Characterization of reconstituted ATPase complex proteoliposomes prepared from the thermophilic cyanobacterium Synechococcus 6716

The preparation and some properties are described of proteoliposomes consisting of the ATPase complex and lipids from the thermophilic cyanobacterium Synechococcus 6716. In the proteoliposomes (about 200 nm in diameter) only a low amount of protein can be incorporated (protein/lipid ratio of 0.01 w/...

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Veröffentlicht in:	European journal of biochemistry 1983-01, Vol.137 (1/2), p.101-106
Hauptverfasser:	Walraven, H.S. van, Lubberding, H.J, Marvin, H.J.P, Kraayenhof, R
Format:	Artikel
Sprache:	eng
Schlagworte:	Adenosine Triphosphatases - metabolism Adenosine Triphosphate - metabolism adenosinetriphosphatase Algae Analytical, structural and metabolic biochemistry Biological and medical sciences Catalysis Cyanobacteria - enzymology Enzymes and enzyme inhibitors Freeze Fracturing Fundamental and applied biological sciences. Psychology Hydrogen-Ion Concentration Hydrolases Hydrolysis Liposomes - metabolism Membrane Potentials Microscopy, Electron Proton-Translocating ATPases Synechococcus
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container_issue	1/2
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container_title	European journal of biochemistry
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creator	Walraven, H.S. van Lubberding, H.J Marvin, H.J.P Kraayenhof, R
description	The preparation and some properties are described of proteoliposomes consisting of the ATPase complex and lipids from the thermophilic cyanobacterium Synechococcus 6716. In the proteoliposomes (about 200 nm in diameter) only a low amount of protein can be incorporated (protein/lipid ratio of 0.01 w/w) and they show very few protein particles on freeze‐fracture replicas. The octyl glucoside and cholate dialysis method of reconstitution yielded stable proteoliposomes with a relatively low proton permeability. ATP hydrolysis and 32Pi/ATP exchange activities were about 400 and 120nmol · min−1· mg protein−1, respectively; the former was strongly stimulated by an uncoupler. ATP hydrolysis induces membrane energization as monitored by membrane‐potential‐ and surface‐potential‐indicating probes and by different pH indicators trapped inside the vesicles. The probes used were a membrane‐bound fluorescent aminoacridine, which monitors surface charge‐density changes, the native carotenoids and added oxonol VI for monitoring electrical potential in the membrane and the pH indicators neutral red and cresol red. The different rise kinetics of these probes indicate that proton accumulation upon ATP hydrolysis involves at least two steps: a membrane‐localized potential charge and proton transfer followed by a much slower acidification of the bulk intravesicular space. Internal neutral red and cresol red seem to discriminate between proton translocation to the internal interface and bulk space, respectively.
doi_str_mv	10.1111/j.1432-1033.1983.tb07801.x
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In the proteoliposomes (about 200 nm in diameter) only a low amount of protein can be incorporated (protein/lipid ratio of 0.01 w/w) and they show very few protein particles on freeze‐fracture replicas. The octyl glucoside and cholate dialysis method of reconstitution yielded stable proteoliposomes with a relatively low proton permeability. ATP hydrolysis and 32Pi/ATP exchange activities were about 400 and 120nmol · min−1· mg protein−1, respectively; the former was strongly stimulated by an uncoupler. ATP hydrolysis induces membrane energization as monitored by membrane‐potential‐ and surface‐potential‐indicating probes and by different pH indicators trapped inside the vesicles. The probes used were a membrane‐bound fluorescent aminoacridine, which monitors surface charge‐density changes, the native carotenoids and added oxonol VI for monitoring electrical potential in the membrane and the pH indicators neutral red and cresol red. The different rise kinetics of these probes indicate that proton accumulation upon ATP hydrolysis involves at least two steps: a membrane‐localized potential charge and proton transfer followed by a much slower acidification of the bulk intravesicular space. 