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Electron transport in microbial chlorate respirationSmedja Bäcklund, Anna January 2009 (has links)
<p><!-- /* Font Definitions */ @font-face {font-family:Garamond; panose-1:2 2 4 4 3 3 1 1 8 3; mso-font-charset:0; mso-generic-font-family:roman; mso-font-pitch:variable; mso-font-signature:647 0 0 0 159 0;} /* Style Definitions */ p.MsoNormal, li.MsoNormal, div.MsoNormal {mso-style-parent:""; margin:0cm; margin-bottom:.0001pt; mso-pagination:widow-orphan; font-size:12.0pt; font-family:"Times New Roman"; mso-fareast-font-family:"Times New Roman";} @page Section1 {size:612.0pt 792.0pt; margin:72.0pt 90.0pt 72.0pt 90.0pt; mso-header-margin:36.0pt; mso-footer-margin:36.0pt; mso-paper-source:0;} div.Section1 {page:Section1;} --></p><p>Several bacterial species are capable to use perchlorate and/or chlorate as an alternative electron acceptor in absence of oxygen. Microbial respiration of oxochlorates is important for biotreatment of effluent from industries where oxochlorates are produced or handled. One of these species, the Gram-negative <em>Ideonella dechloratans</em>, is able to reduce chlorate but not perchlorate. Two soluble enzymes, chlorate reductase and chlorite dismutase, participate in the conversion of chlorate into chloride and molecular oxygen. The present study deals with the electron transport from the membrane-bound components to the periplasmic chlorate reductase. Soluble <em>c</em> cytochromes were investigated for their ability to serve as electron donors to chlorate reductase. The results show that a 6 kDa <em>c </em>cytochrome serves as electron donor for chlorate reductase. This cytochrome also serves as electron donor for a terminal oxidase in the reduction of oxygen that is produced in the course of chlorate respiration. A gene encoding a soluble <em>c</em> cytochrome was found in close proximity to the gene cluster for chlorate reduction. This gene was cloned and expressed heterologously, and the resulting protein was investigated as a candidate electron donor for chlorate reductase. Electron transfer from this protein could not be demonstrated, suggesting that the gene product does not serve as immediate electron donor for chlorate reductase.</p><p> </p>
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Electron transport in microbial chlorate respirationSmedja Bäcklund, Anna January 2009 (has links)
Several bacterial species are capable to use perchlorate and/or chlorate as an alternative electron acceptor in absence of oxygen. Microbial respiration of oxochlorates is important for biotreatment of effluent from industries where oxochlorates are produced or handled. One of these species, the Gram-negative Ideonella dechloratans, is able to reduce chlorate but not perchlorate. Two soluble enzymes, chlorate reductase and chlorite dismutase, participate in the conversion of chlorate into chloride and molecular oxygen. The present study deals with the electron transport from the membrane-bound components to the periplasmic chlorate reductase. Soluble c cytochromes were investigated for their ability to serve as electron donors to chlorate reductase. The results show that a 6 kDa c cytochrome serves as electron donor for chlorate reductase. This cytochrome also serves as electron donor for a terminal oxidase in the reduction of oxygen that is produced in the course of chlorate respiration. A gene encoding a soluble c cytochrome was found in close proximity to the gene cluster for chlorate reduction. This gene was cloned and expressed heterologously, and the resulting protein was investigated as a candidate electron donor for chlorate reductase. Electron transfer from this protein could not be demonstrated, suggesting that the gene product does not serve as immediate electron donor for chlorate reductase.
