Development of a multipurpose scaffold for the display of peptide loops

Abstract Protein-protein interactions (PPIs) determine a wide range of biological processes and analysis of these dynamic networks is increasingly becoming a mandatory tool for studying protein function. Using the globular ATPase domain of recombinase RadA as a scaffold, we have developed a peptide...

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Published in	Protein engineering, design and selection Vol. 30; no. 6; pp. 419 - 430
Main Authors	Rossmann, Maxim, J. Greive, Sandra, Moschetti, Tommaso, Dinan, Michael, Hyvönen, Marko
Format	Journal Article
Language	English
Published	England Oxford University Press 01.06.2017
Subjects	Cloning, Molecular Escherichia coli - genetics Escherichia coli - metabolism Humans Original Peptides - chemistry Peptides - genetics Peptides - metabolism Protein Engineering - methods Recombinant Fusion Proteins - chemistry Recombinant Fusion Proteins - genetics Recombinant Fusion Proteins - metabolism CK2alpha peptide display thermostable RadA Aurora A protein-protein interactions protein–protein interactions
Online Access	Get full text
ISSN	1741-0126 1741-0134 1741-0134
DOI	10.1093/protein/gzx017

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Abstract	Abstract Protein-protein interactions (PPIs) determine a wide range of biological processes and analysis of these dynamic networks is increasingly becoming a mandatory tool for studying protein function. Using the globular ATPase domain of recombinase RadA as a scaffold, we have developed a peptide display system (RAD display), which allows for the presentation of target peptides, protein domains or full-length proteins and their rapid recombinant production in bacteria. The design of the RAD display system includes differently tagged versions of the scaffold, which allows for flexibility in the protein purification method, and chemical coupling for small molecule labeling or surface immobilization. When combined with the significant thermal stability of the RadA protein, these features create a versatile multipurpose scaffold system. Using various orthogonal biophysical techniques, we show that peptides displayed on the scaffold bind to their natural targets in a fashion similar to linear parent peptides. We use the examples of CK2β/CK2α kinase and TPX2/Aurora A kinase protein complexes to demonstrate that the peptide displayed by the RAD scaffold can be used in PPI studies with the same binding efficacy but at lower costs compared with their linear synthetic counterparts.
AbstractList	Abstract Protein-protein interactions (PPIs) determine a wide range of biological processes and analysis of these dynamic networks is increasingly becoming a mandatory tool for studying protein function. Using the globular ATPase domain of recombinase RadA as a scaffold, we have developed a peptide display system (RAD display), which allows for the presentation of target peptides, protein domains or full-length proteins and their rapid recombinant production in bacteria. The design of the RAD display system includes differently tagged versions of the scaffold, which allows for flexibility in the protein purification method, and chemical coupling for small molecule labeling or surface immobilization. When combined with the significant thermal stability of the RadA protein, these features create a versatile multipurpose scaffold system. Using various orthogonal biophysical techniques, we show that peptides displayed on the scaffold bind to their natural targets in a fashion similar to linear parent peptides. We use the examples of CK2β/CK2α kinase and TPX2/Aurora A kinase protein complexes to demonstrate that the peptide displayed by the RAD scaffold can be used in PPI studies with the same binding efficacy but at lower costs compared with their linear synthetic counterparts. Protein-protein interactions (PPIs) determine a wide range of biological processes and analysis of these dynamic networks is increasingly becoming a mandatory tool for studying protein function. Using the globular ATPase domain of recombinase RadA as a scaffold, we have developed a peptide display system (RAD display), which allows for the presentation of target peptides, protein domains or full-length proteins and their rapid recombinant production in bacteria. The design of the RAD display system includes differently tagged versions of the scaffold, which allows for flexibility in the protein purification method, and chemical coupling for small molecule labeling or surface immobilization. When combined with the significant thermal stability of the RadA protein, these features create a versatile multipurpose scaffold system. Using various orthogonal biophysical techniques, we show that peptides displayed on the scaffold bind to their natural targets in a fashion similar to linear parent peptides. We use the examples of CK2β/CK2α kinase and TPX2/Aurora A kinase protein complexes to demonstrate that the peptide displayed by the RAD scaffold can be used in PPI studies with the same binding efficacy but at lower costs compared with their linear synthetic counterparts.Protein-protein