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In the proteoliposomes (about 200 nm in diameter) only a low amount of protein can be incorporated (protein/lipid ratio of 0.01 w/w) and they show very few protein particles on freeze‐fracture replicas. The octyl glucoside and cholate dialysis method of reconstitution yielded stable proteoliposomes with a relatively low proton permeability. ATP hydrolysis and 32Pi/ATP exchange activities were about 400 and 120nmol · min−1· mg protein−1, respectively; the former was strongly stimulated by an uncoupler. ATP hydrolysis induces membrane energization as monitored by membrane‐potential‐ and surface‐potential‐indicating probes and by different pH indicators trapped inside the vesicles. The probes used were a membrane‐bound fluorescent aminoacridine, which monitors surface charge‐density changes, the native carotenoids and added oxonol VI for monitoring electrical potential in the membrane and the pH indicators neutral red and cresol red. The different rise kinetics of these probes indicate that proton accumulation upon ATP hydrolysis involves at least two steps: a membrane‐localized potential charge and proton transfer followed by a much slower acidification of the bulk intravesicular space. Internal neutral red and cresol red seem to discriminate between proton translocation to the internal interface and bulk space, respectively.</description><subject>Adenosine Triphosphatases - metabolism</subject><subject>Adenosine Triphosphate - metabolism</subject><subject>adenosinetriphosphatase</subject><subject>Algae</subject><subject>Analytical, structural and metabolic biochemistry</subject><subject>Biological and medical sciences</subject><subject>Catalysis</subject><subject>Cyanobacteria - enzymology</subject><subject>Enzymes and enzyme inhibitors</subject><subject>Freeze Fracturing</subject><subject>Fundamental and applied biological sciences. Psychology</subject><subject>Hydrogen-Ion Concentration</subject><subject>Hydrolases</subject><subject>Hydrolysis</subject><subject>Liposomes - metabolism</subject><subject>Membrane Potentials</subject><subject>Microscopy, Electron</subject><subject>Proton-Translocating ATPases</subject><subject>Synechococcus</subject><issn>0014-2956</issn><issn>1432-1033</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>1983</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNqVUF2L1DAUDaKss6s_QSwi-9aaNG3S-rKsw64KCwqz-xxu01snQ9vUpMUZ3_znprbMu4EQkvNxTw4h7xhNWFgfDgnLeBozynnCyoInY0VlQVlyfEY2Z-g52VDKsjgtc_GSXHp_oJSKUsgLciFYKTlNN-TPdg8O9IjO_IbR2D6yTeRQ296PZpxGrKPbx-_gMdK2G1o8RoOzI9rWDNbbDn244wAu8Bpnu2jc47xdZ4e9aY2O9Al6Wy0Tpi7anXrUe6ut1pOPhGTiFXnRQOvx9Xpekaf7u8ftl_jh2-ev29uHWGcyZ3EmGg6ayzLXmNUgaplxWudV3eisBCloJtPwgpSXBUjNAHkmKdN5UfMKoeBX5HrxDR_4OaEfVWe8xraFHu3kFeOySEOgQPy4ELWz3jts1OBMB-6kGFVz_-qg5pLVXLKa-1dr_-oYxG_WKVPVYX2WroUH_P2Kg9fQNg56bfyZVoqCy38ZbhbaL9Pi6T8CqPu7TztGZ4e3i0MDVsEPF4Y87dIA0DRPZRlEfwGQWq5j</recordid><startdate>19830101</startdate><enddate>19830101</enddate><creator>Walraven, H.S. van</creator><creator>Lubberding, H.J</creator><creator>Marvin, H.J.P</creator><creator>Kraayenhof, R</creator><general>Blackwell Publishing Ltd</general><general>Blackwell</general><scope>FBQ</scope><scope>IQODW</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>8FD</scope><scope>FR3</scope><scope>M7N</scope><scope>M7Z</scope><scope>P64</scope></search><sort><creationdate>19830101</creationdate><title>Characterization of reconstituted ATPase complex proteoliposomes prepared from the thermophilic cyanobacterium Synechococcus 6716</title><author>Walraven, H.S. van ; Lubberding, H.J ; Marvin, H.J.P ; Kraayenhof, R</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c4751-46f3ac3795ce4da6d7430d5bdfc49a760472430e0398a7c1ae34701c58d3bea83</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>1983</creationdate><topic>Adenosine Triphosphatases - metabolism</topic><topic>Adenosine Triphosphate - metabolism</topic><topic>adenosinetriphosphatase</topic><topic>Algae</topic><topic>Analytical, structural and metabolic biochemistry</topic><topic>Biological and medical sciences</topic><topic>Catalysis</topic><topic>Cyanobacteria - enzymology</topic><topic>Enzymes and enzyme inhibitors</topic><topic>Freeze Fracturing</topic><topic>Fundamental