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c-cytokromer hos den (per)kloratreducerande bakterien GR-1 : samt en jämförande studie av c-cytokromer från GR-1, Ideonella dechloratans och Dechloromonas aromaticaPalm, Eva-Lotta January 2007 (has links)
<p>Arbetet beskriver en analys av innehållet av membranbundna och periplasmiska c-cytokromer hos perkloratodlade GR-1 och jämförelser med c-cytokrominnehållet hos Ideonella dechloratans och andra kända c-cytokromer, samt med genomet för Dechloromonas aromatica. Den jämförande studien av c-cytokromer gjordes med syftet att undersöka en hypotes om att bakterierna använder olika vägar för elektronöverföring till det periplasmiska enzymet (per)kloratreduktas. Cellmembran från GR-1 renframställdes genom ultracentrifugering och periplasma preparerades fram med hjälp av osmotisk chock. Fraktionerna analyserades sedan med SDS-PAGE och peptider med kovalent bundet hem (c-cytokromer) detekterades med hjälp av en specifik färgreaktion. Även Touchdown PCR med degenererade primrar genomfördes på isolerat DNA från GR-1 i ett försök att finna en gen kodande för ett NapC/NirT-liknande protein. Slutligen kolmonoxidbubblades reducerade membran för att undersöka förekomsten av cbb3-typ oxidas.</p><p>Separation och infärgning av periplasmiska och membranbundna proteiner från GR-1 resulterade i sju respektive åtta peptidband med molekylvikter mellan 8-60 kDa. Inget som framkommit under arbetet talar emot hypotesen om att GR-1 och D. aromatica skulle använda ett NapC/NirT-liknande protein som elektronöverförare till det periplasmiska (per)kloratreduktaset. PCR-analysen resulterade i en produkt som troligtvis är en sekvens från en gen som kodar för ett NapC/NirT-liknande protein och två, eventuellt tre, kandidater för ett NapC/NirT-liknande protein hittades i membranet hos GR-1. Dessutom framkom att GR-1 troligtvis använder cbb3-typ oxidas som terminalt oxidas vid reduktion av syrgas under mikroaerofila förhållanden.</p><p>Vad gäller I. dechloratans och hypotesen om att denna bakterie använder ett lösligt cytokrom c för elektronöverföring till sitt kloratreduktas så har inget framkommit under arbetet som talar emot detta. Tre kandidater för lösliga cytokrom c-proteiner hittades. För teorin talar även att de försök som tidigare gjorts med att påvisa genen för ett NapC/NirT-liknande protein hos denna bakterie gett negativt resultat.</p> / <p>This work describes an analysis of membrane-anchored and periplasmic c-type cytochromes of perchlorate grown GR-1, and a comparison with the c-type cytochrome content of Ideonella dechloratans, other known c-type cytochromes and the genome of Dechloromonas aromatica. The aim of the comparison was to investigate a hypothesis that the bacteria use different routes for electron transfer to the periplasmic enzyme (per)chlorate reductase. Cell membrane from GR-1 was prepared through ultracentrifugation and periplasm was prepared through osmotic chock. The fractions were separated by SDS-PAGE and peptides containing covalently bound heme (c-type cytochromes) were detected by a specific staining reaction. In an attempt to probe a gene coding for a NapC/NirT-like protein Touchdown PCR was performed on isolated DNA from GR-1, using degenerate primers. Finally, reduced membranes were treated with carbon monoxide to investigate the presence of cbb3-type oxidase.</p><p>Separation and detection resulted in seven periplasmic peptides and eight membrane anchored peptides, all with molecular weights in a range of 8-60 kDa. Nothing has been revealed during this work that opposes the hypothesis of GR-1 and D. aromatica using a NapC/NirT-like protein as an electron carrier to their periplasmic (per)chlorate reductase. The PCR resulted in a product that most likely is a sequence from a gene coding for a NapC/NirT-like protein and two, maybe three, candidates for a NapC/NirT-like protein were also found in the membrane of GR-1. Analysis also revealed that GR-1 most likely makes use of a cbb3-type oxidase for reduction of oxygen during microaerofilic conditions.</p><p>Concerning I. dechloratans, nothing has been revealed during this work that opposes the hypothesis of this bacterium using a soluble cytochrome c as an electron carrier to its chlorate reductase. Three candidates for a soluble cytochrome c protein were found. The theory is also supported by the negative result from earlier attempts to probe a gene coding for a NapC/NirT-like protein in this bacterium.</p>
