Charge Separation in a Reaction Center Incorporating Bacteriochlorophyll for Photoactive Bacteriopheophytin

Site-directed mutagenic replacement of M subunit Leu$^{214}$ by His in the photosynthetic reaction center (RC) from Rhodobacter sphaeroides results in incorporation of a bacteriochlorophyll molecule (BChl) in place of the native bacteriopheophytin (BPh) electron acceptor. Evidence supporting this co...

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Veröffentlicht in:	Science (American Association for the Advancement of Science) 1991-02, Vol.251 (4996), p.922-927
Hauptverfasser:	Kirmaier, Christine, Gaul, Dale, DeBey, Randy, Holten, Dewey, Schenck, Craig C.
Format:	Artikel
Sprache:	eng
Schlagworte:	140505 - Solar Energy Conversion- Photochemical, Photobiological, & Thermochemical Conversion- (1980-) Absorption spectra Anions AROMATICS Bacteria Bacteria, Photosynthetic bacteriochlorophyll Bacteriochlorophylls - metabolism BINDING ENERGY biochemical phenomena Bioelectrochemistry Biological and medical sciences Bleaching Cell structures and functions Charge separation CHEMICAL REACTIONS Chemistry chlorophylls Chloroplast, photosynthetic membrane and photosynthesis DATA Electron transfer Electron Transport ELECTRONS ELEMENTARY PARTICLES ENERGY EXPERIMENTAL DATA FERMIONS Fundamental and applied biological sciences. Psychology Ground state Histidine INFORMATION Kinetics LEPTONS Leucine Light-Harvesting Protein Complexes Marine Molecular and cellular biology Mutagenesis, Site-Directed NUMERICAL DATA ORGANIC COMPOUNDS ORGANIC OXYGEN COMPOUNDS Pheophytins - metabolism PHOTOCHEMICAL REACTIONS PHOTOSYNTHESIS photosynthetic apparatus PHOTOSYNTHETIC BACTERIA Photosynthetic Reaction Center Complex Proteins - genetics Photosynthetic Reaction Center Complex Proteins - metabolism PHOTOSYNTHETIC REACTION CENTERS Pigments QUINONES Rhodobacter sphaeroides Rhodobacter sphaeroides - metabolism SOLAR ENERGY Spectral bands Spectrophotometry SYNTHESIS Time constants VALENCE Wavelengths
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Zusammenfassung:	Site-directed mutagenic replacement of M subunit Leu$^{214}$ by His in the photosynthetic reaction center (RC) from Rhodobacter sphaeroides results in incorporation of a bacteriochlorophyll molecule (BChl) in place of the native bacteriopheophytin (BPh) electron acceptor. Evidence supporting this conclusion includes the ground-state absorption spectrum of the (M)L214H mutant, pigment and metal analyses, and time-resolved optical experiments. The genetically modified RC supports transmembrane charge separation from the photoexcited BChl dimer to the primary quinone through the new BChl molecule, but with a reduced quantum yield of 60 percent (compared to 100 percent in wild-type RCs). These results have important implications for the mechanism of charge separation in the RC, and rationalize the choice of (bacterio)pheophytins as electron acceptors in a variety of photosynthetic systems.
ISSN:	0036-8075 1095-9203
DOI:	10.1126/science.2000491