PICOSECOND TIME-RESOLVED FLUORESCENCE EMISSION-SPECTRA INDICATE DECREASED ENERGY-TRANSFER FROM THE PHYCOBILISOME TO PHOTOSYSTEM-II IN LIGHT-STATE-2 IN THE CYANOBACTERIUM-SYNECHOCOCCUS 6301

被引：51

作者：

MULLINEAUX, CW ^{[1
]}

BITTERSMANN, E ^{[1
]}

ALLEN, JF ^{[1
]}

HOLZWARTH, AR ^{[1
]}

机构：

[1] UNIV LEEDS,DEPT PURE & APPL BIOL,LEEDS LS2 9JT,W YORKSHIRE,ENGLAND

来源：

BIOCHIMICA ET BIOPHYSICA ACTA | 1990年 / 1015卷 / 02期

关键词：

(Synechococcus sp.); Cyanobacterium; Fluorescence decay; Photosynthesis; Photosystem II; Phycobilisome; State transition;

D O I：

10.1016/0005-2728(90)90025-Y

中图分类号：

Q5 [生物化学]; Q7 [分子生物学];

学科分类号：

071010 ; 081704 ;

摘要：

Picosecond time-resolved fluorescence emission spectra were recorded for cells of the cyanobacterium Synechococcus 6301. Fluorescence decay was measured by single-photon timing and kinetic components were resolved by global data analysis. Time-resolved fluoresence decay components were assigned to PS I, PS II and the phycobilisome terminal emitter by comparing spectra for cells with open PS II centres (fluorescence at Fo) with those for cells with closed PS II centres (fluorescence at Fm) for excitation wavelengths of 620 nm and 670 nm. Time-resolved spectra were recorded under these conditions for cells adapted to state 1 or to state 2. The state 2 transition reduced the amplitude of the PS II fluorescence emission by about 60%, with a complementary increase in the apparent amplitude of the emission from the phycobilisome terminal emitter. Similar changes in amplitude were observed for cells at Fo and at Fm. State transitions had no significant effect on the lifetime of PS II fluorescence decay. These results indicate that state transitions alter the extent of energy transfer from the phycobilisome to PS II. © 1990.

引用

页码：231 / 242

页数：12

共 45 条

[1] CHLOROPLAST PROTEIN-PHOSPHORYLATION COUPLES PLASTOQUINONE REDOX STATE TO DISTRIBUTION OF EXCITATION-ENERGY BETWEEN PHOTOSYSTEMS [J].

ALLEN, JF ;

BENNETT, J ;

STEINBACK, KE ;

ARNTZEN, CJ .

NATURE, 1981, 291 (5810) :25-29

[2] CORRELATION OF MEMBRANE-PROTEIN PHOSPHORYLATION WITH EXCITATION-ENERGY DISTRIBUTION IN THE CYANOBACTERIUM SYNECHOCOCCUS-6301 [J].

ALLEN, JF ;

SANDERS, CE ;

HOLMES, NG .

FEBS LETTERS, 1985, 193 (02) :271-275

[3] THE RATE OF P-700 PHOTOOXIDATION UNDER CONTINUOUS ILLUMINATION IS INDEPENDENT OF STATE-1 STATE-2 TRANSITIONS IN THE GREEN-ALGA SCENEDESMUS-OBLIQUUS [J].

ALLEN, JF ;

MELIS, A .

BIOCHIMICA ET BIOPHYSICA ACTA, 1988, 933 (01) :95-106

[4]

BITTERSMANN E, 1989, IN PRESS 8TH P INT C

[5] FLUORESCENCE AND OXYGEN EVOLUTION FROM CHLORELLA PYRENOIDOSA [J].

BONAVENTURA, C ;

MYERS, J .

BIOCHIMICA ET BIOPHYSICA ACTA, 1969, 189 (03) :366-+

[6] MECHANISM OF THE LIGHT STATE TRANSITION IN PHOTOSYNTHESIS .4. PICOSECOND FLUORESCENCE SPECTROSCOPY OF ANACYSTIS-NIDULANS AND PORPHYRIDIUM-CRUENTUM IN STATE-1 AND STATE-2 AT 77-K [J].

BRUCE, D ;

BIGGINS, J ;

STEINER, T ;

THEWALT, M .

BIOCHIMICA ET BIOPHYSICA ACTA, 1985, 806 (02) :237-246

[7] MECHANISMS OF THE LIGHT-STATE TRANSITION IN PHOTOSYNTHESIS .5. 77-K LINEAR DICHROISM OF ANACYSTIS-NIDULANS IN STATE-1 AND STATE-2 [J].

BRUCE, D ;

BIGGINS, J .

BIOCHIMICA ET BIOPHYSICA ACTA, 1985, 810 (03) :295-301

[8] ENERGY-DISTRIBUTION IN THE PHOTOCHEMICAL APPARATUS OF PORPHYRIDIUM-CRUENTUM - PICOSECOND FLUORESCENCE SPECTROSCOPY OF CELLS IN STATE-1 AND STATE-2 AT 77-K [J].

BRUCE, D ;

HANZLIK, CA ;

HANCOCK, LE ;

BIGGINS, J ;

KNOX, RS .

PHOTOSYNTHESIS RESEARCH, 1986, 10 (03) :283-290

[9] PHOTOACOUSTIC DETECTION OF OXYGEN EVOLUTION AND STATE-1 STATE-2 TRANSITIONS IN CYANOBACTERIA [J].

CANAANI, O .

BIOCHIMICA ET BIOPHYSICA ACTA, 1986, 852 (01) :74-80

[10] THE ROLE OF RESPIRATORY ELECTRON FLOW IN THE CONTROL OF EXCITATION-ENERGY DISTRIBUTION IN BLUE-GREEN-ALGAE [J].

DOMINY, PJ ;

WILLIAMS, WP .

BIOCHIMICA ET BIOPHYSICA ACTA, 1987, 892 (03) :264-274

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