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Query: UMLS:C0004135 (
ATM
)
13,001
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Coronafacic acid (CFA) is the polyketide component of coronatine (COR), a phytotoxin produced by the plant pathogen Pseudomonas syringae. The CFA polyketide synthase (PKS) consists of two open reading frames (ORFs) that encode type I multifunctional proteins and several ORFs that encode monofunctional proteins. Sequence comparisons of the modular portions of the CFA PKS with other prokaryotic, modular PKSs elucidated the boundaries of the domains that are involved in the individual stages of polyketide assembly. The two beta-ketoacyl:acyl carrier protein synthase (KS) domains in the modular portion of the CFA PKS exhibit a high degree of similarity to each other (53%), but are even more similar to the KS domains of DEBS, RAPS, and RIF. Cfa6 possesses two acyltransferases- AT0, which is associated with a loading domain, and
AT1
, which uses ethylmalonyl-CoA (eMCoA) as a substrate for chain extension. Cfa7 contains an AT that uses malonyl-CoA as a substrate for chain extension. The Cfa6 AT0 shows 35 and 32% similarity to the DEBS1 and NidA1 AT0s, respectively, and 32 and 36% similarity to the Cfa6 and Cfa7 AT1s. Sequence motifs have previously been identified that correlate with AT substrates. The motifs in Cfa6
AT1
were found to correlate reasonably well with those predicted for methylmalonyl-CoA (mMCoA) ATs. The motifs in the AT of Cfa7 correlated more poorly with those predicted for MCoA ATs. Three
ACP
domains occur in the modular proteins of the COR PKS. The loading domain-associated ACP0 showed 38% similarity to the loading domain ACP0s of DEBS1 and NidA1 and 32-36% similarity to the two module-associated ACPs of the COR PKS. It exhibited a higher degree of similarity to the module-associated ACPs of RAPS. The two module-associated ACPs show 39% similarity to each other, but appear more closely related to module-associated
ACP
domains in RAPS and RIFS. Furthermore, the DH and KR domains of Cfa6 and Cfa7 show greater similarity to DH and KR domains in RAPS and RIFS than to each other. The CFA PKS includes a thioesterase domain (TE I) that resides at the C-terminus of Cfa7 and a second thioesterase, which exists as a separate ORF (Cfa9, a TE II). Analysis of a Cfa7 thioesterase mutant demonstrated that the TE domain is required for the production of CFA. The co-existence of TE domains within modular PKSs along with physically separated, monofunctional TEs (TE IIs) has been reported for a number of modular polyketide and non-ribosomal peptide synthases (NRPS). An analysis of the two types of thioesterases using Clustal X yielded a dendrogram showing that TE IIs from PKSs and NRPSs are more closely related to each other than to domain TEs from either PKSs or NRPSs. Furthermore, the dendrogram indicates that both types of TE IIs are more closely related to TE domains associated with PKSs than to TE domains in NRPSs. Finally, the overall % G+C content and the % G+C content at the third codon for all of the PKS genes in the COR cluster suggest that these genes may have been recruited from a gram-positive bacterium.
...
PMID:Analysis of the enzymatic domains in the modular portion of the coronafacic acid polyketide synthase. 1140 16
The polyketide synthases responsible for the biosynthesis of the polyether antibiotics nanchangmycin (1) and salinomycin (4) harbor a number of redox-inactive ketoreductase (KR
0
) domains that are implicated in the generation of C2-epimerized (2S)-2-methyl-3-ketoacyl-
ACP
intermediates. Evidence that the natural substrate for the polyether KR
0
domains is, as predicted, a (2R)-2-methyl-3-ketoacyl-
ACP
intermediate, came from a newly developed coupled ketosynthase (KS)-ketoreductase (KR) assay that established that the decarboxylative condensation of methylmalonyl-CoA with S-propionyl-N-acetylcysteamine catalyzed by the Nan[KS1][
AT1
] didomain from module 1 of the nanchangmycin synthase generates exclusively the corresponding (2R)-2-methyl-3-ketopentanoyl-
ACP
(7a) product. In tandem equilibrium isotope exchange experiments, incubation of [2-
2
H]-(2R,3S)-2-methyl-3-hydroxypentanoyl-
ACP
(6a) with redox-active, epimerase-inactive EryKR6 from module 6 of the 6-deoxyerythronolide B synthase and catalytic quantities of NADP
+
in the presence of redox-inactive, recombinant NanKR1
0
or NanKR5
0
, from modules 1 and 5 of the nanchangmycin synthase, or recombinant SalKR7
0
from module 7 of the salinomycin synthase, resulted in first-order, time-dependent washout of deuterium from 6a. Control experiments confirmed that this washout was due to KR
0
-catalyzed isotope exchange of the reversibly generated, transiently formed oxidation product [2-
2
H]-(2R)-2-methyl-3-ketopentanoyl-
ACP
(7a), consistent with the proposed epimerase activity of each of the KR
0
domains. Although they belong to the superfamily of short chain dehydrogenase-reductases, the epimerase-active KR
0
domains from polyether synthases lack one or both residues of the conserved Tyr-Ser dyad that has previously been implicated in KR-catalyzed epimerizations.
...
PMID:Mechanism and Stereochemistry of Polyketide Chain Elongation and Methyl Group Epimerization in Polyether Biosynthesis. 2815 6
