Dissecting the salt dependence of the Tus-Ter protein-DNA complexes by high-throughput differential scanning fluorimetry of a GFP-tagged TusElectronic supplementary information (ESI) available. See DOI: 10.1039/c3mb70426b

The analysis of the salt dependence of protein-DNA complexes provides useful information about the non-specific electrostatic and sequence-specific parameters driving complex formation and stability. The differential scanning fluorimetry of GFP-tagged protein (DSF-GTP) assay has been geared with an...

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Hauptverfasser:	Moreau, Morgane J. J, Schaeffer, Patrick M
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description	The analysis of the salt dependence of protein-DNA complexes provides useful information about the non-specific electrostatic and sequence-specific parameters driving complex formation and stability. The differential scanning fluorimetry of GFP-tagged protein (DSF-GTP) assay has been geared with an automatic T m peak recognition system and was applied for the high-throughput (HT) determination of salt-induced effects on the GFP-tagged DNA replication protein Tus in complex with various Ter and Ter-lock sequences. The system was designed to generate two-dimensional heat map profiles of Tus-GFP protein stability allowing for a comparative study of the effect of eight increasing salt concentrations on ten different Ter DNA species at once. The data obtained with the new HT DSF-GTP allowed precise dissection of the non-specific electrostatic and sequence-specific parameters driving Tus- Ter and Tus- Ter-lock complex formation and stability. The major factor increasing the thermal resistance of Tus- Ter-lock complexes in high-salt is the formation of the TT-lock, e.g. a 10-fold higher K spe was obtained for Tus-GFP: Ter-lockB than for Tus-GFP: TerB . It is anticipated that the system can be easily adapted for the study of other protein-DNA complexes. Quantitative salt-dependence studies of Tus- Ter interactions involved in DNA replication termination using high-throughput differential scanning fluorimetry of GFP-tagged Tus.
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See DOI: 10.1039/c3mb70426b</title><source>Royal Society Of Chemistry Journals 2008-</source><source>Alma/SFX Local Collection</source><creator>Moreau, Morgane J. J ; Schaeffer, Patrick M</creator><creatorcontrib>Moreau, Morgane J. J ; Schaeffer, Patrick M</creatorcontrib><description>The analysis of the salt dependence of protein-DNA complexes provides useful information about the non-specific electrostatic and sequence-specific parameters driving complex formation and stability. The differential scanning fluorimetry of GFP-tagged protein (DSF-GTP) assay has been geared with an automatic T m peak recognition system and was applied for the high-throughput (HT) determination of salt-induced effects on the GFP-tagged DNA replication protein Tus in complex with various Ter and Ter-lock sequences. The system was designed to generate two-dimensional heat map profiles of Tus-GFP protein stability allowing for a comparative study of the effect of eight increasing salt concentrations on ten different Ter DNA species at once. The data obtained with the new HT DSF-GTP allowed precise dissection of the non-specific electrostatic and sequence-specific parameters driving Tus- Ter and Tus- Ter-lock complex formation and stability. The major factor increasing the thermal resistance of Tus- Ter-lock complexes in high-salt is the formation of the TT-lock, e.g. a 10-fold higher K spe was obtained for Tus-GFP: Ter-lockB than for Tus-GFP: TerB . It is anticipated that the system can be easily adapted for the study of other protein-DNA complexes. 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J</creatorcontrib><creatorcontrib>Schaeffer, Patrick M</creatorcontrib><title>Dissecting the salt dependence of the Tus-Ter protein-DNA complexes by high-throughput differential scanning fluorimetry of a GFP-tagged TusElectronic supplementary information (ESI) available. See DOI: 10.1039/c3mb70426b</title><description>The analysis of the salt dependence of protein-DNA complexes provides useful information about the non-specific electrostatic and sequence-specific parameters driving complex formation and stability. The differential scanning fluorimetry of GFP-tagged protein (DSF-GTP) assay has been geared with an automatic T m peak recognition system and was applied for the high-throughput (HT) determination of salt-induced effects on the GFP-tagged DNA replication protein Tus in complex with various Ter and Ter-lock sequences. The system was designed to generate two-dimensional heat map profiles of Tus-GFP protein stability allowing for a comparative study of the effect of eight increasing salt concentrations on ten different Ter DNA species at once. The data obtained with the new HT DSF-GTP allowed precise dissection of the non-specific electrostatic and sequence-specific parameters driving Tus- Ter and Tus- Ter-lock complex formation and stability. The major factor increasing the thermal resistance of Tus- Ter-lock complexes in high-salt is the formation of the TT-lock, e.g. a 10-fold higher K spe was obtained for Tus-GFP: Ter-lockB than for Tus-GFP: TerB . It is anticipated that the system can be easily adapted for the study of other protein-DNA complexes. 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J</au><au>Schaeffer, Patrick M</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Dissecting the salt dependence of the Tus-Ter protein-DNA complexes by high-throughput differential scanning fluorimetry of a GFP-tagged TusElectronic supplementary information (ESI) available. See DOI: 10.1039/c3mb70426b</atitle><date>2013-10-29</date><risdate>2013</risdate><volume>9</volume><issue>12</issue><spage>3146</spage><epage>3154</epage><pages>3146-3154</pages><issn>1742-206X</issn><eissn>1742-2051</eissn><abstract>The analysis of the salt dependence of protein-DNA complexes provides useful information about the non-specific electrostatic and sequence-specific parameters driving complex formation and stability. The differential scanning fluorimetry of GFP-tagged protein (DSF-GTP) assay has been geared with an automatic T m peak recognition system and was applied for the high-throughput (HT) determination of salt-induced effects on the GFP-tagged DNA replication protein Tus in complex with various Ter and Ter-lock sequences. The system was designed to generate two-dimensional heat map profiles of Tus-GFP protein stability allowing for a comparative study of the effect of eight increasing salt concentrations on ten different Ter DNA species at once. The data obtained with the new HT DSF-GTP allowed precise dissection of the non-specific electrostatic and sequence-specific parameters driving Tus- Ter and Tus- Ter-lock complex formation and stability. The major factor increasing the thermal resistance of Tus- Ter-lock complexes in high-salt is the formation of the TT-lock, e.g. a 10-fold higher K spe was obtained for Tus-GFP: Ter-lockB than for Tus-GFP: TerB . It is anticipated that the system can be easily adapted for the study of other protein-DNA complexes. Quantitative salt-dependence studies of Tus- Ter interactions involved in DNA replication termination using high-throughput differential scanning fluorimetry of GFP-tagged Tus.</abstract><doi>10.1039/c3mb70426b</doi><tpages>9</tpages></addata></record>
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source	Royal Society Of Chemistry Journals 2008-; Alma/SFX Local Collection
title	Dissecting the salt dependence of the Tus-Ter protein-DNA complexes by high-throughput differential scanning fluorimetry of a GFP-tagged TusElectronic supplementary information (ESI) available. See DOI: 10.1039/c3mb70426b
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