Tenellin

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Tenellin
Category Others
Catalog number BBF-04308
CAS 53823-15-7
Molecular Weight 369.41
Molecular Formula C21H23NO5
Purity >95% by HPLC

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Description

It is a yellow pigment produced by species of the genus beauveria. It belongs to the rare 4-hydroxypyridone class containing a dienone side chain.

Specification

Synonyms 2(1H)-Pyridinone, 3-[(2E,4E,6R)-4,6-dimethyl-1-oxo-2,4-octadien-1-yl]-1,4-dihydroxy-5-(4-hydroxyphenyl)-
Storage Store at -20°C
IUPAC Name 3-[(2E,4E,6R)-4,6-dimethylocta-2,4-dienoyl]-1,4-dihydroxy-5-(4-hydroxyphenyl)pyridin-2-one
Canonical SMILES CCC(C)C=C(C)C=CC(=O)C1=C(C(=CN(C1=O)O)C2=CC=C(C=C2)O)O
InChI InChI=1S/C21H23NO5/c1-4-13(2)11-14(3)5-10-18(24)19-20(25)17(12-22(27)21(19)26)15-6-8-16(23)9-7-15/h5-13,23,25,27H,4H2,1-3H3/b10-5+,14-11+/t13-/m1/s1
InChI Key YELFBSBOFKWHSL-UCFWAISOSA-N
Source Beauveria sp.

Properties

Appearance Yellow Solid
Boiling Point 517.2±60.0°C (Predicted)
Density 1.310±0.06 g/cm3 (Predicted)
Solubility Soluble in Ethanol, Methanol, DMF, DMSO

Reference Reading

1. Inductive Production of the Iron-Chelating 2-Pyridones Benefits the Producing Fungus To Compete for Diverse Niches
Bo Chen, Shiqin Li, Chengshu Wang, Ying Yin, Yanlei Sun mBio . 2021 Dec 21;12(6):e0327921. doi: 10.1128/mbio.03279-21.
Diverse 2-pyridone alkaloids have been identified with an array of biological and pharmaceutical activities, including the development of drugs. However, the biosynthetic regulation and chemical ecology of 2-pyridones remain largely elusive. Here, we report the inductive activation of the silent polyketide synthase-nonribosomal peptide synthetase (PKS-NRPS) (tenS) gene cluster for the biosynthesis of the tenellin-type 2-pyridones in the insect-pathogenic fungus Beauveria bassiana when cocultured with its natural competitor fungus Metarhizium robertsii. A pathway-specific transcription factor,tenR, was identified, and the overexpression oftenRwell expanded the biosynthetic mechanism of 15-hydroxytenellin (15-HT) and its derivatives. In particular, a tandemly linked glycosyltransferase-methyltransferase gene pair located outside thetenSgene cluster was verified to mediate the rare and site-specific methylglucosylation of 15-HT at its N-OH residue. It was evident that both tenellin and 15-HT can chelate iron, which could benefit B. bassiana to outcompete M. robertsii in cocultures and to adapt to iron-replete and -depleted conditions. Relative to the wild-type strain, the deletion oftenShad no obvious negative effect on fungal virulence, but the overexpression oftenRcould substantially increase fungal pathogenicity toward insect hosts. The results of this study well advance the understanding of the biosynthetic machinery and chemical ecology of 2-pyridones.IMPORTANCEDifferent 2-pyridones have been identified, with multiple biological activities but unclear chemical ecology. We found that the silenttenSgene cluster was activated in the insect pathogen Beauveria bassiana when the fungus was cocultured with its natural competitor Metarhizium robertsii. It was established that the gene cluster is regulated by a pathway-specific regulator,tenR, and the overexpression of this transcription factor expanded the biosynthetic machinery of the tenellin 2-pyridones. It was also found that the paired genes located outside thetenScluster contribute to the site-specific methylglucosylation of the main compound 15-hydroxytenellin. Both tenellin and 15-hydroxytenellin can chelate and sequester iron to benefit the producing fungus to compete for different niches. This study well advances the biosynthetic mechanism and chemical ecology of 2-pyridones.
2. Use of 13C in biosynthetic studies. The labelling pattern in tenellin enriched from isotope-labelled acetate, methionine, and phenylalanine
J A Walter, D G Smith, A G McInnes, J L Wright, L C Vining Can J Biochem . 1977 Jul;55(7):678-85. doi: 10.1139/o77-098.
The biogenetic origin of the carbon atoms in tenellin has been established by adding 13C-enriched compounds to cultures of Beauveria bassiana, and determining the isotopic distribution in the metabolite by 13C nuclear magnetic resonance spectrometry. Tenellin is formed by condensation of an acetate-derived polyketide chain with a phenylpropanoid unit that may be phenylalanine. Alternate carbon atoms of the polyketide chain were labelled with sodium [1(-13C)]- and [2-(13C]-acetate; sodium [1,2-(13C)]acetate was incorporated as intact two-carbon units, the presence of which in tenellin was apparent from coupling between adjacent 13C-enriched carbons. Substituent methyl groups of the polyketide-derived alkenyl chain were labelled with L-[Me-13C]methionine. The labelling patterns from DL-[carboxy-13C]phenylalanine and DL-[alpha-13C]phenylalanine indicated a rearrangement of the propanoid component at some stage in the synthesis. The mass spectrum of tenellin from cultures administered L-[15N]phenylalanine showed isotopic enrichment similar to that obtained with 13C- or 14C-labelled phenylalanine. During incorporation of L-[carboxy-14C, beta-3H]phenylalanine 96% of the tritium label was lost, discounting the possibility of a 1,2-hydride shift during biosynthesis of the metabolite.
3. Biosynthesis of the 2-pyridone tenellin in the insect pathogenic fungus Beauveria bassiana
Andrew M Bailey, Colin M Lazarus, Henry Powles, Kirstin L Eley, Thomas J Simpson, Laura M Halo, Russell J Cox, Zhongshu Song Chembiochem . 2007 Feb 12;8(3):289-97. doi: 10.1002/cbic.200600398.
Genomic DNA from the insect pathogenic fungus Beauveria bassiana was used as a template in a PCR with degenerate primers designed to amplify a fragment of a C-methyl transferase (CMeT) domain from a highly reduced fungal polyketide synthase (PKS). The resulting 270-bp PCR product was homologous to other fungal PKS CMeT domains and was used as a probe to isolate a 7.3-kb fragment of genomic DNA from a BamH1 library. Further library probing and TAIL-PCR then gave a 21.9-kb contig that encoded a 12.9-kb fused type I PKS-NRPS ORF together with ORFs encoding other oxidative and reductive enzymes. A directed knockout experiment with a BaR cassette, reported for the first time in B. bassiana, identified the PKS-NRPS as being involved in the biosynthesis of the 2-pyridone tenellin. Other fungal PKS-NRPS genes are known to be involved in the formation of tetramic acids in fungi, and it thus appears likely that related compounds are precursors of 2-pyridones in fungi. B. bassiana tenellin KO and WT strains proved to be equally pathogenic towards insect larvae; this indicated that tenellin is not involved in insect pathogenesis.

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