Effect of Superoxide and Superoxide Dismutase on Lignin Peroxidase-Catalyzed Veratryl Alcohol Oxidation

We have shown that superoxide (O⨪2) is produced during the oxidation of veratryl alcohol by lignin peroxidase (LiP) by the reaction of the veratryl alcohol cation radical with hydrogen peroxide (D. B. Barr, M. M. Shah, and S. D. Aust, 1993, J. Biol. Chem. 268, 241-244). Compound III, an inactive for...

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Veröffentlicht in:	Archives of biochemistry and biophysics 1994-06, Vol.311 (2), p.378-382
Hauptverfasser:	Barr, D.P., Aust, S.D.
Format:	Artikel
Sprache:	eng
Schlagworte:	Agaricales - enzymology ALCOHOLES ALCOOL Benzyl Alcohols - metabolism CONTAMINANTES Hydrogen-Ion Concentration Kinetics LIGNINAS LIGNINE MICROORGANISME MICROORGANISMOS Oxidation-Reduction OXIGENO OXYGENE PEROXIDASAS Peroxidases - metabolism PEROXYDASE PHANEROCHAETE CHRYSOSPORIUM POLLUANT Superoxide Dismutase - metabolism Superoxides - pharmacology SUPEROXIDO DISMUTASA SUPEROXYDE DISMUTASE
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creator	Barr, D.P. Aust, S.D.
description	We have shown that superoxide (O⨪2) is produced during the oxidation of veratryl alcohol by lignin peroxidase (LiP) by the reaction of the veratryl alcohol cation radical with hydrogen peroxide (D. B. Barr, M. M. Shah, and S. D. Aust, 1993, J. Biol. Chem. 268, 241-244). Compound III, an inactive form of peroxidases can be formed by reaction of the ferric enzyme with O⨪2. We therefore studied the effects of OI and superoxide dismutase (SOD) on the veratryl alcohol oxidase activity of LiP. SOD enhanced the rate of veratryl alcohol oxidation by LiP and veratryl alcohol oxidation was inhibited by the addition of KO2. Upon the addition of KO2, activity was also preceded by a lag period. Under steady-state turnover conditions (i.e., for veratryl alcohol oxidation), the addition of KO2 resulted in the formation of LiP compound III. Compound II of LiP was observed following a time period that correlated with the lag prior to veratryl aldehyde formation. The extent of the lag preceding veratryl aldehyde formation increased with increasing concentrations of KO2 and decreased with increasing concentrations of veratryl alcohol. It was postulated that during the lag period the veratryl alcohol cation radical reacted with compound III to regenerate the native enzyme. In this process the veratryl alcohol cation radical was reduced to veratryl alcohol, and thus, no veratryl aldehyde was detected during the lag period.
