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Extremophilic 50S Ribosomal RNA-Binding Protein L35Ae as a Basis for Engineering of an Alternative Protein Scaffold

Due to their remarkably high structural stability, proteins from extremophiles are particularly useful in numerous biological applications. Their utility as alternative protein scaffolds could be especially valuable in small antibody mimetic engineering. These artificial binding proteins occupy a sp...

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Autores principales: Lomonosova, Anna V., Ovchinnikova, Elena V., Kazakov, Alexei S., Denesyuk, Alexander I., Sofin, Alexander D., Mikhailov, Roman V., Ulitin, Andrei B., Mirzabekov, Tajib A., Permyakov, Eugene A., Permyakov, Sergei E.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2015
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4527664/
https://www.ncbi.nlm.nih.gov/pubmed/26247602
http://dx.doi.org/10.1371/journal.pone.0134906
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author Lomonosova, Anna V.
Ovchinnikova, Elena V.
Kazakov, Alexei S.
Denesyuk, Alexander I.
Sofin, Alexander D.
Mikhailov, Roman V.
Ulitin, Andrei B.
Mirzabekov, Tajib A.
Permyakov, Eugene A.
Permyakov, Sergei E.
author_facet Lomonosova, Anna V.
Ovchinnikova, Elena V.
Kazakov, Alexei S.
Denesyuk, Alexander I.
Sofin, Alexander D.
Mikhailov, Roman V.
Ulitin, Andrei B.
Mirzabekov, Tajib A.
Permyakov, Eugene A.
Permyakov, Sergei E.
author_sort Lomonosova, Anna V.
collection PubMed
description Due to their remarkably high structural stability, proteins from extremophiles are particularly useful in numerous biological applications. Their utility as alternative protein scaffolds could be especially valuable in small antibody mimetic engineering. These artificial binding proteins occupy a specific niche between antibodies and low molecular weight substances, paving the way for development of innovative approaches in therapeutics, diagnostics, and reagent use. Here, the 50S ribosomal RNA-binding protein L35Ae from the extremophilic archaea Pyrococcus horikoshii has been probed for its potential to serve as a backbone in alternative scaffold engineering. The recombinant wild type L35Ae has a native-like secondary structure, extreme thermal stability (mid-transition temperature of 90°C) and a moderate resistance to the denaturation by guanidine hydrochloride (half-transition at 2.6 M). Chemical crosslinking and dynamic light scattering data revealed that the wild type L35Ae protein has a propensity for multimerization and aggregation correlating with its non-specific binding to a model cell surface of HEK293 cells, as evidenced by flow cytometry. To suppress these negative features, a 10-amino acid mutant (called L35Ae 10X) was designed, which lacks the interaction with HEK293 cells, is less susceptible to aggregation, and maintains native-like secondary structure and thermal stability. However, L35Ae 10X also shows lowered resistance to guanidine hydrochloride (half-transition at 2.0M) and is more prone to oligomerization. This investigation of an extremophile protein’s scaffolding potential demonstrates that lowered resistance to charged chemical denaturants and increased propensity to multimerization may limit the utility of extremophile proteins as alternative scaffolds.
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spelling pubmed-45276642015-08-12 Extremophilic 50S Ribosomal RNA-Binding Protein L35Ae as a Basis for Engineering of an Alternative Protein Scaffold Lomonosova, Anna V. Ovchinnikova, Elena V. Kazakov, Alexei S. Denesyuk, Alexander I. Sofin, Alexander D. Mikhailov, Roman V. Ulitin, Andrei B. Mirzabekov, Tajib A. Permyakov, Eugene A. Permyakov, Sergei E. PLoS One Research Article Due to their remarkably high structural stability, proteins from extremophiles are particularly useful in numerous biological applications. Their utility as alternative protein scaffolds could be especially valuable in small antibody mimetic engineering. These artificial binding proteins occupy a specific niche between antibodies and low molecular weight substances, paving the way for development of innovative approaches in therapeutics, diagnostics, and reagent use. Here, the 50S ribosomal RNA-binding protein L35Ae from the extremophilic archaea Pyrococcus horikoshii has been probed for its potential to serve as a backbone in alternative scaffold engineering. The recombinant wild type L35Ae has a native-like secondary structure, extreme thermal stability (mid-transition temperature of 90°C) and a moderate resistance to the denaturation by guanidine hydrochloride (half-transition at 2.6 M). Chemical crosslinking and dynamic light scattering data revealed that the wild type L35Ae protein has a propensity for multimerization and aggregation correlating with its non-specific binding to a model cell surface of HEK293 cells, as evidenced by flow cytometry. To suppress these negative features, a 10-amino acid mutant (called L35Ae 10X) was designed, which lacks the interaction with HEK293 cells, is less susceptible to aggregation, and maintains native-like secondary structure and thermal stability. However, L35Ae 10X also shows lowered resistance to guanidine hydrochloride (half-transition at 2.0M) and is more prone to oligomerization. This investigation of an extremophile protein’s scaffolding potential demonstrates that lowered resistance to charged chemical denaturants and increased propensity to multimerization may limit the utility of extremophile proteins as alternative scaffolds. Public Library of Science 2015-08-06 /pmc/articles/PMC4527664/ /pubmed/26247602 http://dx.doi.org/10.1371/journal.pone.0134906 Text en © 2015 Lomonosova et al http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Lomonosova, Anna V.
Ovchinnikova, Elena V.
Kazakov, Alexei S.
Denesyuk, Alexander I.
Sofin, Alexander D.
Mikhailov, Roman V.
Ulitin, Andrei B.
Mirzabekov, Tajib A.
Permyakov, Eugene A.
Permyakov, Sergei E.
Extremophilic 50S Ribosomal RNA-Binding Protein L35Ae as a Basis for Engineering of an Alternative Protein Scaffold
title Extremophilic 50S Ribosomal RNA-Binding Protein L35Ae as a Basis for Engineering of an Alternative Protein Scaffold
title_full Extremophilic 50S Ribosomal RNA-Binding Protein L35Ae as a Basis for Engineering of an Alternative Protein Scaffold
title_fullStr Extremophilic 50S Ribosomal RNA-Binding Protein L35Ae as a Basis for Engineering of an Alternative Protein Scaffold
title_full_unstemmed Extremophilic 50S Ribosomal RNA-Binding Protein L35Ae as a Basis for Engineering of an Alternative Protein Scaffold
title_short Extremophilic 50S Ribosomal RNA-Binding Protein L35Ae as a Basis for Engineering of an Alternative Protein Scaffold
title_sort extremophilic 50s ribosomal rna-binding protein l35ae as a basis for engineering of an alternative protein scaffold
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4527664/
https://www.ncbi.nlm.nih.gov/pubmed/26247602
http://dx.doi.org/10.1371/journal.pone.0134906
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