and applied biological sciences. Psychology</topic><topic>Hydrogen-Ion Concentration</topic><topic>Hydrolases</topic><topic>Hydrolysis</topic><topic>Liposomes - metabolism</topic><topic>Membrane Potentials</topic><topic>Microscopy, Electron</topic><topic>Proton-Translocating ATPases</topic><topic>Synechococcus</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Walraven, H.S. van</creatorcontrib><creatorcontrib>Lubberding, H.J</creatorcontrib><creatorcontrib>Marvin, H.J.P</creatorcontrib><creatorcontrib>Kraayenhof, R</creatorcontrib><collection>AGRIS</collection><collection>Pascal-Francis</collection><collection>Medline</collection><collection>MEDLINE</collection><collection>MEDLINE (Ovid)</collection><collection>MEDLINE</collection><collection>MEDLINE</collection><collection>PubMed</collection><collection>CrossRef</collection><collection>Technology Research Database</collection><collection>Engineering Research Database</collection><collection>Algology Mycology and Protozoology Abstracts (Microbiology C)</collection><collection>Biochemistry Abstracts 1</collection><collection>Biotechnology and BioEngineering Abstracts</collection><jtitle>European journal of biochemistry</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Walraven, H.S. van</au><au>Lubberding, H.J</au><au>Marvin, H.J.P</au><au>Kraayenhof, R</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Characterization of reconstituted ATPase complex proteoliposomes prepared from the thermophilic cyanobacterium Synechococcus 6716</atitle><jtitle>European journal of biochemistry</jtitle><addtitle>Eur J Biochem</addtitle><date>1983-01-01</date><risdate>1983</risdate><volume>137</volume><issue>1/2</issue><spage>101</spage><epage>106</epage><pages>101-106</pages><issn>0014-2956</issn><eissn>1432-1033</eissn><coden>EJBCAI</coden><abstract>The preparation and some properties are described of proteoliposomes consisting of the ATPase complex and lipids from the thermophilic cyanobacterium Synechococcus 6716. In the proteoliposomes (about 200 nm in diameter) only a low amount of protein can be incorporated (protein/lipid ratio of 0.01 w/w) and they show very few protein particles on freeze‐fracture replicas. The octyl glucoside and cholate dialysis method of reconstitution yielded stable proteoliposomes with a relatively low proton permeability. ATP hydrolysis and 32Pi/ATP exchange activities were about 400 and 120nmol · min−1· mg protein−1, respectively; the former was strongly stimulated by an uncoupler. ATP hydrolysis induces membrane energization as monitored by membrane‐potential‐ and surface‐potential‐indicating probes and by different pH indicators trapped inside the vesicles. The probes used were a membrane‐bound fluorescent aminoacridine, which monitors surface charge‐density changes, the native carotenoids and added oxonol VI for monitoring electrical potential in the membrane and the pH indicators neutral red and cresol red. The different rise kinetics of these probes indicate that proton accumulation upon ATP hydrolysis involves at least two steps: a membrane‐localized potential charge and proton transfer followed by a much slower acidification of the bulk intravesicular space. Internal neutral red and cresol red seem to discriminate between proton translocation to the internal interface and bulk space, respectively.</abstract><cop>Oxford, UK</cop><pub>Blackwell Publishing Ltd</pub><pmid>6197302</pmid><doi>10.1111/j.1432-1033.1983.tb07801.x</doi><tpages>6</tpages><oa>free_for_read</oa></addata></record>
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subjects	Adenosine Triphosphatases - metabolism Adenosine Triphosphate - metabolism adenosinetriphosphatase Algae Analytical, structural and metabolic biochemistry Biological and medical sciences Catalysis Cyanobacteria - enzymology Enzymes and enzyme inhibitors Freeze Fracturing Fundamental and applied biological sciences. Psychology Hydrogen-Ion Concentration Hydrolases Hydrolysis Liposomes - metabolism Membrane Potentials Microscopy, Electron Proton-Translocating ATPases Synechococcus
title	Characterization of reconstituted ATPase complex proteoliposomes prepared from the thermophilic cyanobacterium Synechococcus 6716
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