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PDBsum entry 1af8
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Antibiotic biosynthesis
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PDB id
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1af8
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References listed in PDB file
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Key reference
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Title
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Solution structure of the actinorhodin polyketide synthase acyl carrier protein from streptomyces coelicolor a3(2).
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Authors
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M.P.Crump,
J.Crosby,
C.E.Dempsey,
J.A.Parkinson,
M.Murray,
D.A.Hopwood,
T.J.Simpson.
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Ref.
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Biochemistry, 1997,
36,
6000-6008.
[DOI no: ]
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PubMed id
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Abstract
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The solution structure of the actinorhodin acyl carrier protein (act apo-ACP)
from the polyketide synthase (PKS) of Streptomyces coelicolor A3(2) has been
determined using 1H NMR spectroscopy, representing the first polyketide synthase
component for which detailed structural information has been obtained.
Twenty-four structures were generated by simulated annealing, employing 699
distance restraints and 94 dihedral angle restraints. The structure is composed,
principally, of three major helices (1, 2, and 4), a shorter helix (3) and a
large loop region separating helices 1 and 2. The structure is well-defined,
except for a portion of the loop region (residues 18-29), the N-terminus (1-4),
and a short stretch (57-61) in the loop connecting helices 2 and 3. The RMS
distribution of the 24 structures about the average structure is 1.47 A for
backbone atoms, 1.84 A for all heavy atoms (residues 5-86), and 1.01 A for
backbone atoms over the helical regions (5-18, 41-86). The tertiary fold of act
apo-ACP shows a strong structural homology with Escherichia coli fatty acid
synthase (FAS) ACP, though some structural differences exist. First, there is no
evidence that act apo-ACP is conformationally averaged between two or more
states as observed in E. coli FAS ACP. Second, act apo-ACP shows a disordered
N-terminus (residues 1-4) and a longer flexible loop (19-41 with 19-29
disordered) as opposed to E. coli FAS ACP where the N-terminal helix starts at
residue 3 and the loop region is three amino acids shorter (16-35). Most
importantly, however, although the act apo-ACP structure contains a hydrophobic
core, there are in addition a number of buried hydrophilic groups, principally
Arg72 and Asn79, both of which are 100% conserved in the PKS ACPs and not the
FAS ACPs and may therefore play a role in stabilizing the growing polyketide
chain. The structure-function relationship of act ACP is discussed in the light
of these structural data and recent genetic advances in the field.
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