The initial fusion pore induced by baculovirus GP64 is large and forms quickly

The formation of the fusion pore is the first detectable event in membrane fusion (Zimmerberg, J., R. Blumenthal, D.P. Sarkar, M. Curran, and S.J. Morris. 1994. J. Cell Biol. 127:1885-1894). To date, fusion pores measured in exocytosis and viral fusion have shared features that include reversible cl...

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Veröffentlicht in:	The Journal of cell biology 1996-12, Vol.135 (6), p.1831-1839
Hauptverfasser:	Plonsky, I. (National Institutes of Health, Bethesda, MD.), Zimmerberg, J
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Baculoviridae baculovirus Biochemistry Capacitance Cell fusion Cell Fusion - physiology Cell Line - chemistry Cell Line - metabolism Cell membranes Cellular biology CONDUCTIVIDAD ELECTRICA CONDUCTIVITE ELECTRIQUE CULTIVO DE CELULAS CULTURE DE CELLULE Electric Conductivity Electric current Electrical impedance Electrophysiology Gap Junctions - chemistry Gap Junctions - physiology GLICOPROTEINAS GLYCOPROTEINE INFECCION INFECTION Kinetics Mast cells Monomers Porins - metabolism PROTEINAS PROTEINE Spodoptera SPODOPTERA FRUGIPERDA Time Factors Trimers Viral Fusion Proteins - pharmacology VIRUS VIRUS POLIEDROSIS NUCLEAR VIRUS POLYEDROSE NUCLEAIRE
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container_title	The Journal of cell biology
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creator	Plonsky, I. (National Institutes of Health, Bethesda, MD.) Zimmerberg, J
description	The formation of the fusion pore is the first detectable event in membrane fusion (Zimmerberg, J., R. Blumenthal, D.P. Sarkar, M. Curran, and S.J. Morris. 1994. J. Cell Biol. 127:1885-1894). To date, fusion pores measured in exocytosis and viral fusion have shared features that include reversible closure (flickering), highly fluctuating semistable stages, and a lag time of at least several seconds between the triggering and the pore opening. We investigated baculovirus GP64- induced Sf9 cell-cell fusion, triggered by external acid solution, using two different electrophysiological techniques: double whole-cell recording (for high time resolution, model-independent measurements), and the more conventional time-resolved admittance recordings. Both methods gave essentially the same results, thus validating the use of the admittance measurements for fusion pore conductance calculations. Fusion was first detected by abrupt pore formation with a wide distribution of initial conductance, centered around 1 nS. Often the initial fusion pore conductance was stable for many seconds. Fluctuations in semistable conductances were much less than those of other fusion pores. The waiting time distribution, measured between pH onset and initial pore appearance, fits best to a model with many (approximately 19) independent elements. Thus, unlike previously measured fusion pores, GP64-mediated pores do not flicker, can have large, stable initial pore conductances lasting up to a minute, and have typical lag times of 1 s. These findings are consistent with a barrel-shaped model of an initial fusion pore consisting of five to eight GP64 trimers that is lined with lipid
doi_str_mv	10.1083/jcb.135.6.1831
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(National Institutes of Health, Bethesda, MD.) ; Zimmerberg, J</creator><creatorcontrib>Plonsky, I. (National Institutes of Health, Bethesda, MD.) ; Zimmerberg, J</creatorcontrib><description>The formation of the fusion pore is the first detectable event in membrane fusion (Zimmerberg, J., R. Blumenthal, D.P. Sarkar, M. Curran, and S.J. Morris. 