doi_str_mv	10.1006/abbi.1994.1251
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B. Barr, M. M. Shah, and S. D. Aust, 1993, J. Biol. Chem. 268, 241-244). Compound III, an inactive form of peroxidases can be formed by reaction of the ferric enzyme with O⨪2. We therefore studied the effects of OI and superoxide dismutase (SOD) on the veratryl alcohol oxidase activity of LiP. SOD enhanced the rate of veratryl alcohol oxidation by LiP and veratryl alcohol oxidation was inhibited by the addition of KO2. Upon the addition of KO2, activity was also preceded by a lag period. Under steady-state turnover conditions (i.e., for veratryl alcohol oxidation), the addition of KO2 resulted in the formation of LiP compound III. Compound II of LiP was observed following a time period that correlated with the lag prior to veratryl aldehyde formation. The extent of the lag preceding veratryl aldehyde formation increased with increasing concentrations of KO2 and decreased with increasing concentrations of veratryl alcohol. It was postulated that during the lag period the veratryl alcohol cation radical reacted with compound III to regenerate the native enzyme. 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B. Barr, M. M. Shah, and S. D. Aust, 1993, J. Biol. Chem. 268, 241-244). Compound III, an inactive form of peroxidases can be formed by reaction of the ferric enzyme with O⨪2. We therefore studied the effects of OI and superoxide dismutase (SOD) on the veratryl alcohol oxidase activity of LiP. SOD enhanced the rate of veratryl alcohol oxidation by LiP and veratryl alcohol oxidation was inhibited by the addition of KO2. Upon the addition of KO2, activity was also preceded by a lag period. Under steady-state turnover conditions (i.e., for veratryl alcohol oxidation), the addition of KO2 resulted in the formation of LiP compound III. Compound II of LiP was observed following a time period that correlated with the lag prior to veratryl aldehyde formation. The extent of the lag preceding veratryl aldehyde formation increased with increasing concentrations of KO2 and decreased with increasing concentrations of veratryl alcohol. It was postulated that during the lag period the veratryl alcohol cation radical reacted with compound III to regenerate the native enzyme. In this process the veratryl alcohol cation radical was reduced to veratryl alcohol, and thus, no veratryl aldehyde was detected during the lag period.</description><subject>Agaricales - enzymology</subject><subject>ALCOHOLES</subject><subject>ALCOOL</subject><subject>Benzyl Alcohols - metabolism</subject><subject>CONTAMINANTES</subject><subject>Hydrogen-Ion Concentration</subject><subject>Kinetics</subject><subject>LIGNINAS</subject><subject>LIGNINE</subject><subject>MICROORGANISME</subject><subject>MICROORGANISMOS</subject><subject>Oxidation-Reduction</subject><subject>OXIGENO</subject><subject>OXYGENE</subject><subject>PEROXIDASAS</subject><subject>Peroxidases - metabolism</subject><subject>PEROXYDASE</subject><subject>PHANEROCHAETE CHRYSOSPORIUM</subject><subject>POLLUANT</subject><subject>Superoxide Dismutase - metabolism</subject><subject>Superoxides - pharmacology</subject><subject>SUPEROXIDO DISMUTASA</subject><subject>SUPEROXYDE DISMUTASE</subject><issn>0003-9861</issn><issn>1096-0384</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>1994</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNp1kEtv1DAURi1EVYbClgUSklfsMr2OHxMvq6E8pJGKVMrWcpzrwSgTD3aCmP56HGWE2HRl2efzvfoOIW8YrBmAurZtG9ZMa7FmtWTPyIqBVhXwRjwnKwDglW4Ue0Fe5vwTgDGh6kty2dTANcCK7G-9RzfS6On9dMQU_4QOqR26_68fQj5Mo81I40B3YT-EgX5dYHmstna0_ekRO_odkx3Tqac3vYs_Yk_v5sgY4vCKXHjbZ3x9Pq_Iw8fbb9vP1e7u05ftza5yXDZj5bxUwnrnSwEpJLeNUxvOuYfWCqi1tlY0HH0rWu71BlRpBJpJxUUHzjN-Rd4vc48p_powj-YQssO-twPGKZuNknUNG1GC6yXoUsw5oTfHFA42nQwDM5s1s1kzmzWz2fLh3Xny1B6w-xc_qyz87cK9jcbuU8jm4V5LEI2WBTYLxNL9d8Bksgs4OOxCKvpNF8NTe_8CzTGQFA</recordid><startdate>19940601</startdate><enddate>19940601</enddate><creator>Barr, D.P.</creator><creator>Aust, S.D.