A sensitive method based on fluorescence-detected circular dichroism for protein local structure analysis

We report an improved fluorescence-detected circular dichroism (FDCD)-based analytical method that is useful for probing protein three-dimensional structures. The method uses a novel FDCD device with an ellipsoidal mirror that functions on a standard circular dichroism (CD) spectrometer and eliminat...

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Veröffentlicht in:	Analytical biochemistry 2012-11, Vol.430 (2), p.179-184
Hauptverfasser:	Nehira, Tatsuo, Ishihara, Kaoru, Matsuo, Koichi, Izumi, Shunsuke, Yamazaki, Takeshi, Ishida, Atsuhiko
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Bees calcium Calcium - metabolism Calmodulin Calmodulin - chemistry Calmodulin - metabolism Circular Dichroism circular dichroism spectroscopy Conformation denaturation fluorescence Fluorescence-detected circular dichroism fluorescent dyes Fluorescent Dyes - chemistry Horses Hydrogen-Ion Concentration Metmyoglobin Metmyoglobin - chemistry Metmyoglobin - metabolism peptides Peptides - analysis Protein Binding Protein Denaturation Protein Structure, Secondary Protein Structure, Tertiary Spectrometry, Fluorescence Trypsin - metabolism tryptophan
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container_title	Analytical biochemistry
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creator	Nehira, Tatsuo Ishihara, Kaoru Matsuo, Koichi Izumi, Shunsuke Yamazaki, Takeshi Ishida, Atsuhiko
description	We report an improved fluorescence-detected circular dichroism (FDCD)-based analytical method that is useful for probing protein three-dimensional structures. The method uses a novel FDCD device with an ellipsoidal mirror that functions on a standard circular dichroism (CD) spectrometer and eliminates all artifacts. Our experiments demonstrated three important findings. First, the method is applicable to any proteins either by using intrinsic fluorescence derived from tryptophan residues or by introducing a fluorescent label onto nonfluorescent proteins. Second, by using intrinsic fluorescence, FDCD spectroscopy can detect a structural change in the tertiary structure of metmyoglobin due to stepwise denaturation on a change in pH. Such changes could not be detected by conventional CD spectroscopy. Third, based on the typical advantages of fluorescence-based analyses, FDCD measurements enable observation of only the target proteins in a solution even in the presence of other peptides. Using our ellipsoidal mirror FDCD device, we could observe structural changes of fluorescently labeled calmodulin on binding with Ca2+ and/or interacting with binding peptides. Because FDCD appears to reflect the protein’s local structure around the fluorophore, it may provide a useful means for “pinpoint analysis” of protein structures.
doi_str_mv	10.1016/j.ab.2012.08.020
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The method uses a novel FDCD device with an ellipsoidal mirror that functions on a standard circular dichroism (CD) spectrometer and eliminates all artifacts. Our experiments demonstrated three important findings. First, the method is applicable to any proteins either by using intrinsic fluorescence derived from tryptophan residues or by introducing a fluorescent label onto nonfluorescent proteins. Second, by using intrinsic fluorescence, FDCD spectroscopy can detect a structural change in the tertiary structure of metmyoglobin due to stepwise denaturation on a change in pH. Such changes could not be detected by conventional CD spectroscopy. Third, based on the typical advantages of fluorescence-based analyses, FDCD measurements enable observation of only the target proteins in a solution even in the presence of other peptides. Using our ellipsoidal mirror FDCD device, we could observe structural changes of fluorescently labeled calmodulin on binding with Ca2+ and/or interacting with binding peptides. 