interactions (PPIs) determine a wide range of biological processes and analysis of these dynamic networks is increasingly becoming a mandatory tool for studying protein function. Using the globular ATPase domain of recombinase RadA as a scaffold, we have developed a peptide display system (RAD display), which allows for the presentation of target peptides, protein domains or full-length proteins and their rapid recombinant production in bacteria. The design of the RAD display system includes differently tagged versions of the scaffold, which allows for flexibility in the protein purification method, and chemical coupling for small molecule labeling or surface immobilization. When combined with the significant thermal stability of the RadA protein, these features create a versatile multipurpose scaffold system. Using various orthogonal biophysical techniques, we show that peptides displayed on the scaffold bind to their natural targets in a fashion similar to linear parent peptides. We use the examples of CK2β/CK2α kinase and TPX2/Aurora A kinase protein complexes to demonstrate that the peptide displayed by the RAD scaffold can be used in PPI studies with the same binding efficacy but at lower costs compared with their linear synthetic counterparts. Protein-protein interactions (PPIs) determine a wide range of biological processes and analysis of these dynamic networks is increasingly becoming a mandatory tool for studying protein function. Using the globular ATPase domain of recombinase RadA as a scaffold, we have developed a peptide display system (RAD display), which allows for the presentation of target peptides, protein domains or full-length proteins and their rapid recombinant production in bacteria. The design of the RAD display system includes differently tagged versions of the scaffold, which allows for flexibility in the protein purification method, and chemical coupling for small molecule labeling or surface immobilization. When combined with the significant thermal stability of the RadA protein, these features create a versatile multipurpose scaffold system. Using various orthogonal biophysical techniques, we show that peptides displayed on the scaffold bind to their natural targets in a fashion similar to linear parent peptides. We use the examples of CK2β/CK2α kinase and TPX2/Aurora A kinase protein complexes to demonstrate that the peptide displayed by the RAD scaffold can be used in PPI studies with the same binding efficacy but at lower costs compared with their linear synthetic counterparts.
Author	Moschetti, Tommaso Rossmann, Maxim Hyvönen, Marko Dinan, Michael J. Greive, Sandra
AuthorAffiliation	1 Present address: York Structural Biology Laboratory, Department of Chemistry, University of York, Heslington, York YO10 5DD, UK 2 Department of Biochemistry , University of Cambridge , 80 Tennis Court Road, Cambridge CB2 1GA , UK
AuthorAffiliation_xml	– name: 2 Department of Biochemistry , University of Cambridge , 80 Tennis Court Road, Cambridge CB2 1GA , UK – name: 1 Present address: York Structural Biology Laboratory, Department of Chemistry, University of York, Heslington, York YO10 5DD, UK
Author_xml	– sequence: 1 givenname: Maxim surname: Rossmann fullname: Rossmann, Maxim organization: 2 Department of Biochemistry, University of Cambridge, 80 Tennis Court Road, CambridgeCB2 1GA, UK – sequence: 2 givenname: Sandra surname: J. Greive fullname: J. Greive, Sandra organization: 1Present address: York Structural Biology Laboratory, Department of Chemistry, University of York, Heslington, York YO10 5DD, UK – sequence: 3 givenname: Tommaso surname: Moschetti fullname: Moschetti, Tommaso organization: 2 Department of Biochemistry, University of Cambridge, 80 Tennis Court Road, CambridgeCB2 1GA, UK – sequence: 4 givenname: Michael surname: Dinan fullname: Dinan, Michael organization: 2 Department of Biochemistry, University of Cambridge, 80 Tennis Court Road, CambridgeCB2 1GA, UK – sequence: 5 givenname: Marko orcidid: 0000-0001-8683-4070 surname: Hyvönen fullname: Hyvönen, Marko email: mh256@cam.ac.uk organization: University of Cambridge
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Snippet	Abstract Protein-protein interactions (PPIs) determine a wide range of biological processes and analysis of these dynamic networks is increasingly becoming a... Protein-protein interactions (PPIs) determine a wide range of biological processes and analysis of these dynamic networks is increasingly becoming a mandatory... Protein–protein interactions (PPIs) determine a wide range of biological processes and analysis of these dynamic networks is increasingly becoming a mandatory...
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SubjectTerms	Cloning, Molecular Escherichia coli - genetics Escherichia coli - metabolism Humans Original Peptides - chemistry Peptides - genetics Peptides - metabolism Protein Engineering - methods Recombinant Fusion Proteins - chemistry Recombinant Fusion Proteins - genetics Recombinant Fusion Proteins - metabolism
Title	Development of a multipurpose scaffold for the display of peptide loops
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