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Modulation excitation spectrophotometry of purple membrane of Halobacterium halobium
WHEN Halobacterium halobium is grown at low oxygen concentrations in the light, it synthesises patches of membrane containing a purple pigment. If exposed to low salt concentrations, the cell membrane dissociates into fragments which differ in their protein and pigment composition and can be separat...
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| Published in: | Nature (London) 1975-01, Vol.253 (5486), p.56-58 |
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| Main Authors: | , |
| Format: | Article |
| Language: | English |
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| cites | cdi_FETCH-LOGICAL-c259t-732ef635beb48d96f3c66cf954a5d83c305d807536874f0687dfa3a517270b5c3 |
| container_end_page | 58 |
| container_issue | 5486 |
| container_start_page | 56 |
| container_title | Nature (London) |
| container_volume | 253 |
| creator | SLIFKIN, MICHAEL A. CAPLAN, S. ROY |
| description | WHEN
Halobacterium halobium
is grown at low oxygen concentrations in the light, it synthesises patches of membrane containing a purple pigment. If exposed to low salt concentrations, the cell membrane dissociates into fragments which differ in their protein and pigment composition and can be separated
1
. The most conspicuous of these fragments is the so-called ‘purple membrane’
2
. The isolated purple membrane contains 25% lipid and 75% protein
2
; only a single species of protein has been found. This protein, bacteriorhodopsin, is apparently similar to the animal visual pigment; it contains 1 mol of retinal per mol protein bound as a Schiff base to a lysine residue
3
. The protein forms a planar lattice in the membrane
4
and shows a broad absorption maximum at 570 nm
3,4
. Absorption of light converts the 570 nm species to a second species which absorbs maximally at 412 nm, and in the dark reconverts to the 570 nm complex within a few milliseconds. This is apparently accompanied by a conformational change in the protein, which cycles rapidly between the two conformations, releasing protons on one side of the membrane in the first transition and taking them up on the other in the second
5
. Thus, in the intact cells the bacteriorhodopsin seems to act as a light-driven proton pump
6,7
. |
| doi_str_mv | 10.1038/253056a0 |
| format | article |
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Halobacterium halobium
is grown at low oxygen concentrations in the light, it synthesises patches of membrane containing a purple pigment. If exposed to low salt concentrations, the cell membrane dissociates into fragments which differ in their protein and pigment composition and can be separated
1
. The most conspicuous of these fragments is the so-called ‘purple membrane’
2
. The isolated purple membrane contains 25% lipid and 75% protein
2
; only a single species of protein has been found. This protein, bacteriorhodopsin, is apparently similar to the animal visual pigment; it contains 1 mol of retinal per mol protein bound as a Schiff base to a lysine residue
3
. The protein forms a planar lattice in the membrane
4
and shows a broad absorption maximum at 570 nm
3,4
. Absorption of light converts the 570 nm species to a second species which absorbs maximally at 412 nm, and in the dark reconverts to the 570 nm complex within a few milliseconds. This is apparently accompanied by a conformational change in the protein, which cycles rapidly between the two conformations, releasing protons on one side of the membrane in the first transition and taking them up on the other in the second
5
. Thus, in the intact cells the bacteriorhodopsin seems to act as a light-driven proton pump
6,7
.</description><identifier>ISSN: 0028-0836</identifier><identifier>EISSN: 1476-4687</identifier><identifier>DOI: 10.1038/253056a0</identifier><language>eng</language><publisher>London: Nature Publishing Group UK</publisher><subject>Humanities and Social Sciences ; letter ; multidisciplinary ; Science ; Science (multidisciplinary)</subject><ispartof>Nature (London), 1975-01, Vol.253 (5486), p.56-58</ispartof><rights>Springer Nature Limited 1975</rights><lds50>peer_reviewed</lds50><woscitedreferencessubscribed>false</woscitedreferencessubscribed><citedby>FETCH-LOGICAL-c259t-732ef635beb48d96f3c66cf954a5d83c305d807536874f0687dfa3a517270b5c3</citedby><cites>FETCH-LOGICAL-c259t-732ef635beb48d96f3c66cf954a5d83c305d807536874f0687dfa3a517270b5c3</cites></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>314,776,780,27903,27904</link.rule.ids></links><search><creatorcontrib>SLIFKIN, MICHAEL A.</creatorcontrib><creatorcontrib>CAPLAN, S. ROY</creatorcontrib><title>Modulation excitation spectrophotometry of purple membrane of Halobacterium halobium</title><title>Nature (London)</title><addtitle>Nature</addtitle><description>WHEN
Halobacterium halobium
is grown at low oxygen concentrations in the light, it synthesises patches of membrane containing a purple pigment. If exposed to low salt concentrations, the cell membrane dissociates into fragments which differ in their protein and pigment composition and can be separated
