Ultraviolet illumination-induced reduction of α-lactalbumin disulfide bridges

Prolonged exposure of Ca2+‐loaded or Ca2+‐depleted human α‐lactalbumin to ultraviolet light (270–290 nm, 1 mW/cm2, for 2 to 4 h) results in a 10‐nm red shift of its tryptophan fluorescence spectrum. Gel chromatography of the UV‐illuminated samples reveals two non‐native protein forms: (1) a componen...

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Veröffentlicht in:	Proteins, structure, function, and bioinformatics structure, function, and bioinformatics, 2003-06, Vol.51 (4), p.498-503
Hauptverfasser:	Permyakov, Eugene A., Permyakov, Serge E., Deikus, Gintaras Y., Morozova-Roche, Ludmila A., Grishchenko, Valery M., Kalinichenko, Lina P., Uversky, Vladimir N.
Format:	Artikel
Sprache:	eng
Schlagworte:	Calcium - metabolism cystein disulfide bridge Disulfides - chemistry Humans Lactalbumin - chemistry Lactalbumin - metabolism Mass Spectrometry - methods Oxidation-Reduction - radiation effects photo-induced modification Protein Binding - radiation effects Protein Conformation Temperature Thermodynamics tryptophan Ultraviolet Rays α-lactalbumin
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container_title	Proteins, structure, function, and bioinformatics
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description	Prolonged exposure of Ca2+‐loaded or Ca2+‐depleted human α‐lactalbumin to ultraviolet light (270–290 nm, 1 mW/cm2, for 2 to 4 h) results in a 10‐nm red shift of its tryptophan fluorescence spectrum. Gel chromatography of the UV‐illuminated samples reveals two non‐native protein forms: (1) a component with a red‐shifted tryptophan fluorescence spectrum; and (2) a component with kynurenine‐like fluorescent properties. The first component has from 0.6 to 0.9 free DTNB‐reactive SH groups per protein molecule, which are absent in the native protein and is characterized by slightly lowered Ca2+‐affinity (2 × 108 M−1 versus 8 × 108 M−1 for the native protein) and absence of observable thermal transition. The second component corresponds to the protein with photochemically modified tryptophan residues. It is assumed that the UV excitation of tryptophan residue(s) in α‐lactalbumin is followed by a transfer of electrons to the SS bonds, resulting in their reduction. Mass spectrometry data obtained for trypsin‐fragmented UV‐illuminated α‐lactalbumin with acrylodan‐modified free thiol groups reveal the reduction of the 61–77 and 73–91 disulfide bridges. The effect observed has to be taken into account in any UV‐region spectral studies of α‐lactalbumin. Proteins 2003;51:498–503. © 2003 Wiley‐Liss, Inc.
doi_str_mv	10.1002/prot.10371
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Gel chromatography of the UV‐illuminated samples reveals two non‐native protein forms: (1) a component with a red‐shifted tryptophan fluorescence spectrum; and (2) a component with kynurenine‐like fluorescent properties. The first component has from 0.6 to 0.9 free DTNB‐reactive SH groups per protein molecule, which are absent in the native protein and is characterized by slightly lowered Ca2+‐affinity (2 × 108 M−1 versus 8 × 108 M−1 for the native protein) and absence of observable thermal transition. The second component corresponds to the protein with photochemically modified tryptophan residues. It is assumed that the UV excitation of tryptophan residue(s) in α‐lactalbumin is followed by a transfer of electrons to the SS bonds, resulting in their reduction. Mass spectrometry data obtained for trypsin‐fragmented UV‐illuminated α‐lactalbumin with acrylodan‐modified free thiol groups reveal the reduction of the 61–77 and 73–91 disulfide bridges. The effect observed has to be taken into account in any UV‐region spectral studies of α‐lactalbumin. 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Gel chromatography of the UV‐illuminated samples reveals two non‐native protein forms: (1) a component with a red‐shifted tryptophan fluorescence spectrum; and (2) a component with kynurenine‐like fluorescent properties. The first component has from 0.6 to 0.9 free DTNB‐reactive SH groups per protein molecule, which are absent in the native protein and is characterized by slightly lowered Ca2+‐affinity (2 × 108 M−1 versus 8 × 108 M−1 for the native protein) and absence of observable thermal transition. The second component corresponds to the protein with photochemically modified tryptophan residues. It is assumed that the UV excitation of tryptophan residue(s) in α‐lactalbumin is followed by a transfer of electrons to the SS bonds, resulting in their reduction. Mass spectrometry data obtained for trypsin‐fragmented UV‐illuminated α‐lactalbumin with acrylodan‐modified free thiol groups reveal the reduction of the 61–77 and 73–91 disulfide bridges. The effect observed has to be taken into account in any UV‐region spectral studies of α‐lactalbumin. Proteins 2003;51:498–503. © 2003 Wiley‐Liss, Inc.