Database of articles cited by EMDB/PDB/SASBDB data

Keywords
Structure methods	All X-ray diffraction NMR electron microscopy small angle scattering neutron diffraction fiber diffraction powder diffraction infrared spectroscopy EPR fluorescence transfer theoretical model Hybrid
Author
Journal
IF	>30 >20 >10 >5 all

Title	Insights into the divergence of the photosynthetic LH1 complex obtained from structural analysis of the unusual photocomplexes of Roseospirillum parvum.
Journal, issue, pages	Commun Biol, Vol. 7, Issue 1, Page 1658, Year 2024
Publish date	Dec 19, 2024
Authors	Xiang-Ping Wang / Guang-Lei Wang / Yuan Fu / Akane Minamino / Mei-Juan Zou / Fei Ma / Bo Xu / Zheng-Yu Wang-Otomo / Yukihiro Kimura / Michael T Madigan / Jörg Overmann / Long-Jiang Yu /
PubMed Abstract	Purple phototrophic bacteria produce two kinds of light-harvesting complexes that function to capture and transmit solar energy: the core antenna (LH1) and the peripheral antenna (LH2). The ...Purple phototrophic bacteria produce two kinds of light-harvesting complexes that function to capture and transmit solar energy: the core antenna (LH1) and the peripheral antenna (LH2). The apoproteins of these antennas, encoded respectively by the genes pufBA and pucBA within and outside the photosynthetic gene cluster, respectively, exhibit conserved amino acid sequences and structural topologies suggesting they were derived from a shared ancestor. Here we present the structures of two photosynthetic complexes from Roseospirillum (Rss.) parvum 930I: an LH1-RC complex and a variant of the LH1 complex also encoded by pufBA that we designate as LH1'. The LH1-RC complex forms a closed elliptical structure consisting of 16 pairs of αβ-polypeptides that surrounds the RC. By contrast, the LH1' complex is a closed ring structure composed of 14 pairs of αβ-polypeptides, and it shows significant similarities to LH2 complexes both spectrally and structurally. Although LH2-like, the LH1' complex is larger than any known LH2 complexes, and genomic analyses of Rss. parvum revealed the absence of pucBA, genes that encode classical LH2 complexes. Characterization of the unique Rss. parvum photocomplexes not only underscores the diversity of such structures but also sheds new light on the evolution of light-harvesting complexes from phototrophic bacteria.
External links	Commun Biol / PubMed:39702771 / PubMed Central
Methods	EM (single particle)
Resolution	2.35 - 2.65 Å
Structure data	60158 8zjw EMDB-60158, PDB-8zjw: Cryo-EM structure of photosynthetic LH1' complex of Roseospirillum parvum Method: EM (single particle) / Resolution: 2.35 Å 60165 8zk2 EMDB-60165, PDB-8zk2: Cryo-EM structure of photosynthetic LH1-RC core complex of Roseospirillum parvum Method: EM (single particle) / Resolution: 2.65 Å
Chemicals	ChemComp-BCL: BACTERIOCHLOROPHYLL A ChemComp-CRT: SPIRILLOXANTHIN ChemComp-HEC: HEME C ChemComp-MG: Unknown entry ChemComp-PGV: (1R)-2-{[{[(2S)-2,3-DIHYDROXYPROPYL]OXY}(HYDROXY)PHOSPHORYL]OXY}-1-[(PALMITOYLOXY)METHYL]ETHYL (11E)-OCTADEC-11-ENOATE / phospholipidYM ChemComp-8K6: Octadecane ChemComp-BPH: BACTERIOPHEOPHYTIN A ChemComp-LMT: DODECYL-BETA-D-MALTOSIDE / detergentYM ChemComp-FE: Unknown entry ChemComp-MQ8: MENAQUINONE 8
Source	roseospirillum parvum (bacteria)
Keywords	PHOTOSYNTHESIS / LH1 prime complex / ROSEOSPIRILLUM PARVUM 930I / LH1-RC core complex