Structure, Total Synthesis, and Biosynthesis of Chloromyxamides: Myxobacterial Tetrapeptides Featuring an Uncommon 6-Chloromethyl-5-methoxypipecolic Acid Building Block

Jan Gorges; Fabian Panter; Louise Kjaerulff; Thomas Hoffmann; Uli Kazmaier; Rolf Müller

doi:10.1002/anie.201808028

Structure, Total Synthesis, and Biosynthesis of Chloromyxamides: Myxobacterial Tetrapeptides Featuring an Uncommon 6-Chloromethyl-5-methoxypipecolic Acid Building Block

Jan Gorges, Fabian Panter, Louise Kjaerulff, Thomas Hoffmann, Uli Kazmaier^*, Rolf Müller

^*Corresponding author for this work

9 Citations (Scopus)

Abstract

Soil-living microbes are an important resource for the discovery of new natural products featuring great structural diversity that are reflective of the underlying biosynthetic pathways as well as incorporating a wide range of intriguing small-molecule building blocks. We report here the full structural elucidation, total synthesis, and biosynthesis of chloromyxamides, a new class of tetrapeptides that display an unprecedented 6-chloromethyl-5-methoxypipecolic acid (CMPA) substructure. Chemical synthesis—including an approach to access the CMPA unit—was pursued to confirm the structure of the chloromyxamides and enabled determination of the absolute configuration in the CMPA ring. A model for the nonribosomal assembly of chloromyxamides was devised on the basis of the combined evaluation of the biosynthetic gene cluster sequence and the feeding of stable isotope-labeled precursors. This provided insight into the formation of the various chloromyxamide derivatives and the biogenesis of the CMPA unit.

Original language	English
Journal	Angewandte Chemie - International Edition
Pages (from-to)	14270-14275
ISSN	1433-7851
DOIs	https://doi.org/10.1002/anie.201808028
Publication status	Published - 22 Oct 2018
Externally published	Yes

Keywords

biosynthesis
myxobacteria
natural products
secondary metabolites
total synthesis

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10.1002/anie.201808028

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Structure, Total Synthesis, and Biosynthesis of Chloromyxamides : Myxobacterial Tetrapeptides Featuring an Uncommon 6-Chloromethyl-5-methoxypipecolic Acid Building Block. / Gorges, Jan; Panter, Fabian; Kjaerulff, Louise et al.

In: Angewandte Chemie - International Edition, 22.10.2018, p. 14270-14275.

Research output: Contribution to journal › Journal article › Research › peer-review

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abstract = "Soil-living microbes are an important resource for the discovery of new natural products featuring great structural diversity that are reflective of the underlying biosynthetic pathways as well as incorporating a wide range of intriguing small-molecule building blocks. We report here the full structural elucidation, total synthesis, and biosynthesis of chloromyxamides, a new class of tetrapeptides that display an unprecedented 6-chloromethyl-5-methoxypipecolic acid (CMPA) substructure. Chemical synthesis—including an approach to access the CMPA unit—was pursued to confirm the structure of the chloromyxamides and enabled determination of the absolute configuration in the CMPA ring. A model for the nonribosomal assembly of chloromyxamides was devised on the basis of the combined evaluation of the biosynthetic gene cluster sequence and the feeding of stable isotope-labeled precursors. This provided insight into the formation of the various chloromyxamide derivatives and the biogenesis of the CMPA unit.",

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author = "Jan Gorges and Fabian Panter and Louise Kjaerulff and Thomas Hoffmann and Uli Kazmaier and Rolf M{\"u}ller",

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T2 - Myxobacterial Tetrapeptides Featuring an Uncommon 6-Chloromethyl-5-methoxypipecolic Acid Building Block

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AU - Panter, Fabian

AU - Kjaerulff, Louise

AU - Hoffmann, Thomas

AU - Kazmaier, Uli

AU - Müller, Rolf

PY - 2018/10/22

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N2 - Soil-living microbes are an important resource for the discovery of new natural products featuring great structural diversity that are reflective of the underlying biosynthetic pathways as well as incorporating a wide range of intriguing small-molecule building blocks. We report here the full structural elucidation, total synthesis, and biosynthesis of chloromyxamides, a new class of tetrapeptides that display an unprecedented 6-chloromethyl-5-methoxypipecolic acid (CMPA) substructure. Chemical synthesis—including an approach to access the CMPA unit—was pursued to confirm the structure of the chloromyxamides and enabled determination of the absolute configuration in the CMPA ring. A model for the nonribosomal assembly of chloromyxamides was devised on the basis of the combined evaluation of the biosynthetic gene cluster sequence and the feeding of stable isotope-labeled precursors. This provided insight into the formation of the various chloromyxamide derivatives and the biogenesis of the CMPA unit.

AB - Soil-living microbes are an important resource for the discovery of new natural products featuring great structural diversity that are reflective of the underlying biosynthetic pathways as well as incorporating a wide range of intriguing small-molecule building blocks. We report here the full structural elucidation, total synthesis, and biosynthesis of chloromyxamides, a new class of tetrapeptides that display an unprecedented 6-chloromethyl-5-methoxypipecolic acid (CMPA) substructure. Chemical synthesis—including an approach to access the CMPA unit—was pursued to confirm the structure of the chloromyxamides and enabled determination of the absolute configuration in the CMPA ring. A model for the nonribosomal assembly of chloromyxamides was devised on the basis of the combined evaluation of the biosynthetic gene cluster sequence and the feeding of stable isotope-labeled precursors. This provided insight into the formation of the various chloromyxamide derivatives and the biogenesis of the CMPA unit.

KW - biosynthesis

KW - myxobacteria

KW - natural products

KW - secondary metabolites

KW - total synthesis

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DO - 10.1002/anie.201808028

M3 - Journal article

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AN - SCOPUS:85054160613

SN - 1433-7851

SP - 14270

EP - 14275

JO - Angewandte Chemie International Edition

JF - Angewandte Chemie International Edition

ER -

Structure, Total Synthesis, and Biosynthesis of Chloromyxamides: Myxobacterial Tetrapeptides Featuring an Uncommon 6-Chloromethyl-5-methoxypipecolic Acid Building Block

Abstract

Keywords

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