</description><subject>Calcium - metabolism</subject><subject>cystein</subject><subject>disulfide bridge</subject><subject>Disulfides - chemistry</subject><subject>Humans</subject><subject>Lactalbumin - chemistry</subject><subject>Lactalbumin - metabolism</subject><subject>Mass Spectrometry - methods</subject><subject>Oxidation-Reduction - radiation effects</subject><subject>photo-induced modification</subject><subject>Protein Binding - radiation effects</subject><subject>Protein Conformation</subject><subject>Temperature</subject><subject>Thermodynamics</subject><subject>tryptophan</subject><subject>Ultraviolet Rays</subject><subject>α-lactalbumin</subject><issn>0887-3585</issn><issn>1097-0134</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2003</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNp9kE1OwzAQhS0EglLYcACUFQukgCeOf7JEQCkSAoSKWFqOM0EGtwE74edYXIQzkdICO1ZvNPO9J80jZAfoAVCaHT6Fpu0nJmGFDIAWMqXA8lUyoErJlHHFN8hmjA-UUlEwsU42IJMqz2gxIJe3vg3mxTUe28R5303dzLSumaVuVnUWqyRgr_NN0tTJ50fqjW2NL-dgUrnY-dpVmJTBVfcYt8habXzE7aUOye3odHI8Ti-uzs6Pjy5SywSDlBvMDCghbA28tBnwvMgFKqVqw0ooqRKVxLo_ASooDCJDIWqglnJpwbAh2Vvk9r8_dxhbPXXRovdmhk0XtWSMqULyHtxfgDY0MQas9VNwUxPeNVA9b0_P29Pf7fXw7jK1K6dY_aHLunoAFsCr8_j-T5S-vrma_ISmC4-LLb79ekx41EIyyfXd5Zke5Rkf55MTfcO-APfxi5k</recordid><startdate>20030601</startdate><enddate>20030601</enddate><creator>Permyakov, Eugene A.</creator><creator>Permyakov, Serge E.</creator><creator>Deikus, Gintaras Y.</creator><creator>Morozova-Roche, Ludmila A.</creator><creator>Grishchenko, Valery M.</creator><creator>Kalinichenko, Lina P.</creator><creator>Uversky, Vladimir N.</creator><general>Wiley Subscription Services, Inc., A Wiley Company</general><scope>BSCLL</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>20030601</creationdate><title>Ultraviolet illumination-induced reduction of α-lactalbumin disulfide bridges</title><author>Permyakov, Eugene A. ; Permyakov, Serge E. ; Deikus, Gintaras Y. ; Morozova-Roche, Ludmila A. ; Grishchenko, Valery M. ; Kalinichenko, Lina P. ; Uversky, Vladimir N.</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c3631-5ae2a1866cf15bc2154946e888fa3b1b086d7ef5bc1e819aee3e66f10c057c1a3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2003</creationdate><topic>Calcium - metabolism</topic><topic>cystein</topic><topic>disulfide bridge</topic><topic>Disulfides - chemistry</topic><topic>Humans</topic><topic>Lactalbumin - chemistry</topic><topic>Lactalbumin - metabolism</topic><topic>Mass Spectrometry - methods</topic><topic>Oxidation-Reduction - radiation effects</topic><topic>photo-induced modification</topic><topic>Protein Binding - radiation effects</topic><topic>Protein Conformation</topic><topic>Temperature</topic><topic>Thermodynamics</topic><topic>tryptophan</topic><topic>Ultraviolet Rays</topic><topic>α-lactalbumin</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Permyakov, Eugene A.</creatorcontrib><creatorcontrib>Permyakov, Serge E.</creatorcontrib><creatorcontrib>Deikus, Gintaras Y.</creatorcontrib><creatorcontrib>Morozova-Roche, Ludmila A.</creatorcontrib><creatorcontrib>Grishchenko, Valery M.</creatorcontrib><creatorcontrib>Kalinichenko, Lina P.</creatorcontrib><creatorcontrib>Uversky, Vladimir N.</creatorcontrib><collection>Istex</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>Proteins, structure, function, and bioinformatics</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Permyakov, Eugene A.</au><au>Permyakov, Serge E.</au><au>Deikus, Gintaras Y.</au><au>Morozova-Roche, Ludmila A.</au><au>Grishchenko, Valery M.</au><au>Kalinichenko, Lina P.</au><au>Uversky, Vladimir N.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Ultraviolet illumination-induced reduction of α-lactalbumin disulfide bridges</atitle><jtitle>Proteins, structure, function, and bioinformatics</jtitle><addtitle>Proteins</addtitle><date>2003-06-01</date><risdate>2003</risdate><volume>51</volume><issue>4</issue><spage>498</spage><epage>503</epage><pages>498-503</pages><issn>0887-3585</issn><eissn>1097-0134</eissn><abstract>Prolonged exposure of Ca2+‐loaded or Ca2+‐depleted human α‐lactalbumin to ultraviolet light (270–290 nm, 1 mW/cm2, for 2 to 4 h) results in a 10‐nm red shift of its tryptophan fluorescence spectrum. Gel chromatography of the UV‐illuminated samples reveals two non‐native protein forms: (1) a component with a red‐shifted tryptophan fluorescence spectrum; and (2) a component with kynurenine‐like fluorescent properties. The first component has from 0.6 to 0.9 free DTNB‐reactive SH groups per protein molecule, which are absent in the native protein and is characterized by slightly lowered Ca2+‐affinity (2 × 108 M−1 versus 8 × 108 M−1 for the native protein) and absence of observable thermal transition. The second component corresponds to the protein with photochemically modified tryptophan residues. It is assumed that the UV excitation of tryptophan residue(s) in α‐lactalbumin is followed by a transfer of electrons to the SS bonds, resulting in their reduction. Mass spectrometry data obtained for trypsin‐fragmented UV‐illuminated α‐lactalbumin with acrylodan‐modified free thiol groups reveal the reduction of the 61–77 and 73–91 disulfide bridges. 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subjects	Calcium - metabolism cystein disulfide bridge Disulfides - chemistry Humans Lactalbumin - chemistry Lactalbumin - metabolism Mass Spectrometry - methods Oxidation-Reduction - radiation effects photo-induced modification Protein Binding - radiation effects Protein Conformation Temperature Thermodynamics tryptophan Ultraviolet Rays α-lactalbumin
title	Ultraviolet illumination-induced reduction of α-lactalbumin disulfide bridges
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