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Literature DB >> 11867471

Pathways for energy transfer in the core light-harvesting complexes CP43 and CP47 of photosystem II.

Frank L de Weerd¹, Ivo H M van Stokkum, Herbert van Amerongen, Jan P Dekker, Rienk van Grondelle.

Abstract

The pigment-protein complexes CP43 and CP47 transfer excitation energy from the peripheral antenna of photosystem II toward the photochemical reaction center. We measured the excitation dynamics of the chlorophylls in isolated CP43 and CP47 complexes at 77 K by time-resolved absorbance-difference and fluorescence spectroscopy. The spectral relaxation appeared to occur with rates of 0.2-0.4 ps and 2-3 ps in both complexes, whereas an additional relaxation of 17 ps was observed only in CP47. Using the 3.8-A crystal structure of the photosystem II core complex from Synechococcus elongatus (A. Zouni, H.-T. Witt, J. Kern, P. Fromme, N. Krauss, W. Saenger, and P. Orth, 2001, Nature, 409:739-743), excitation energy transfer kinetics were calculated and a Monte Carlo simulation of the absorption spectra was performed. In both complexes, the rate of 0.2-0.4 ps can be ascribed to excitation energy transfer within a layer of chlorophylls near the stromal side of the membrane, and the slower 2-3-ps process to excitation energy transfer to the calculated lowest excitonic state. We conclude that excitation energy transfer within CP43 and CP47 is fast and does not contribute significantly to the well-known slow trapping of excitation energy in photosystem II.

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Year: 2002 PMID： 11867471 PMCID： PMC1301957 DOI： 10.1016/S0006-3495(02)75510-0

Source DB: PubMed Journal: Biophys J ISSN： 0006-3495 Impact factor: 4.033

12 in total

1. Spectroscopic properties of the CP43 core antenna protein of photosystem II.

Authors: M L Groot; R N Frese; F L de Weerd; K Bromek; A Pettersson; E J Peterman; I H van Stokkum; R van Grondelle; J P Dekker
Journal: Biophys J Date: 1999-12 Impact factor: 4.033

2. Crystal structure of photosystem II from Synechococcus elongatus at 3.8 A resolution.

Authors: A Zouni; H T Witt; J Kern; P Fromme; N Krauss; W Saenger; P Orth
Journal: Nature Date: 2001-02-08 Impact factor: 49.962

3. Excited-state dynamics in photosystem II: insights from the x-ray crystal structure.

Authors: S Vasil'ev; P Orth; A Zouni; T G Owens; D Bruce
Journal: Proc Natl Acad Sci U S A Date: 2001-07-17 Impact factor: 11.205

4. Kinetic and Energetic Model for the Primary Processes in Photosystem II.

Authors: G H Schatz; H Brock; A R Holzwarth
Journal: Biophys J Date: 1988-09 Impact factor: 4.033

5. Three-dimensional structure of the plant photosystem II reaction centre at 8 A resolution.

Authors: K H Rhee; E P Morris; J Barber; W Kühlbrandt
Journal: Nature Date: 1998-11-19 Impact factor: 49.962

6. The flow of excitation energy in LHCII monomers: implications for the structural model of the major plant antenna.

Authors: C C Gradinaru; S Ozdemir; D Gülen; I H van Stokkum; R van Grondelle; H van Amerongen
Journal: Biophys J Date: 1998-12 Impact factor: 4.033

7. Supramolecular organization of photosystem II and its light-harvesting antenna in partially solubilized photosystem II membranes.

Authors: E J Boekema; H Van Roon; J F Van Breemen; J P Dekker
Journal: Eur J Biochem Date: 1999-12

8. Time-resolved fluorescence emission measurements of photosystem I particles of various cyanobacteria: a unified compartmental model.

Authors: B Gobets; I H van Stokkum; M Rögner; J Kruip; E Schlodder; N V Karapetyan; J P Dekker; R van Grondelle
Journal: Biophys J Date: 2001-07 Impact factor: 4.033

Review 9. Revealing the structure of the photosystem II chlorophyll binding proteins, CP43 and CP47.

Authors: J Barber; E Morris; C Büchel
Journal: Biochim Biophys Acta Date: 2000-08-15

10. Triplet and fluorescing states of the CP47 antenna complex of photosystem II studied as a function of temperature.

Authors: M L Groot; E J Peterman; I H van Stokkum; J P Dekker; R van Grondelle
Journal: Biophys J Date: 1995-01 Impact factor: 4.033

16 in total

1. Changes in antenna of photosystem II induced by short-term heating.

Authors: Svetlana M Kochubey
Journal: Photosynth Res Date: 2010-12-08 Impact factor: 3.573

Review 2. Structure of cyanobacterial photosystem I.

Authors: Ingo Grotjohann; Petra Fromme
Journal: Photosynth Res Date: 2005 Impact factor: 3.573

3. Assignment of the low-temperature fluorescence in oxygen-evolving photosystem II.

Authors: Elmars Krausz; Joseph L Hughes; Paul J Smith; Ron J Pace; Sindra Peterson Arsköld
Journal: Photosynth Res Date: 2005-06 Impact factor: 3.573

4. Probing the lowest energy chlorophyll a states of photosystem II via selective spectroscopy: new insights on P680.

Authors: Joseph L Hughes; Elmars Krausz; Paul J Smith; Ron J Pace; Hans Riesen
Journal: Photosynth Res Date: 2005-06 Impact factor: 3.573

5. Kinetics and mechanism of electron transfer in intact photosystem II and in the isolated reaction center: pheophytin is the primary electron acceptor.

Authors: A R Holzwarth; M G Müller; M Reus; M Nowaczyk; J Sander; M Rögner
Journal: Proc Natl Acad Sci U S A Date: 2006-04-25 Impact factor: 11.205

6. Charge separation and energy transfer in the photosystem II core complex studied by femtosecond midinfrared spectroscopy.

Authors: N P Pawlowicz; M-L Groot; I H M van Stokkum; J Breton; R van Grondelle
Journal: Biophys J Date: 2007-06-15 Impact factor: 4.033