The reaction center of green sulfur bacteria1Dedicated to the memory of Jan Amesz.1
Autor: | Georgios Tsiotis, Günter Hauska, Hervé W. Rémigy, T Schoedl |
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Rok vydání: | 2001 |
Předmět: |
Photosynthetic reaction centre
Scanning transmission electron microscopy particle analysis Stereochemistry Biophysics Chlorosome Photochemistry Photosystem I Biochemistry Green sulfur bacteria Cytochrome Photosynthetic electron transport Bacteriochlorophyll protein Ferredoxin chemistry.chemical_classification biology Chemistry Cell Biology Electron acceptor biology.organism_classification Chlorobium tepidum Homodimeric P840 reaction center Energy transfer Heliobacteria FeS type reaction center Menaquinone |
Zdroj: | Biochimica et Biophysica Acta (BBA) - Bioenergetics. 1507(1-3):260-277 |
ISSN: | 0005-2728 |
DOI: | 10.1016/s0005-2728(01)00200-6 |
Popis: | The composition of the P840-reaction center complex (RC), energy and electron transfer within the RC, as well as its topographical organization and interaction with other components in the membrane of green sulfur bacteria are presented, and compared to the FeS-type reaction centers of Photosystem I and of Heliobacteria. The core of the RC is homodimeric, since pscA is the only gene found in the genome of Chlorobium tepidum which resembles the genes psaA and -B for the heterodimeric core of Photosystem I. Functionally intact RC can be isolated from several species of green sulfur bacteria. It is generally composed of five subunits, PscA-D plus the BChl a-protein FMO. Functional cores, with PscA and PscB only, can be isolated from Prostecochloris aestuarii. The PscA-dimer binds P840, a special pair of BChl a-molecules, the primary electron acceptor A(0), which is a Chl a-derivative and FeS-center F(X). An equivalent to the electron acceptor A(1) in Photosystem I, which is tightly bound phylloquinone acting between A(0) and F(X), is not required for forward electron transfer in the RC of green sulfur bacteria. This difference is reflected by different rates of electron transfer between A(0) and F(X) in the two systems. The subunit PscB contains the two FeS-centers F(A) and F(B). STEM particle analysis suggests that the core of the RC with PscA and PscB resembles the PsaAB/PsaC-core of the P700-reaction center in Photosystem I. PscB may form a protrusion into the cytoplasmic space where reduction of ferredoxin occurs, with FMO trimers bound on both sides of this protrusion. Thus the subunit composition of the RC in vivo should be 2(FMO)(3)(PscA)(2)PscB(PscC)(2)PscD. Only 16 BChl a-, four Chl a-molecules and two carotenoids are bound to the RC-core, which is substantially less than its counterpart of Photosystem I, with 85 Chl a-molecules and 22 carotenoids. A total of 58 BChl a/RC are present in the membranes of green sulfur bacteria outside the chlorosomes, corresponding to two trimers of FMO (42 Bchl a) per RC (16 BChl a). The question whether the homodimeric RC is totally symmetric is still open. Furthermore, it is still unclear which cytochrome c is the physiological electron donor to P840(+). Also the way of NAD(+)-reduction is unknown, since a gene equivalent to ferredoxin-NADP(+) reductase is not present in the genome. |
Databáze: | OpenAIRE |
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