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PDBsum entry 1c75
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Electron transport
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PDB id
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1c75
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Contents |
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* Residue conservation analysis
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DOI no:
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Biochemistry
39:13115-13126
(2000)
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PubMed id:
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Crystal structure of oxidized Bacillus pasteurii cytochrome c553 at 0.97-A resolution.
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S.Benini,
A.González,
W.R.Rypniewski,
K.S.Wilson,
J.J.Van Beeumen,
S.Ciurli.
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ABSTRACT
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This article reports the first X-ray structure of the soluble form of a c-type
cytochrome isolated from a Gram-positive bacterium. Bacillus pasteurii
cytochrome c(553), characterized by a low reduction potential and by a low
sequence homology with cytochromes from Gram-negative bacteria or eukaryotes, is
a useful case study for understanding the structure-function relationships for
this class of electron-transfer proteins. Diffraction data on a single crystal
of cytochrome c(553) were obtained using synchrotron radiation at 100 K. The
structure was determined at 0.97-A resolution using ab initio phasing and
independently at 1.70 A in an MAD experiment. In both experiments, the structure
solution exploited the presence of a single Fe atom as anomalous scatterer in
the protein. For the 0.97-A data, the phasing was based on a single data set.
This is the most precise structure of a heme protein to date. The crystallized
cytochrome c(553) contains only 71 of the 92 residues expected from the intact
protein sequence, lacking the first 21 amino acids at the N-terminus. This
feature is consistent with previous evidence that this tail, responsible for
anchoring the protein to the cytoplasm membrane, is easily cleaved off during
the purification procedure. The heme prosthetic group in B. pasteurii cytochrome
c(553) is surrounded by three alpha-helices in a compact arrangement. The
largely exposed c-type heme group features a His-Met axial coordination of the
Fe(III) ion. The protein is characterized by a very asymmetric charge
distribution, with the exposed heme edge located on a surface patch devoid of
net charges. A structural search of a representative set of protein structures
reveals that B. pasteurii cytochrome c(553) is most similar to Pseudomonas
cytochromes c(551), followed by cytochromes c(6), Desulfovibrio cytochrome
c(553), cytochromes c(552) from thermophiles, and cytochromes c from eukaryotes.
Notwithstanding a low sequence homology, a structure-based alignment of these
cytochromes shows conservation of three helical regions, with different
additional secondary structure motifs characterizing each protein. In B.
pasteurii cytochrome c(553), these motifs are represented by the shortest
interhelix connecting fragments observed for this group of proteins. The
possible relationships between heme solvent accessibility and the
electrochemical reduction potential are discussed.
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Literature references that cite this PDB file's key reference
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PubMed id
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Reference
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G.Zoppellaro,
K.L.Bren,
A.A.Ensign,
E.Harbitz,
R.Kaur,
H.P.Hersleth,
U.Ryde,
L.Hederstedt,
and
K.K.Andersson
(2009).
Review: studies of ferric heme proteins with highly anisotropic/highly axial low spin (S = 1/2) electron paramagnetic resonance signals with bis-histidine and histidine-methionine axial iron coordination.
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Biopolymers,
91,
1064-1082.
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S.Sandhya,
S.S.Rani,
B.Pankaj,
M.K.Govind,
B.Offmann,
N.Srinivasan,
and
R.Sowdhamini
(2009).
Length variations amongst protein domain superfamilies and consequences on structure and function.
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PLoS ONE,
4,
e4981.
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G.Zoppellaro,
E.Harbitz,
R.Kaur,
A.A.Ensign,
K.L.Bren,
and
K.K.Andersson
(2008).
Modulation of the ligand-field anisotropy in a series of ferric low-spin cytochrome c mutants derived from Pseudomonas aeruginosa cytochrome c-551 and Nitrosomonas europaea cytochrome c-552: a nuclear magnetic resonance and electron paramagnetic resonance study.
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J Am Chem Soc,
130,
15348-15360.
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U.Ryde
(2007).
Accurate metal-site structures in proteins obtained by combining experimental data and quantum chemistry.
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Dalton Trans,
(),
607-625.
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G.Kieseritzky,
G.Morra,
and
E.W.Knapp
(2006).
Stability and fluctuations of amide hydrogen bonds in a bacterial cytochrome c: a molecular dynamics study.
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J Biol Inorg Chem,
11,
26-40.
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G.Zoppellaro,
T.Teschner,
E.Harbitz,
V.Schünemann,
S.Karlsen,
D.M.Arciero,
S.Ciurli,
A.X.Trautwein,
A.B.Hooper,
and
K.K.Andersson
(2006).
Low-temperature EPR and Mössbauer spectroscopy of two cytochromes with His-Met axial coordination exhibiting HALS signals.
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Chemphyschem,
7,
1258-1267.
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I.Tomcová,
R.M.Branca,
G.Bodó,
C.Bagyinka,
and
I.K.Smatanová
(2006).
Cross-crystallization method used for the crystallization and preliminary diffraction analysis of a novel di-haem cytochrome c4.
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Acta Crystallogr Sect F Struct Biol Cryst Commun,
62,
820-824.
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T.Goto,
T.Matsuno,
M.Hishinuma-Narisawa,
K.Yamazaki,
H.Matsuyama,
N.Inoue,
and
I.Yumoto
(2005).
Cytochrome c and bioenergetic hypothetical model for alkaliphilic Bacillus spp.
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J Biosci Bioeng,
100,
365-379.
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K.Nilsson,
H.P.Hersleth,
T.H.Rod,
K.K.Andersson,
and
U.Ryde
(2004).
The protonation status of compound II in myoglobin, studied by a combination of experimental data and quantum chemical calculations: quantum refinement.
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Biophys J,
87,
3437-3447.
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A.González
(2003).
Faster data-collection strategies for structure determination using anomalous dispersion.
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Acta Crystallogr D Biol Crystallogr,
59,
315-322.
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K.Nilsson,
D.Lecerof,
E.Sigfridsson,
and
U.Ryde
(2003).
An automatic method to generate force-field parameters for hetero-compounds.
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Acta Crystallogr D Biol Crystallogr,
59,
274-289.
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L.Banci,
I.Bertini,
S.Ciurli,
A.Dikiy,
J.Dittmer,
A.Rosato,
G.Sciara,
and
A.R.Thompsett
(2002).
NMR solution structure, backbone mobility, and homology modeling of c-type cytochromes from gram-positive bacteria.
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Chembiochem,
3,
299-310.
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PDB codes:
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A.González,
G.Larsson,
R.Persson,
and
E.Cedergren-Zeppezauer
(2001).
Atomic resolution structure of Escherichia coli dUTPase determined ab initio.
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Acta Crystallogr D Biol Crystallogr,
57,
767-774.
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PDB codes:
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The most recent references are shown first.
Citation data come partly from CiteXplore and partly
from an automated harvesting procedure. Note that this is likely to be
only a partial list as not all journals are covered by
either method. However, we are continually building up the citation data
so more and more references will be included with time.
Where a reference describes a PDB structure, the PDB
codes are
shown on the right.
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