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Datensatz: Identification of novel functional mini-receptors by combinatorial screening of split-WW domains [Research Data]

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Datensatz:
Identification of novel functional mini-receptors by combinatorial screening of split-WW domains [Research Data]