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The method uses a novel FDCD device with an ellipsoidal mirror that functions on a standard circular dichroism (CD) spectrometer and eliminates all artifacts. Our experiments demonstrated three important findings. First, the method is applicable to any proteins either by using intrinsic fluorescence derived from tryptophan residues or by introducing a fluorescent label onto nonfluorescent proteins. Second, by using intrinsic fluorescence, FDCD spectroscopy can detect a structural change in the tertiary structure of metmyoglobin due to stepwise denaturation on a change in pH. Such changes could not be detected by conventional CD spectroscopy. Third, based on the typical advantages of fluorescence-based analyses, FDCD measurements enable observation of only the target proteins in a solution even in the presence of other peptides. Using our ellipsoidal mirror FDCD device, we could observe structural changes of fluorescently labeled calmodulin on binding with Ca2+ and/or interacting with binding peptides. Because FDCD appears to reflect the protein’s local structure around the fluorophore, it may provide a useful means for “pinpoint analysis” of protein structures.</description><subject>Animals</subject><subject>Bees</subject><subject>calcium</subject><subject>Calcium - metabolism</subject><subject>Calmodulin</subject><subject>Calmodulin - chemistry</subject><subject>Calmodulin - metabolism</subject><subject>Circular Dichroism</subject><subject>circular dichroism spectroscopy</subject><subject>Conformation</subject><subject>denaturation</subject><subject>fluorescence</subject><subject>Fluorescence-detected circular dichroism</subject><subject>fluorescent dyes</subject><subject>Fluorescent Dyes - chemistry</subject><subject>Horses</subject><subject>Hydrogen-Ion Concentration</subject><subject>Metmyoglobin</subject><subject>Metmyoglobin - chemistry</subject><subject>Metmyoglobin - metabolism</subject><subject>peptides</subject><subject>Peptides - analysis</subject><subject>Protein Binding</subject><subject>Protein Denaturation</subject><subject>Protein Structure, Secondary</subject><subject>Protein Structure, Tertiary</subject><subject>Spectrometry, Fluorescence</subject><subject>Trypsin - metabolism</subject><subject>tryptophan</subject><issn>0003-2697</issn><issn>1096-0309</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2012</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNp1kb9v1TAQxy1ERV8LOxN4ZEl6_hEnYauqQpEqMZTOlmOfqZ-SuNhOpf739dMrbEwe7nNf332OkI8MWgZMXexbM7UcGG9haIHDG7JjMKoGBIxvyQ4ARMPV2J-Ss5z3AIzJTr0jp5yPEpQcdiRc0oxrDiU8IV2wPERHJ5PR0bhSP28xYba4WmwcFrSlFmxIdptNoi7YhxRDXqiPiT6mWDCsdI7WzDSXtNmyJaRmNfNzDvk9OfFmzvjh9T0n99-uf13dNLc_v_-4urxtrOhlaZQVyg6cS66ksqqbRA_ciY7J3smxA5x6I5UQCrzvlFOej0PnmejMwI0wSpyTL8fcOtCfDXPRS6grzLNZMW5ZM8a4kDWiqygcUZtizgm9fkxhMelZM9AHwXqvzaQPgjUMugquLZ9e07dpQfev4a_RCnw-At5EbX6nkPX9XU1Q9Rhcif4w4NcjgdXCU8Cksw0HxS6kali7GP7__wuj7ZPS</recordid><startdate>20121115</startdate><enddate>20121115</enddate><creator>Nehira, Tatsuo</creator><creator>Ishihara, Kaoru</creator><creator>Matsuo, Koichi</creator><creator>Izumi, Shunsuke</creator><creator>Yamazaki, Takeshi</creator><creator>Ishida, Atsuhiko</creator><general>Elsevier Inc</general><scope>FBQ</scope><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7X8</scope></search><sort><creationdate>20121115</creationdate><title>A sensitive method based on fluorescence-detected circular dichroism for protein local structure analysis</title><author>Nehira, Tatsuo ; Ishihara, Kaoru ; Matsuo, Koichi ; Izumi, Shunsuke ; Yamazaki, Takeshi ; Ishida, Atsuhiko</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c374t-6c36c82242646c65b3702d35147d4950eb7a463360ff56d6f2985f135a82a3a63</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2012</creationdate><topic>Animals</topic><topic>Bees</topic><topic>calcium</topic><topic>Calcium - metabolism</topic><topic>Calmodulin</topic><topic>Calmodulin - chemistry</topic><topic>Calmodulin - metabolism</topic><topic>Circular Dichroism</topic><topic>circular dichroism spectroscopy</topic><topic>Conformation</topic><topic>denaturation</topic><topic>fluorescence</topic><topic>Fluorescence-detected circular dichroism</topic><topic>fluorescent dyes</topic><topic>Fluorescent Dyes - chemistry</topic><topic>Horses</topic><topic>Hydrogen-Ion Concentration</topic><topic>Metmyoglobin</topic><topic>Metmyoglobin - chemistry</topic><topic>Metmyoglobin - metabolism</topic><topic>peptides</topic><topic>Peptides - analysis</topic><topic>Protein Binding</topic><topic>Protein Denaturation</topic><topic>Protein Structure, Secondary</topic><topic>Protein Structure, Tertiary</topic><topic>Spectrometry, Fluorescence</topic><topic>Trypsin - metabolism</topic><topic>tryptophan</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Nehira, Tatsuo</creatorcontrib><creatorcontrib>Ishihara, Kaoru</creatorcontrib><creatorcontrib>Matsuo, Koichi</creatorcontrib><creatorcontrib>Izumi, Shunsuke</creatorcontrib><creatorcontrib>Yamazaki, Takeshi</creatorcontrib><creatorcontrib>Ishida, Atsuhiko</creatorcontrib><collection>AGRIS</collection><collection>Medline</collection><collection>MEDLINE</collection><collection>MEDLINE (Ovid)</collection><collection>MEDLINE</collection><collection>MEDLINE</collection><collection>PubMed</collection><collection>CrossRef</collection><collection>MEDLINE - Academic</collection><jtitle>Analytical biochemistry</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Nehira, Tatsuo</au><au>Ishihara, Kaoru</au><au>Matsuo, Koichi</au><au>Izumi, Shunsuke</au><au>Yamazaki, Takeshi</au><au>Ishida, Atsuhiko</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>A sensitive method based on fluorescence-detected circular dichroism for protein local structure analysis</atitle><jtitle>Analytical biochemistry</jtitle><addtitle>Anal Biochem</addtitle><date>2012-11-15</date><risdate>2012</risdate><volume>430</volume><issue>2</issue><spage>179</spage><epage>184</epage><pages>179-184</pages><issn>0003-2697</issn><eissn>1096-0309</eissn><abstract>We report an improved fluorescence-detected circular dichroism (FDCD)-based analytical method that is useful for probing protein three-dimensional structures. The method uses a novel FDCD device with an ellipsoidal mirror that functions on a standard circular dichroism (CD) spectrometer and eliminates all artifacts. Our experiments demonstrated three important findings. First, the method is applicable to any proteins either by using intrinsic fluorescence derived from tryptophan residues or by introducing a fluorescent label onto nonfluorescent proteins. Second, by using intrinsic fluorescence, FDCD spectroscopy can detect a structural change in the tertiary structure of metmyoglobin due to stepwise denaturation on a change in pH. Such changes could not be detected by conventional CD spectroscopy. Third, based on the typical advantages of fluorescence-based analyses, FDCD measurements enable observation of only the target proteins in a solution even in the presence of other peptides. 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subjects	Animals Bees calcium Calcium - metabolism Calmodulin Calmodulin - chemistry Calmodulin - metabolism Circular Dichroism circular dichroism spectroscopy Conformation denaturation fluorescence Fluorescence-detected circular dichroism fluorescent dyes Fluorescent Dyes - chemistry Horses Hydrogen-Ion Concentration Metmyoglobin Metmyoglobin - chemistry Metmyoglobin - metabolism peptides Peptides - analysis Protein Binding Protein Denaturation Protein Structure, Secondary Protein Structure, Tertiary Spectrometry, Fluorescence Trypsin - metabolism tryptophan
title	A sensitive method based on fluorescence-detected circular dichroism for protein local structure analysis
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