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TitleCryo-EM structure of the dimeric Rhodobacter sphaeroides RC-LH1 core complex at 2.9 Å: the structural basis for dimerisation.
Journal, issue, pagesBiochem J, Vol. 478, Issue 21, Page 3923-3937, Year 2021
Publish dateNov 12, 2021
AuthorsPu Qian / Tristan I Croll / Andrew Hitchcock / Philip J Jackson / Jack H Salisbury / Pablo Castro-Hartmann / Kasim Sader / David J K Swainsbury / C Neil Hunter /
PubMed AbstractThe dimeric reaction centre light-harvesting 1 (RC-LH1) core complex of Rhodobacter sphaeroides converts absorbed light energy to a charge separation, and then it reduces a quinone electron and ...The dimeric reaction centre light-harvesting 1 (RC-LH1) core complex of Rhodobacter sphaeroides converts absorbed light energy to a charge separation, and then it reduces a quinone electron and proton acceptor to a quinol. The angle between the two monomers imposes a bent configuration on the dimer complex, which exerts a major influence on the curvature of the membrane vesicles, known as chromatophores, where the light-driven photosynthetic reactions take place. To investigate the dimerisation interface between two RC-LH1 monomers, we determined the cryogenic electron microscopy structure of the dimeric complex at 2.9 Å resolution. The structure shows that each monomer consists of a central RC partly enclosed by a 14-subunit LH1 ring held in an open state by PufX and protein-Y polypeptides, thus enabling quinones to enter and leave the complex. Two monomers are brought together through N-terminal interactions between PufX polypeptides on the cytoplasmic side of the complex, augmented by two novel transmembrane polypeptides, designated protein-Z, that bind to the outer faces of the two central LH1 β polypeptides. The precise fit at the dimer interface, enabled by PufX and protein-Z, by C-terminal interactions between opposing LH1 αβ subunits, and by a series of interactions with a bound sulfoquinovosyl diacylglycerol lipid, bring together each monomer creating an S-shaped array of 28 bacteriochlorophylls. The seamless join between the two sets of LH1 bacteriochlorophylls provides a path for excitation energy absorbed by one half of the complex to migrate across the dimer interface to the other half.
External linksBiochem J / PubMed:34622934 / PubMed Central
MethodsEM (single particle)
Resolution2.9 Å
Structure data

EMDB-13590, PDB-7pqd:
Cryo-EM structure of the dimeric Rhodobacter sphaeroides RC-LH1 core complex at 2.9 A: the structural basis for dimerisation
Method: EM (single particle) / Resolution: 2.9 Å

Chemicals

ChemComp-BCL:
BACTERIOCHLOROPHYLL A

ChemComp-SP2:
3,4-DIHYDROSPHEROIDENE

ChemComp-3PE:
1,2-Distearoyl-sn-glycerophosphoethanolamine / phospholipid*YM

ChemComp-CD4:
(2R,5R,11R,14R)-5,8,11-trihydroxy-5,11-dioxido-17-oxo-2,14-bis(tetradecanoyloxy)-4,6,10,12,16-pentaoxa-5,11-diphosphatriacont-1-yl tetradecanoate

ChemComp-UQ1:
UBIQUINONE-1

ChemComp-U10:
UBIQUINONE-10

ChemComp-BPH:
BACTERIOPHEOPHYTIN A

ChemComp-SQD:
1,2-DI-O-ACYL-3-O-[6-DEOXY-6-SULFO-ALPHA-D-GLUCOPYRANOSYL]-SN-GLYCEROL

ChemComp-LMT:
DODECYL-BETA-D-MALTOSIDE / detergent*YM

ChemComp-FE:
Unknown entry

ChemComp-HOH:
WATER

Source
  • cereibacter sphaeroides 2.4.1 (bacteria)
KeywordsPHOTOSYNTHESIS / light harvesting complex / Cryo-EM / purple bacteria / RC-LH1 / RC-LH1-PufXYZ / dimer / dimeric core complex

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