Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.16.2 (PCP)
 3,761 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The iron-chelating catechol siderophore vibriobactin of the pathogenic Vibrio cholerae is assembled by a four-subunit, ten-domain nonribosomal peptide synthetase system, VibE, VibB, VibH, and VibF, using 2,3-dihydroxybenzoate and L-threonine as precursors to two (dihydroxyphenyl)methyloxazolinyl groups in amide linkage on a norspermidine scaffold. We have utilized site-specific and domain-deletion mutagenesis to map the heterocyclization and primary and secondary amine acylation activities of the six-domain (Cy1-Cy2-A-C1-PCP-C2) VibF subunit. We have found that Cy2 is capable of and limited to the condensation (amide bond formation) step of the three-step heterocyclization process, while Cy1 is capable of and limited to the final processing (cyclization/dehydration) steps to the completed heterocycle. Additionally, we have observed that the C2 domain functions in both N(9) (primary amine) acylation and N(5) (secondary amine) acylation of the (dihydroxybenzoyl)norspermidine substrate, leaving no catalytic role for the C1 domain, a conclusion confirmed with the formation of vibriobactin in a C1-deficient system. Thus VibF is an NRPS with two domains, Cy1 and Cy2, that perform a function otherwise performed by one and with one domain, C2, that performs a function otherwise performed by two. While C2 appeared to tolerate uncyclized threonine in place of the usual heterocycle in primary amine acylation, it refused this replacement in the corresponding donor substrate in secondary amine acylation.
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PMID:Catalytic mapping of the vibriobactin biosynthetic enzyme VibF. 1177 22

Nonribosomal peptide synthetases (NRPS), fatty acid synthases (FAS), and polyketide sythases (PKS) are multimodular enzymatic assembly lines utilized in natural product biosynthesis. Previous data on FAS and PKS subunits have indicated that they are homodimers and that some of their catalytic functions can work in trans. When NRPS assembly lines have been probed for comparable formation of stable oligomers, no evidence had been forthcoming that species other than monomer forms were active. In this work we focus on the six-domain (Cy1-Cy2-A-C1-PCP-C2) enzyme VibF from the vibriobactin synthetase assembly line, which contains three other proteins, VibB, VibE, and VibH, that--when purified and mixed with VibF and the substrates ATP, threonine, 2,3-dihydroxybenzoate (DHB), and norspermidine--produce the iron chelator vibriobactin. Using a deletion of the Cy1 domain and separate inactivating mutations in the Cy2, A, PCP, and C2 domains of VibF, we report regain of catalytic activity upon mutant protein mixing that argues for heterodimer formation, stable for hundreds to thousands of catalytic cycles, with acyl chain processing and transfer around blocked domains. Ultracentrifugation data likewise confirm a dimeric structure for VibF and establish that domains within NRPS dimeric modules can act on acyl chains in trans. The results described here are the first indication for an NRPS subunit that homodimerization can occur and that there is a continuum of functional oligomerization states between monomers and dimers in nonribosomal peptide synthetases.
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PMID:Dimeric structure of the six-domain VibF subunit of vibriobactin synthetase: mutant domain activity regain and ultracentrifugation studies. 1253 89

Nonribosomal peptide synthetases (NRPS), fatty acid synthases (FAS), and polyketide synthases (PKS) are multimodular enzymatic assembly lines utilized in natural product biosynthesis. The oligomeric structure of these assembly line enzymes has been a topic of interest because higher order oligomeric quaternary structural arrangements allow for alternate paths of acyl intermediate elongation and present unique challenges for the chimeric engineering of hybrid assembly lines. Unlike other NRPS systems that in general appear to be monomeric, the six domain (Cy1-Cy2-A-C1-PCP-C2) VibF subunit of vibriobactin synthetase has previously been shown to be dimeric, the same oligomeric state as that observed for FAS and PKS assembly lines. It has been demonstrated that the C1 domain within VibF is catalytically inactive and is not required for vibriobactin production. Utilizing sedimentation equilibrium analytical ultracentrifugation experiments to determine the oligomeric states of several VibF subfragments, we report that the C1 domain is largely responsible for VibF dimerization. Comparative rates of vibriobactin production, coupled with dissociation constants for VibF subfragment pair heterocomplexes, suggest that the mere presence of C1 does not detectably enhance the catalytic rates of neighboring domains, but it may properly orient Cy1-Cy2-A relative to PCP-C2.
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PMID:Catalytically inactive condensation domain C1 is responsible for the dimerization of the VibF subunit of vibriobactin synthetase. 1536 44