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Author
dc.contributor.author
Nagy-Fazekas, Dóra 
Author
dc.contributor.author
Stráner, Pál 
Author
dc.contributor.author
Ecsédi, Péter 
Author
dc.contributor.author
Taricska, Nóra 
Author
dc.contributor.author
Borbély, Adina 
Author
dc.contributor.author
Nyitray, László 
Author
dc.contributor.author
Perczel, András 
Availability Date
dc.date.accessioned
2023-07-10T08:00:26Z
Availability Date
dc.date.available
2023-07-10T08:00:26Z
Release
dc.date.issued
2023
uri
dc.identifier.uri
http://hdl.handle.net/10831/89952
Abstract
dc.description.abstract
Antibodies are key proteins of the immune system, and they are widely used for both research and theragnostic applications. Among them, camelid immunoglobulins (IgG) differ from the canonical human IgG molecules, as their light chains are completely missing; thus, they have only variable domains on their heavy chains (VHHs). A single VHH domain, often called a nanobody, has favorable structural, biophysical, and functional features compared to canonical antibodies. Therefore, robust and efficient production protocols relying on recombinant technologies are in high demand. Here, by utilizing ecotin, an Escherichia coli protein, as a fusion partner, we present a bacterial expression system that allows an easy, fast, and cost-effective way to prepare nanobodies. Ecotin was used here as a periplasmic translocator and a passive refolding chaperone, which allowed us to reach high-yield production of nanobodies. We also present a new, easily applicable prokaryotic expression and purification method of the receptor-binding domain (RBD) of the SARS-CoV-2 S protein for interaction assays. We demonstrate using ECD spectroscopy that the bacterially produced RBD is well-folded. The bacterially produced nanobody was shown to bind strongly to the recombinant RBD, with a Kd of 10 nM. The simple methods presented here could facilitate rapid interaction measurements in the event of the appearance of additional SARS-CoV-2 variants.
Language
dc.language
Angol
Title
dc.title
A Novel Fusion Protein System for the Production of Nanobodies and the SARS-CoV-2 Spike RBD in a Bacterial System
Type
dc.type
folyóiratcikk
Date Change
dc.date.updated
2023-07-10T07:59:06Z
Scope
dc.format.page
389
Doi ID
dc.identifier.doi
https://doi.org/10.3390/bioengineering10030389
Wos ID
dc.identifier.wos
000955214900001
ID Scopus
dc.identifier.scopus
85152459523
MTMT ID
dc.identifier.mtmt
33715979
Issue Number
dc.identifier.issue
3
abbreviated journal
dc.identifier.jabbrev
BIOENGINEERING-BASEL
Journal
dc.identifier.jtitle
BIOENGINEERING
Volume Number
dc.identifier.volume
10
Release Date
dc.description.issuedate
2023
department of Author
dc.contributor.institution
Biokémiai Tanszék
department of Author
dc.contributor.institution
Biológia Doktori Iskola
department of Author
dc.contributor.institution
Analitikai Kémiai Tanszék
department of Author
dc.contributor.institution
MTA-ELTE Lendület Ionmobilitás-tömegspektrometria Kutatócsoport
department of Author
dc.contributor.institution
Szerkezeti Kémiai és Biológiai Laboratórium (SzBKL)
department of Author
dc.contributor.institution
Hevesy György Kémia Doktori Iskola
department of Author
dc.contributor.institution
ELKH-ELTE Peptidkémiai Kutatócsoport
department of Author
dc.contributor.institution
Szerves Kémiai Tanszék
department of Author
dc.contributor.institution
ELKH-ELTE Fehérjemodellező Kutatócsoport
Author institution
dc.contributor.department
Hevesy György Kémia Doktori Iskola
Author institution
dc.contributor.department
ELKH-ELTE Fehérjemodellező Kutatócsoport
Author institution
dc.contributor.department
Biokémiai Tanszék
Author institution
dc.contributor.department
ELKH-ELTE Fehérjemodellező Kutatócsoport
Author institution
dc.contributor.department
MTA-ELTE Lendület Ionmobilitás-tömegspektrometria Kutatócsoport
Author institution
dc.contributor.department
Biokémiai Tanszék
Author institution
dc.contributor.department
Szerkezeti Kémiai és Biológiai Laboratórium (SzBKL)
Author institution
dc.contributor.department
ELKH-ELTE Fehérjemodellező Kutatócsoport


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A Novel Fusion Protein System for the Production of Nanobodies and the SARS-CoV-2 Spike RBD in a Bacterial System
 

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