1994. J. Cell Biol. 127:1885-1894). To date, fusion pores measured in exocytosis and viral fusion have shared features that include reversible closure (flickering), highly fluctuating semistable stages, and a lag time of at least several seconds between the triggering and the pore opening. We investigated baculovirus GP64- induced Sf9 cell-cell fusion, triggered by external acid solution, using two different electrophysiological techniques: double whole-cell recording (for high time resolution, model-independent measurements), and the more conventional time-resolved admittance recordings. Both methods gave essentially the same results, thus validating the use of the admittance measurements for fusion pore conductance calculations. Fusion was first detected by abrupt pore formation with a wide distribution of initial conductance, centered around 1 nS. Often the initial fusion pore conductance was stable for many seconds. Fluctuations in semistable conductances were much less than those of other fusion pores. The waiting time distribution, measured between pH onset and initial pore appearance, fits best to a model with many (approximately 19) independent elements. Thus, unlike previously measured fusion pores, GP64-mediated pores do not flicker, can have large, stable initial pore conductances lasting up to a minute, and have typical lag times of 1 s. These findings are consistent with a barrel-shaped model of an initial fusion pore consisting of five to eight GP64 trimers that is lined with lipid</description><identifier>ISSN: 0021-9525</identifier><identifier>EISSN: 1540-8140</identifier><identifier>DOI: 10.1083/jcb.135.6.1831</identifier><identifier>PMID: 8991094</identifier><identifier>CODEN: JCLBA3</identifier><language>eng</language><publisher>United States: Rockefeller University Press</publisher><subject>Animals ; Baculoviridae ; baculovirus ; Biochemistry ; Capacitance ; Cell fusion ; Cell Fusion - physiology ; Cell Line - chemistry ; Cell Line - metabolism ; Cell membranes ; Cellular biology ; CONDUCTIVIDAD ELECTRICA ; CONDUCTIVITE ELECTRIQUE ; CULTIVO DE CELULAS ; CULTURE DE CELLULE ; Electric Conductivity ; Electric current ; Electrical impedance ; Electrophysiology ; Gap Junctions - chemistry ; Gap Junctions - physiology ; GLICOPROTEINAS ; GLYCOPROTEINE ; INFECCION ; INFECTION ; Kinetics ; Mast cells ; Monomers ; Porins - metabolism ; PROTEINAS ; PROTEINE ; Spodoptera ; SPODOPTERA FRUGIPERDA ; Time Factors ; Trimers ; Viral Fusion Proteins - pharmacology ; VIRUS ; VIRUS POLIEDROSIS NUCLEAR ; VIRUS POLYEDROSE NUCLEAIRE</subject><ispartof>The Journal of cell biology, 1996-12, Vol.135 (6), p.1831-1839</ispartof><rights>Copyright 1996 The Rockefeller University Press</rights><rights>Copyright Rockefeller University Press Dec 1996</rights><lds50>peer_reviewed</lds50><oa>free_for_read</oa><woscitedreferencessubscribed>false</woscitedreferencessubscribed><citedby>FETCH-LOGICAL-c483t-30e6ef6de02bfe10dceb5a8d05b0e930c315d9a57ccf5670f3675b893b3125953</citedby></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>230,314,777,781,882,27905,27906</link.rule.ids><backlink>$$Uhttps://www.ncbi.nlm.nih.gov/pubmed/8991094$$D View this record in MEDLINE/PubMed$$Hfree_for_read</backlink></links><search><creatorcontrib>Plonsky, I. (National Institutes of Health, Bethesda, MD.)</creatorcontrib><creatorcontrib>Zimmerberg, J</creatorcontrib><title>The initial fusion pore induced by baculovirus GP64 is large and forms quickly</title><title>The Journal of cell biology</title><addtitle>J Cell Biol</addtitle><description>The formation of the fusion pore is the first detectable event in membrane fusion (Zimmerberg, J., R. Blumenthal, D.P. Sarkar, M. Curran, and S.J. Morris. 