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Inherent Structural Disorder and Dimerisation of Murine Norovirus NS1-2 Protein

Human noroviruses are highly infectious viruses that cause the majority of acute, non-bacterial epidemic gastroenteritis cases worldwide. The first open reading frame of the norovirus RNA genome encodes for a polyprotein that is cleaved by the viral protease into six non-structural proteins. The fir...

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Autores principales: Baker, Estelle S., Luckner, Sylvia R., Krause, Kurt L., Lambden, Paul R., Clarke, Ian N., Ward, Vernon K.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2012
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3274520/
https://www.ncbi.nlm.nih.gov/pubmed/22347381
http://dx.doi.org/10.1371/journal.pone.0030534
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author Baker, Estelle S.
Luckner, Sylvia R.
Krause, Kurt L.
Lambden, Paul R.
Clarke, Ian N.
Ward, Vernon K.
author_facet Baker, Estelle S.
Luckner, Sylvia R.
Krause, Kurt L.
Lambden, Paul R.
Clarke, Ian N.
Ward, Vernon K.
author_sort Baker, Estelle S.
collection PubMed
description Human noroviruses are highly infectious viruses that cause the majority of acute, non-bacterial epidemic gastroenteritis cases worldwide. The first open reading frame of the norovirus RNA genome encodes for a polyprotein that is cleaved by the viral protease into six non-structural proteins. The first non-structural protein, NS1-2, lacks any significant sequence similarity to other viral or cellular proteins and limited information is available about the function and biophysical characteristics of this protein. Bioinformatic analyses identified an inherently disordered region (residues 1–142) in the highly divergent N-terminal region of the norovirus NS1-2 protein. Expression and purification of the NS1-2 protein of Murine norovirus confirmed these predictions by identifying several features typical of an inherently disordered protein. These were a biased amino acid composition with enrichment in the disorder promoting residues serine and proline, a lack of predicted secondary structure, a hydrophilic nature, an aberrant electrophoretic migration, an increased Stokes radius similar to that predicted for a protein from the pre-molten globule family, a high sensitivity to thermolysin proteolysis and a circular dichroism spectrum typical of an inherently disordered protein. The purification of the NS1-2 protein also identified the presence of an NS1-2 dimer in Escherichia coli and transfected HEK293T cells. Inherent disorder provides significant advantages including structural flexibility and the ability to bind to numerous targets allowing a single protein to have multiple functions. These advantages combined with the potential functional advantages of multimerisation suggest a multi-functional role for the NS1-2 protein.
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spelling pubmed-32745202012-02-15 Inherent Structural Disorder and Dimerisation of Murine Norovirus NS1-2 Protein Baker, Estelle S. Luckner, Sylvia R. Krause, Kurt L. Lambden, Paul R. Clarke, Ian N. Ward, Vernon K. PLoS One Research Article Human noroviruses are highly infectious viruses that cause the majority of acute, non-bacterial epidemic gastroenteritis cases worldwide. The first open reading frame of the norovirus RNA genome encodes for a polyprotein that is cleaved by the viral protease into six non-structural proteins. The first non-structural protein, NS1-2, lacks any significant sequence similarity to other viral or cellular proteins and limited information is available about the function and biophysical characteristics of this protein. Bioinformatic analyses identified an inherently disordered region (residues 1–142) in the highly divergent N-terminal region of the norovirus NS1-2 protein. Expression and purification of the NS1-2 protein of Murine norovirus confirmed these predictions by identifying several features typical of an inherently disordered protein. These were a biased amino acid composition with enrichment in the disorder promoting residues serine and proline, a lack of predicted secondary structure, a hydrophilic nature, an aberrant electrophoretic migration, an increased Stokes radius similar to that predicted for a protein from the pre-molten globule family, a high sensitivity to thermolysin proteolysis and a circular dichroism spectrum typical of an inherently disordered protein. The purification of the NS1-2 protein also identified the presence of an NS1-2 dimer in Escherichia coli and transfected HEK293T cells. Inherent disorder provides significant advantages including structural flexibility and the ability to bind to numerous targets allowing a single protein to have multiple functions. These advantages combined with the potential functional advantages of multimerisation suggest a multi-functional role for the NS1-2 protein. Public Library of Science 2012-02-07 /pmc/articles/PMC3274520/ /pubmed/22347381 http://dx.doi.org/10.1371/journal.pone.0030534 Text en Baker 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
Baker, Estelle S.
Luckner, Sylvia R.
Krause, Kurt L.
Lambden, Paul R.
Clarke, Ian N.
Ward, Vernon K.
Inherent Structural Disorder and Dimerisation of Murine Norovirus NS1-2 Protein
title Inherent Structural Disorder and Dimerisation of Murine Norovirus NS1-2 Protein
title_full Inherent Structural Disorder and Dimerisation of Murine Norovirus NS1-2 Protein
title_fullStr Inherent Structural Disorder and Dimerisation of Murine Norovirus NS1-2 Protein
title_full_unstemmed Inherent Structural Disorder and Dimerisation of Murine Norovirus NS1-2 Protein
title_short Inherent Structural Disorder and Dimerisation of Murine Norovirus NS1-2 Protein
title_sort inherent structural disorder and dimerisation of murine norovirus ns1-2 protein
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3274520/
https://www.ncbi.nlm.nih.gov/pubmed/22347381
http://dx.doi.org/10.1371/journal.pone.0030534
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