In: Grant DM, Harris RK (eds) Encyclopedia of nuclear magnetic resonance. Wiley, Chichester Roy E, Alia, Gast P et al (2007) Photochemically PU-H71 induced dynamic nuclear polarization in the reaction center of the green sulphur bacterium Chlorobium tepidum observed by C-13 MAS NMR. Biochim Biophys Acta 1767:610–615CrossRefPubMed Roy E, Rohmer T, Gast P et al (2008) Characterization of the primary radical pair in reaction centers of Heliobacillus mobilis by 13C photo-CIDNP MAS NMR. Biochemistry 47:4629–4635CrossRefPubMed Schulten EAM,
Matysik J, Alia et al (2002) C-13 MAS NMR and photo-CIDNP reveal a pronounced asymmetry in the electronic ground state of the special pair of Rhodobacter sphaeroides reaction centers. Biochemistry 41:8708–8717CrossRefPubMed Thurnauer MC, Norris JR (1980) An electron-spin echo phase-shift observed in photosynthetic algae—possible evidence for dynamic radical
pair interactions. Chem Phys Lett 76:557–561CrossRef Ward HR, Lawler RG (1967) Nuclear magnetic resonance emission and enhanced absorption in rapid organometallic reactions. J Am Chem Soc 89:5518–5519CrossRef Zysmilich MG, McDermott A (1994) Photochemically induced dynamic nuclear-polarization in the solid-state N-15 spectra of reaction centers ARN-509 molecular weight from photosynthetic bacteria Rhodobacter sphaeroides R26. J Am Chem Soc 116:8362–8363″
“Introduction Since the earliest photosynthetic organisms developed reaction centres, additional peripheral antenna systems have evolved for light harvesting. In these light-harvesting systems, dozens, hundreds or even
thousands of (bacterio)chlorophylls can funnel their excitation energy towards reaction centres for charge separation. The green photosynthetic bacteria are anoxygenic phototrophs that contain unique antenna complexes, known as chlorosomes (Blankenship and Matsuura 2003). A chlorosome Amine dehydrogenase is actually a kind of organelle. In addition to the green sulphur bacteria (phylum Chlorobi), they are also present in some filamentous anoxygenic phototrophs of the phylum Chloroflexi (formerly know as green non-sulphur bacteria), and in the newly discovered aerobic phototroph, Candidatus this website Chloracidobacterium thermophilum (Cab. thermophilum) of the phylum Acidobacteria (Bryant et al. 2007). The green sulphur bacteria form the best studied group, and especially Chlorobaculum tepidum (also known as Chlorobium) from the family of Chlorobiaceae, has emerged as a model organism for the group. Within these organisms, the flow of excitation energy goes in the following direction: $$ \rm Pigments\;\rm within\;\rm chlorosomes\; \to \;\rm CsmA\;\rm protein\;\rm in\;\rm baseplate\; \to \;\rm FMO\;\rm protein\; \to \;\rm reaction\;\rm center. $$ Before discussing the structure and function of chlorosomes, some basic facts about the reaction centre and attached proteins are provided.