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c-cytokromer hos den (per)kloratreducerande bakterien GR-1 : samt en jämförande studie av c-cytokromer från GR-1, Ideonella dechloratans och Dechloromonas aromaticaPalm, Eva-Lotta January 2007 (has links)
Arbetet beskriver en analys av innehållet av membranbundna och periplasmiska c-cytokromer hos perkloratodlade GR-1 och jämförelser med c-cytokrominnehållet hos Ideonella dechloratans och andra kända c-cytokromer, samt med genomet för Dechloromonas aromatica. Den jämförande studien av c-cytokromer gjordes med syftet att undersöka en hypotes om att bakterierna använder olika vägar för elektronöverföring till det periplasmiska enzymet (per)kloratreduktas. Cellmembran från GR-1 renframställdes genom ultracentrifugering och periplasma preparerades fram med hjälp av osmotisk chock. Fraktionerna analyserades sedan med SDS-PAGE och peptider med kovalent bundet hem (c-cytokromer) detekterades med hjälp av en specifik färgreaktion. Även Touchdown PCR med degenererade primrar genomfördes på isolerat DNA från GR-1 i ett försök att finna en gen kodande för ett NapC/NirT-liknande protein. Slutligen kolmonoxidbubblades reducerade membran för att undersöka förekomsten av cbb3-typ oxidas. Separation och infärgning av periplasmiska och membranbundna proteiner från GR-1 resulterade i sju respektive åtta peptidband med molekylvikter mellan 8-60 kDa. Inget som framkommit under arbetet talar emot hypotesen om att GR-1 och D. aromatica skulle använda ett NapC/NirT-liknande protein som elektronöverförare till det periplasmiska (per)kloratreduktaset. PCR-analysen resulterade i en produkt som troligtvis är en sekvens från en gen som kodar för ett NapC/NirT-liknande protein och två, eventuellt tre, kandidater för ett NapC/NirT-liknande protein hittades i membranet hos GR-1. Dessutom framkom att GR-1 troligtvis använder cbb3-typ oxidas som terminalt oxidas vid reduktion av syrgas under mikroaerofila förhållanden. Vad gäller I. dechloratans och hypotesen om att denna bakterie använder ett lösligt cytokrom c för elektronöverföring till sitt kloratreduktas så har inget framkommit under arbetet som talar emot detta. Tre kandidater för lösliga cytokrom c-proteiner hittades. För teorin talar även att de försök som tidigare gjorts med att påvisa genen för ett NapC/NirT-liknande protein hos denna bakterie gett negativt resultat. / This work describes an analysis of membrane-anchored and periplasmic c-type cytochromes of perchlorate grown GR-1, and a comparison with the c-type cytochrome content of Ideonella dechloratans, other known c-type cytochromes and the genome of Dechloromonas aromatica. The aim of the comparison was to investigate a hypothesis that the bacteria use different routes for electron transfer to the periplasmic enzyme (per)chlorate reductase. Cell membrane from GR-1 was prepared through ultracentrifugation and periplasm was prepared through osmotic chock. The fractions were separated by SDS-PAGE and peptides containing covalently bound heme (c-type cytochromes) were detected by a specific staining reaction. In an attempt to probe a gene coding for a NapC/NirT-like protein Touchdown PCR was performed on isolated DNA from GR-1, using degenerate primers. Finally, reduced membranes were treated with carbon monoxide to investigate the presence of cbb3-type oxidase. Separation and detection resulted in seven periplasmic peptides and eight membrane anchored peptides, all with molecular weights in a range of 8-60 kDa. Nothing has been revealed during this work that opposes the hypothesis of GR-1 and D. aromatica using a NapC/NirT-like protein as an electron carrier to their periplasmic (per)chlorate reductase. The PCR resulted in a product that most likely is a sequence from a gene coding for a NapC/NirT-like protein and two, maybe three, candidates for a NapC/NirT-like protein were also found in the membrane of GR-1. Analysis also revealed that GR-1 most likely makes use of a cbb3-type oxidase for reduction of oxygen during microaerofilic conditions. Concerning I. dechloratans, nothing has been revealed during this work that opposes the hypothesis of this bacterium using a soluble cytochrome c as an electron carrier to its chlorate reductase. Three candidates for a soluble cytochrome c protein were found. The theory is also supported by the negative result from earlier attempts to probe a gene coding for a NapC/NirT-like protein in this bacterium.
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