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PDBsum entry 5m2p
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Photosynthesis
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PDB id
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5m2p
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References listed in PDB file
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Key reference
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Title
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Conserved residues in ycf54 are required for protochlorophyllide formation in synechocystis sp. Pcc 6803.
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Authors
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S.Hollingshead,
S.Bliss,
P.J.Baker,
C.Neil hunter.
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Ref.
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Biochem J, 2017,
474,
667-681.
[DOI no: ]
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PubMed id
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Abstract
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Chlorophylls (Chls) are modified tetrapyrrole molecules, essential for
photosynthesis. These pigments possess an isocyclic E ring formed by the
Mg-protoporphyrin IX monomethylester cyclase (MgPME-cyclase). We assessed the in
vivo effects of altering seven highly conserved residues within Ycf54, which is
required for MgPME-cyclase activity in the cyanobacterium
SynechocystisSynechocystis strains harbouring the Ycf54 alterations D39A, F40A
and R82A were blocked to varying degrees at the MgPME-cyclase step, whereas the
A9G mutation reduced Ycf54 levels by ∼75%. Wild-type (WT) levels of the
cyclase subunit CycI are present in strains with D39A and F40A, but these
strains have lowered cellular Chl and photosystem accumulation. CycI is reduced
by ∼50% in A9G and R82A, but A9G has no perturbations in Chl or photosystem
accumulation, whilst R82A contains very little Chl and few photosystems. When
FLAG tagged and used as bait in pulldown experiments, the three mutants D39A,
F40A and R82A were unable to interact with the MgPME-cyclase component CycI,
whereas A9G pulled down a similar level of CycI as WT Ycf54. These observations
suggest that a stable interaction between CycI and Ycf54 is required for
unimpeded Pchlide biosynthesis. Crystal structures of the WT, A9G and R82A Ycf54
proteins were solved and analysed to investigate the structural effects of these
mutations. A loss of the local hydrogen bonding network and a reversal in the
surface charge surrounding residue R82 are probably responsible for the
functional differences observed in the R82A mutation. We conclude that the Ycf54
protein must form a stable interaction with CycI to promote optimal Pchlide
biosynthesis.
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