1994. J. Cell Biol. 127:1885-1894). To date, fusion pores measured in exocytosis and viral fusion have shared features that include reversible closure (flickering), highly fluctuating semistable stages, and a lag time of at least several seconds between the triggering and the pore opening. We investigated baculovirus GP64- induced Sf9 cell-cell fusion, triggered by external acid solution, using two different electrophysiological techniques: double whole-cell recording (for high time resolution, model-independent measurements), and the more conventional time-resolved admittance recordings. Both methods gave essentially the same results, thus validating the use of the admittance measurements for fusion pore conductance calculations. Fusion was first detected by abrupt pore formation with a wide distribution of initial conductance, centered around 1 nS. Often the initial fusion pore conductance was stable for many seconds. Fluctuations in semistable conductances were much less than those of other fusion pores. The waiting time distribution, measured between pH onset and initial pore appearance, fits best to a model with many (approximately 19) independent elements. Thus, unlike previously measured fusion pores, GP64-mediated pores do not flicker, can have large, stable initial pore conductances lasting up to a minute, and have typical lag times of 1 s. These findings are consistent with a barrel-shaped model of an initial fusion pore consisting of five to eight GP64 trimers that is lined with lipid</description><subject>Animals</subject><subject>Baculoviridae</subject><subject>baculovirus</subject><subject>Biochemistry</subject><subject>Capacitance</subject><subject>Cell fusion</subject><subject>Cell Fusion - physiology</subject><subject>Cell Line - chemistry</subject><subject>Cell Line - metabolism</subject><subject>Cell membranes</subject><subject>Cellular biology</subject><subject>CONDUCTIVIDAD ELECTRICA</subject><subject>CONDUCTIVITE ELECTRIQUE</subject><subject>CULTIVO DE CELULAS</subject><subject>CULTURE DE CELLULE</subject><subject>Electric Conductivity</subject><subject>Electric current</subject><subject>Electrical impedance</subject><subject>Electrophysiology</subject><subject>Gap Junctions - chemistry</subject><subject>Gap Junctions - physiology</subject><subject>GLICOPROTEINAS</subject><subject>GLYCOPROTEINE</subject><subject>INFECCION</subject><subject>INFECTION</subject><subject>Kinetics</subject><subject>Mast cells</subject><subject>Monomers</subject><subject>Porins - metabolism</subject><subject>PROTEINAS</subject><subject>PROTEINE</subject><subject>Spodoptera</subject><subject>SPODOPTERA FRUGIPERDA</subject><subject>Time Factors</subject><subject>Trimers</subject><subject>Viral Fusion Proteins - pharmacology</subject><subject>VIRUS</subject><subject>VIRUS POLIEDROSIS NUCLEAR</subject><subject>VIRUS POLYEDROSE NUCLEAIRE</subject><issn>0021-9525</issn><issn>1540-8140</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>1996</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNqFkc1v1DAQxS0EKtvClQMCyeLALWEcf1-QUEVbpAqQaM-W4zhbL9l4ayeV9r-vl10V6KWnkfx-82bGD6E3BGoCin5aubYmlNeiJoqSZ2hBOINKEQbP0QKgIZXmDX-JjnNeAQCTjB6hI6U1Ac0W6PvVjcdhDFOwA-7nHOKINzHt3rrZ-Q63W9xaNw_xLqQ54_OfguGQ8WDT0mM7driPaZ3x7Rzc72H7Cr3o7ZD960M9QddnX69OL6rLH-ffTr9cVo4pOlUUvPC96Dw0be8JdM633KoOeAteU3CU8E5bLp3ruZDQUyF5qzRtKWm45vQEfd77buZ27Uv7OCU7mE0Ka5u2Jtpg_lfGcGOW8c40hFLNWTH4eDBI8Xb2eTLrkJ0fBjv6OGcjleCMc_0kSLjilFFSwA-PwFWc01h-oQyVILT4s3e9h1yKOSffP6xMwOzyNCVPU_I0wuzyLA3v_z30AT8EWPR3e32Vp5j-ugkiFcgiv93LvY3GLlPI5vqXliCFIPQeAROtIw</recordid><startdate>19961201</startdate><enddate>19961201</enddate><creator>Plonsky, I. 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(National Institutes of Health, Bethesda, MD.) ; Zimmerberg, J</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c483t-30e6ef6de02bfe10dceb5a8d05b0e930c315d9a57ccf5670f3675b893b3125953</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>1996</creationdate><topic>Animals</topic><topic>Baculoviridae</topic><topic>baculovirus</topic><topic>Biochemistry</topic><topic>Capacitance</topic><topic>Cell fusion</topic><topic>Cell Fusion - physiology</topic><topic>Cell Line - chemistry</topic><topic>Cell Line - metabolism</topic><topic>Cell membranes</topic><topic>Cellular biology</topic><topic>CONDUCTIVIDAD ELECTRICA</topic><topic>CONDUCTIVITE ELECTRIQUE</topic><topic>CULTIVO DE CELULAS</topic><topic>CULTURE DE CELLULE</topic><topic>Electric Conductivity</topic><topic>Electric current</topic><topic>Electrical