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PDBsum entry 1ewh
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Electron transport
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PDB id
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1ewh
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Contents |
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* Residue conservation analysis
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References listed in PDB file
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Key reference
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Title
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Interruption of the internal water chain of cytochrome f impairs photosynthetic function.
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Authors
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G.Sainz,
C.J.Carrell,
M.V.Ponamarev,
G.M.Soriano,
W.A.Cramer,
J.L.Smith.
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Ref.
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Biochemistry, 2000,
39,
9164-9173.
[DOI no: ]
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PubMed id
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Abstract
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The structure of cytochrome f includes an internal chain of five water molecules
and six hydrogen-bonding side chains, which are conserved throughout the
phylogenetic range of photosynthetic organisms from higher plants, algae, and
cyanobacteria. The in vivo electron transfer capability of Chlamydomonas
reinhardtii cytochrome f was impaired in site-directed mutants of the conserved
Asn and Gln residues that form hydrogen bonds with water molecules of the
internal chain [Ponamarev, M. V., and Cramer, W. A. (1998) Biochemistry 37,
17199-17208]. The 251-residue extrinsic functional domain of C. reinhardtii
cytochrome f was expressed in Escherichia coli without the 35 C-terminal
residues of the intact cytochrome that contain the membrane anchor. Crystal
structures were determined for the wild type and three "water chain" mutants
(N168F, Q158L, and N153Q) having impaired photosynthetic and electron transfer
function. The mutant cytochromes were produced, folded, and assembled heme at
levels identical to that of the wild type in the E. coli expression system.
N168F, which had a non-photosynthetic phenotype and was thus most affected by
mutational substitution, also had the greatest structural perturbation with two
water molecules (W4 and W5) displaced from the internal chain. Q158L, the
photosynthetic mutant with the largest impairment of in vivo electron transfer,
had a more weakly bound water at one position (W1). N153Q, a less impaired
photosynthetic mutant, had an internal water chain with positions and hydrogen
bonds identical to those of the wild type. The structure data imply that the
waters of the internal chain, in addition to the surrounding protein, have a
significant role in cytochrome f function.
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