New molecular reporters for rapid protein folding assays.

The GFP folding reporter assay uses a C-terminal GFP fusion to report on the folding success of upstream fused polypeptides. The GFP folding assay is widely-used for screening protein variants with improved folding and solubility, but truncation artifacts may arise during evolution, i.e. from de nov...

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Main Authors: Stéphanie Cabantous, Yvonne Rogers, Thomas C Terwilliger, Geoffrey S Waldo
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2008-06-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC2408556?pdf=render
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spelling doaj-9606a9d9987541b88c933c02ae5a326e2020-11-24T22:16:34ZengPublic Library of Science (PLoS)PLoS ONE1932-62032008-06-0136e238710.1371/journal.pone.0002387New molecular reporters for rapid protein folding assays.Stéphanie CabantousYvonne RogersThomas C TerwilligerGeoffrey S WaldoThe GFP folding reporter assay uses a C-terminal GFP fusion to report on the folding success of upstream fused polypeptides. The GFP folding assay is widely-used for screening protein variants with improved folding and solubility, but truncation artifacts may arise during evolution, i.e. from de novo internal ribosome entry sites. One way to reduce such artifacts would be to insert target genes within the scaffolding of GFP circular permuted variants. Circular permutants of fluorescent proteins often misfold and are non-fluorescent, and do not readily tolerate fused polypeptides within the fluorescent protein scaffolding. To overcome these limitations, and to increase the dynamic range for reporting on protein misfolding, we have created eight GFP insertion reporters with different sensitivities to protein misfolding using chimeras of two previously described GFP variants, the GFP folding reporter and the robustly-folding "superfolder" GFP. We applied this technology to engineer soluble variants of Rv0113, a protein from Mycobacterium tuberculosis initially expressed as inclusion bodies in Escherichia coli. Using GFP insertion reporters with increasing stringency for each cycle of mutagenesis and selection led to a variant that produced large amounts of soluble protein at 37 degrees C in Escherichia coli. The new reporter constructs discriminate against truncation artifacts previously isolated during directed evolution of Rv0113 using the original C-terminal GFP folding reporter. Using GFP insertion reporters with variable stringency should prove useful for engineering protein variants with improved folding and solubility, while reducing the number of artifacts arising from internal cryptic ribosome initiation sites.http://europepmc.org/articles/PMC2408556?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Stéphanie Cabantous
Yvonne Rogers
Thomas C Terwilliger
Geoffrey S Waldo
spellingShingle Stéphanie Cabantous
Yvonne Rogers
Thomas C Terwilliger
Geoffrey S Waldo
New molecular reporters for rapid protein folding assays.
PLoS ONE
author_facet Stéphanie Cabantous
Yvonne Rogers
Thomas C Terwilliger
Geoffrey S Waldo
author_sort Stéphanie Cabantous
title New molecular reporters for rapid protein folding assays.
title_short New molecular reporters for rapid protein folding assays.
title_full New molecular reporters for rapid protein folding assays.
title_fullStr New molecular reporters for rapid protein folding assays.
title_full_unstemmed New molecular reporters for rapid protein folding assays.
title_sort new molecular reporters for rapid protein folding assays.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2008-06-01
description The GFP folding reporter assay uses a C-terminal GFP fusion to report on the folding success of upstream fused polypeptides. The GFP folding assay is widely-used for screening protein variants with improved folding and solubility, but truncation artifacts may arise during evolution, i.e. from de novo internal ribosome entry sites. One way to reduce such artifacts would be to insert target genes within the scaffolding of GFP circular permuted variants. Circular permutants of fluorescent proteins often misfold and are non-fluorescent, and do not readily tolerate fused polypeptides within the fluorescent protein scaffolding. To overcome these limitations, and to increase the dynamic range for reporting on protein misfolding, we have created eight GFP insertion reporters with different sensitivities to protein misfolding using chimeras of two previously described GFP variants, the GFP folding reporter and the robustly-folding "superfolder" GFP. We applied this technology to engineer soluble variants of Rv0113, a protein from Mycobacterium tuberculosis initially expressed as inclusion bodies in Escherichia coli. Using GFP insertion reporters with increasing stringency for each cycle of mutagenesis and selection led to a variant that produced large amounts of soluble protein at 37 degrees C in Escherichia coli. The new reporter constructs discriminate against truncation artifacts previously isolated during directed evolution of Rv0113 using the original C-terminal GFP folding reporter. Using GFP insertion reporters with variable stringency should prove useful for engineering protein variants with improved folding and solubility, while reducing the number of artifacts arising from internal cryptic ribosome initiation sites.
url http://europepmc.org/articles/PMC2408556?pdf=render
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