</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>19940601</creationdate><title>Effect of Superoxide and Superoxide Dismutase on Lignin Peroxidase-Catalyzed Veratryl Alcohol Oxidation</title><author>Barr, D.P. ; Aust, S.D.</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c358t-cf564afcf0385453a8c67333f0ba40299aa483efb4b3f97060110915634d0cf13</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>1994</creationdate><topic>Agaricales - enzymology</topic><topic>ALCOHOLES</topic><topic>ALCOOL</topic><topic>Benzyl Alcohols - metabolism</topic><topic>CONTAMINANTES</topic><topic>Hydrogen-Ion Concentration</topic><topic>Kinetics</topic><topic>LIGNINAS</topic><topic>LIGNINE</topic><topic>MICROORGANISME</topic><topic>MICROORGANISMOS</topic><topic>Oxidation-Reduction</topic><topic>OXIGENO</topic><topic>OXYGENE</topic><topic>PEROXIDASAS</topic><topic>Peroxidases - metabolism</topic><topic>PEROXYDASE</topic><topic>PHANEROCHAETE CHRYSOSPORIUM</topic><topic>POLLUANT</topic><topic>Superoxide Dismutase - metabolism</topic><topic>Superoxides - pharmacology</topic><topic>SUPEROXIDO DISMUTASA</topic><topic>SUPEROXYDE DISMUTASE</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Barr, D.P.</creatorcontrib><creatorcontrib>Aust, S.D.</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>Archives of biochemistry and biophysics</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Barr, D.P.</au><au>Aust, S.D.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Effect of Superoxide and Superoxide Dismutase on Lignin Peroxidase-Catalyzed Veratryl Alcohol Oxidation</atitle><jtitle>Archives of biochemistry and biophysics</jtitle><addtitle>Arch Biochem Biophys</addtitle><date>1994-06-01</date><risdate>1994</risdate><volume>311</volume><issue>2</issue><spage>378</spage><epage>382</epage><pages>378-382</pages><issn>0003-9861</issn><eissn>1096-0384</eissn><abstract>We have shown that superoxide (O⨪2) is produced during the oxidation of veratryl alcohol by lignin peroxidase (LiP) by the reaction of the veratryl alcohol cation radical with hydrogen peroxide (D. B. Barr, M. M. Shah, and S. D. Aust, 1993, J. Biol. Chem. 268, 241-244). Compound III, an inactive form of peroxidases can be formed by reaction of the ferric enzyme with O⨪2. We therefore studied the effects of OI and superoxide dismutase (SOD) on the veratryl alcohol oxidase activity of LiP. SOD enhanced the rate of veratryl alcohol oxidation by LiP and veratryl alcohol oxidation was inhibited by the addition of KO2. Upon the addition of KO2, activity was also preceded by a lag period. Under steady-state turnover conditions (i.e., for veratryl alcohol oxidation), the addition of KO2 resulted in the formation of LiP compound III. Compound II of LiP was observed following a time period that correlated with the lag prior to veratryl aldehyde formation. The extent of the lag preceding veratryl aldehyde formation increased with increasing concentrations of KO2 and decreased with increasing concentrations of veratryl alcohol. It was postulated that during the lag period the veratryl alcohol cation radical reacted with compound III to regenerate the native enzyme. In this process the veratryl alcohol cation radical was reduced to veratryl alcohol, and thus, no veratryl aldehyde was detected during the lag period.</abstract><cop>United States</cop><pub>Elsevier Inc</pub><pmid>8203900</pmid><doi>10.1006/abbi.1994.1251</doi><tpages>5</tpages></addata></record>
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source	MEDLINE; ScienceDirect Journals (5 years ago - present)
subjects	Agaricales - enzymology ALCOHOLES ALCOOL Benzyl Alcohols - metabolism CONTAMINANTES Hydrogen-Ion Concentration Kinetics LIGNINAS LIGNINE MICROORGANISME MICROORGANISMOS Oxidation-Reduction OXIGENO OXYGENE PEROXIDASAS Peroxidases - metabolism PEROXYDASE PHANEROCHAETE CHRYSOSPORIUM POLLUANT Superoxide Dismutase - metabolism Superoxides - pharmacology SUPEROXIDO DISMUTASA SUPEROXYDE DISMUTASE
title	Effect of Superoxide and Superoxide Dismutase on Lignin Peroxidase-Catalyzed Veratryl Alcohol Oxidation
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