1
. The most conspicuous of these fragments is the so-called ‘purple membrane’
2
. The isolated purple membrane contains 25% lipid and 75% protein
2
; only a single species of protein has been found. This protein, bacteriorhodopsin, is apparently similar to the animal visual pigment; it contains 1 mol of retinal per mol protein bound as a Schiff base to a lysine residue
3
. The protein forms a planar lattice in the membrane
4
and shows a broad absorption maximum at 570 nm
3,4
. Absorption of light converts the 570 nm species to a second species which absorbs maximally at 412 nm, and in the dark reconverts to the 570 nm complex within a few milliseconds. This is apparently accompanied by a conformational change in the protein, which cycles rapidly between the two conformations, releasing protons on one side of the membrane in the first transition and taking them up on the other in the second
5
. Thus, in the intact cells the bacteriorhodopsin seems to act as a light-driven proton pump
6,7
.</description><subject>Humanities and Social Sciences</subject><subject>letter</subject><subject>multidisciplinary</subject><subject>Science</subject><subject>Science (multidisciplinary)</subject><issn>0028-0836</issn><issn>1476-4687</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>1975</creationdate><recordtype>article</recordtype><recordid>eNplkE9LxDAQxYMouK6CH6FHPVSnzZ-mR1nUFVa8rOeSphO3S9uUJAX325tSPXmZeTP8GN4bQm4zeMiAysecU-BCwRlZZawQKROyOCcrgFymIKm4JFfeHwGAZwVbkf27baZOhdYOCX7rNizSj6iDs-PBBttjcKfEmmSc3Nhh0mNfOzXgvNqqztZKB3Tt1CeHeYrimlwY1Xm8-e1r8vnyvN9s093H69vmaZfqnJchLWiORlBeY81kUwpDtRDalJwp3kiqY5BGQsFpjMAMxNoYRVU0nhdQc03X5G65q5313qGpRtf2yp2qDKr5G9XfNyJ6v6A-IsMXuupoJzdEd__ZH225YFs</recordid><startdate>19750101</startdate><enddate>19750101</enddate><creator>SLIFKIN, MICHAEL A.</creator><creator>CAPLAN, S. ROY</creator><general>Nature Publishing Group UK</general><scope>AAYXX</scope><scope>CITATION</scope></search><sort><creationdate>19750101</creationdate><title>Modulation excitation spectrophotometry of purple membrane of Halobacterium halobium</title><author>SLIFKIN, MICHAEL A. ; CAPLAN, S. ROY</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c259t-732ef635beb48d96f3c66cf954a5d83c305d807536874f0687dfa3a517270b5c3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>1975</creationdate><topic>Humanities and Social Sciences</topic><topic>letter</topic><topic>multidisciplinary</topic><topic>Science</topic><topic>Science (multidisciplinary)</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>SLIFKIN, MICHAEL A.</creatorcontrib><creatorcontrib>CAPLAN, S. ROY</creatorcontrib><collection>CrossRef</collection><jtitle>Nature (London)</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>SLIFKIN, MICHAEL A.</au><au>CAPLAN, S. ROY</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Modulation excitation spectrophotometry of purple membrane of Halobacterium halobium</atitle><jtitle>Nature (London)</jtitle><stitle>Nature</stitle><date>1975-01-01</date><risdate>1975</risdate><volume>253</volume><issue>5486</issue><spage>56</spage><epage>58</epage><pages>56-58</pages><issn>0028-0836</issn><eissn>1476-4687</eissn><abstract>WHEN
Halobacterium halobium
is grown at low oxygen concentrations in the light, it synthesises patches of membrane containing a purple pigment. If exposed to low salt concentrations, the cell membrane dissociates into fragments which differ in their protein and pigment composition and can be separated
1
. The most conspicuous of these fragments is the so-called ‘purple membrane’
2
. The isolated purple membrane contains 25% lipid and 75% protein
2
; only a single species of protein has been found. This protein, bacteriorhodopsin, is apparently similar to the animal visual pigment; it contains 1 mol of retinal per mol protein bound as a Schiff base to a lysine residue
3
. The protein forms a planar lattice in the membrane
4
and shows a broad absorption maximum at 570 nm
3,4
. Absorption of light converts the 570 nm species to a second species which absorbs maximally at 412 nm, and in the dark reconverts to the 570 nm complex within a few milliseconds. This is apparently accompanied by a conformational change in the protein, which cycles rapidly between the two conformations, releasing protons on one side of the membrane in the first transition and taking them up on the other in the second
5
. Thus, in the intact cells the bacteriorhodopsin seems to act as a light-driven proton pump
6,7
.</abstract><cop>London</cop><pub>Nature Publishing Group UK</pub><doi>10.1038/253056a0</doi><tpages>3</tpages></addata></record> |
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| ispartof | Nature (London), 1975-01, Vol.253 (5486), p.56-58 |
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| language | eng |
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| source | Springer Nature - Connect here FIRST to enable access |
| subjects | Humanities and Social Sciences letter multidisciplinary Science Science (multidisciplinary) |
| title | Modulation excitation spectrophotometry of purple membrane of Halobacterium halobium |
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