Corallopyronin B

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Corallopyronin B
Category Enzyme inhibitors
Catalog number BBF-01056
CAS 93195-33-6
Molecular Weight 541.67
Molecular Formula C31H43NO7

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Description

It is produced by the strain of Corallococcus (Myxococcus) coralloides. It is a bacterial RNA synthase inhibitor, mainly resistant to gram-positive bacteria.

Specification

Synonyms methyl ((R,E)-5-(4-hydroxy-3-((R,2E,4E,9Z,12E)-8-hydroxy-2,5,9-trimethylpentadeca-2,4,9,12-tetraenoyl)-2-oxo-2H-pyran-6-yl)hex-1-en-1-yl)carbamate
IUPAC Name methyl N-[(E,5R)-5-[4-hydroxy-5-[(2E,4E,8R,9Z,12E)-8-hydroxy-2,5,9-trimethylpentadeca-2,4,9,12-tetraenoyl]-6-oxopyran-2-yl]hex-1-enyl]carbamate
Canonical SMILES CCC=CCC=C(C)C(CCC(=CC=C(C)C(=O)C1=C(C=C(OC1=O)C(C)CCC=CNC(=O)OC)O)C)O
InChI InChI=1S/C31H43NO7/c1-7-8-9-10-13-22(3)25(33)18-16-21(2)15-17-24(5)29(35)28-26(34)20-27(39-30(28)36)23(4)14-11-12-19-32-31(37)38-6/h8-9,12-13,15,17,19-20,23,25,33-34H,7,10-11,14,16,18H2,1-6H3,(H,32,37)/b9-8+,19-12+,21-15+,22-13-,24-17+/t23-,25-/m1/s1
InChI Key XWTHWSMCSBXZRJ-ZCMQOGSASA-N

Properties

Antibiotic Activity Spectrum Gram-positive bacteria
Solubility Soluble in Methanol, Chloroform

Reference Reading

1. Exploring chemical diversity of α-pyrone antibiotics: molecular basis of myxopyronin biosynthesis
Hilda Sucipto, Silke C Wenzel, Rolf Müller Chembiochem. 2013 Sep 2;14(13):1581-9. doi: 10.1002/cbic.201300289. Epub 2013 Aug 26.
Myxopyronins and corallopyronins are structurally related α-pyrone antibiotics from myxobacteria. They are thought to represent a highly promising compound class for the development of broad-spectrum antibacterial therapeutic agents, because of their ability to inhibit RNA polymerase through interaction with the "switch region", a recently identified novel drug target. Here we describe the identification and characterization of the myxopyronin biosynthetic pathway from Myxococcus fulvus Mx f50. A detailed comparison with the recently identified corallopyronin biosynthetic pathway revealed the genetic and biochemical basis, thus explaining the observed structural differences between the two natural product families. Directed mutagenesis procedures for M. fulvus Mx f50 were developed to enable functional studies and pathway modifications. Our work provided new insights into myxopyronin biosynthesis and led to the production of a novel and unexpected myxopyronin derivative.
2. Corallorazines from the myxobacterium Corallococcus coralloides
Alexander Schmitz, Stefan Kehraus, Till F Schäberle, Edith Neu, Celso Almeida, Martin Roth, Gabriele M König J Nat Prod. 2014 Jan 24;77(1):159-63. doi: 10.1021/np400740u. Epub 2014 Jan 14.
The myxobacterium Corallococcus coralloides is the producer of the antibiotic compound corallopyronin A, which is currently in preclinical evaluation. To obtain suitable amounts of this antibiotic, the production strain C. coralloides B035 was cultured in large volumes, which in the addition to the isolation of the target molecule facilitates the detection of additional metabolites of this myxobacterial strain (corallorazines A-C). Corallorazine A is a new structural type of dipeptide composed of a dehydroalanine and a glycine moiety that are linked via a semiaminal bond, thus forming a piperazine ring. The latter is further connected via an amide bond to an unusual aliphatic acyl chain.
3. Soil myxobacteria as a potential source of polyketide-peptide substances
Ivana Charousová, Heinrich Steinmetz, Juraj Medo, Soňa Javoreková, Joachim Wink Folia Microbiol (Praha). 2017 Jul;62(4):305-315. doi: 10.1007/s12223-017-0502-2. Epub 2017 Feb 4.
Myxobacteria, a group of antimicrobial producing bacteria, have been successfully cultured and characterized from ten soil samples collected from different parts of Slovakia. A total of 79 myxobacteria belonging to four genera (Myxococcus, Corallococcus, Sorangium, and Polyangium) were isolated based on aspects of their life cycle. Twenty-five of them were purified, fermented, and screened for antimicrobial activities against 11 test microorganisms. Results indicated that crude extracts showed more significant activities against Gram-positive than against Gram-negative bacteria or fungi. Based on a higher degree and broader range of antimicrobial production, the two most potential extracts (K9-5, V3-1) were selected for HPLC fractionation against Micrococcus luteus and Staphylococcus aureus and LC/MS analysis of potential antibiotic metabolites. The analysis resulted in the identification of polyketide-peptide antibiotics, namely corallopyronin A and B (K9-5) and myxalamid B and C (V3-1), which were responsible for important Gram-positive activity in the observed strains. A sequence similarity search through BLAST revealed that these strains showed the highest sequence similarity to Corallococcus coralloides (K9-5, NCBI accession number KX256198) and Myxococcus xanthus (V3-1, NCBI accession number KX256197). Although screening of myxobacteria is laborious, due to difficulties in isolating cultures, this research represented the first report covering the isolation and cultivation of this challenging bacterial group from Slovakian soils as well as the screening of their antimicrobial activity, cultural identification, and secondary metabolite identification.

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