impedance</topic><topic>Electrophysiology</topic><topic>Gap Junctions - chemistry</topic><topic>Gap Junctions - physiology</topic><topic>GLICOPROTEINAS</topic><topic>GLYCOPROTEINE</topic><topic>INFECCION</topic><topic>INFECTION</topic><topic>Kinetics</topic><topic>Mast cells</topic><topic>Monomers</topic><topic>Porins - metabolism</topic><topic>PROTEINAS</topic><topic>PROTEINE</topic><topic>Spodoptera</topic><topic>SPODOPTERA FRUGIPERDA</topic><topic>Time Factors</topic><topic>Trimers</topic><topic>Viral Fusion Proteins - pharmacology</topic><topic>VIRUS</topic><topic>VIRUS POLIEDROSIS NUCLEAR</topic><topic>VIRUS POLYEDROSE NUCLEAIRE</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Plonsky, I. 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(National Institutes of Health, Bethesda, MD.)</au><au>Zimmerberg, J</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>The initial fusion pore induced by baculovirus GP64 is large and forms quickly</atitle><jtitle>The Journal of cell biology</jtitle><addtitle>J Cell Biol</addtitle><date>1996-12-01</date><risdate>1996</risdate><volume>135</volume><issue>6</issue><spage>1831</spage><epage>1839</epage><pages>1831-1839</pages><issn>0021-9525</issn><eissn>1540-8140</eissn><coden>JCLBA3</coden><abstract>The formation of the fusion pore is the first detectable event in membrane fusion (Zimmerberg, J., R. Blumenthal, D.P. Sarkar, M. Curran, and S.J. Morris. 1994. J. Cell Biol. 127:1885-1894). To date, fusion pores measured in exocytosis and viral fusion have shared features that include reversible closure (flickering), highly fluctuating semistable stages, and a lag time of at least several seconds between the triggering and the pore opening. We investigated baculovirus GP64- induced Sf9 cell-cell fusion, triggered by external acid solution, using two different electrophysiological techniques: double whole-cell recording (for high time resolution, model-independent measurements), and the more conventional time-resolved admittance recordings. Both methods gave essentially the same results, thus validating the use of the admittance measurements for fusion pore conductance calculations. Fusion was first detected by abrupt pore formation with a wide distribution of initial conductance, centered around 1 nS. Often the initial fusion pore conductance was stable for many seconds. Fluctuations in semistable conductances were much less than those of other fusion pores. The waiting time distribution, measured between pH onset and initial pore appearance, fits best to a model with many (approximately 19) independent elements. Thus, unlike previously measured fusion pores, GP64-mediated pores do not flicker, can have large, stable initial pore conductances lasting up to a minute, and have typical lag times of 1 s. These findings are consistent with a barrel-shaped model of an initial fusion pore consisting of five to eight GP64 trimers that is lined with lipid</abstract><cop>United States</cop><pub>Rockefeller University Press</pub><pmid>8991094</pmid><doi>10.1083/jcb.135.6.1831</doi><tpages>9</tpages><oa>free_for_read</oa></addata></record>
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subjects	Animals Baculoviridae baculovirus Biochemistry Capacitance Cell fusion Cell Fusion - physiology Cell Line - chemistry Cell Line - metabolism Cell membranes Cellular biology CONDUCTIVIDAD ELECTRICA CONDUCTIVITE ELECTRIQUE CULTIVO DE CELULAS CULTURE DE CELLULE Electric Conductivity Electric current Electrical impedance Electrophysiology Gap Junctions - chemistry Gap Junctions - physiology GLICOPROTEINAS GLYCOPROTEINE INFECCION INFECTION Kinetics Mast cells Monomers Porins - metabolism PROTEINAS PROTEINE Spodoptera SPODOPTERA FRUGIPERDA Time Factors Trimers Viral Fusion Proteins - pharmacology VIRUS VIRUS POLIEDROSIS NUCLEAR VIRUS POLYEDROSE NUCLEAIRE
title	The initial fusion pore induced by baculovirus GP64 is large and forms quickly
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