Heterologous Production of Fungal Maleidrides Reveals the Cryptic Cyclization Involved in their Biosynthesis

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autoren

  • Katherine Williams
  • Agnieszka J. Szwalbe
  • Nicholas P. Mulholland
  • Jason L. Vincent
  • Andrew M. Bailey
  • Christine L. Willis
  • Thomas J. Simpson
  • Russell J. Cox

Organisationseinheiten

Externe Organisationen

  • University of Bristol
  • Syngenta
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Details

Titel in ÜbersetzungHeterologe Produktion pilzlicher Maleidride enthüllt die kryptische Cyclisierung in ihrer Biosynthese
OriginalspracheEnglisch
Seiten (von - bis)6784-6788
Seitenumfang5
FachzeitschriftAngewandte Chemie
Jahrgang55
Ausgabenummer23
Frühes Online-Datum21 Apr. 2016
PublikationsstatusVeröffentlicht - 27 Mai 2016

Abstract

Fungal maleidrides are an important family of bioactive secondary metabolites that consist of 7, 8, or 9-membered carbocycles with one or two fused maleic anhydride moieties. The biosynthesis of byssochlamic acid (a nonadride) and agnestadride A (a heptadride) was investigated through gene disruption and heterologous expression experiments. The results reveal that the precursors for cyclization are formed by an iterative highly reducing fungal polyketide synthase supported by a hydrolase, together with two citrate-processing enzymes. The enigmatic ring formation is catalyzed by two proteins with homology to ketosteroid isomerases, and assisted by two proteins with homology to phosphatidylethanolamine-binding proteins. Ring cycle: The enzymes involved in the cyclization of the maleidride family of bioactive fungal natural products, including agnestadride A and byssochlamic acid, were identified. These previously unknown proteins show homology to ketosteroid isomerases (KI-like) and phosphatidylethanolamine-binding proteins (PEBP-like).

ASJC Scopus Sachgebiete

Zitieren

Heterologous Production of Fungal Maleidrides Reveals the Cryptic Cyclization Involved in their Biosynthesis. / Williams, Katherine; Szwalbe, Agnieszka J.; Mulholland, Nicholas P. et al.
in: Angewandte Chemie , Jahrgang 55, Nr. 23, 27.05.2016, S. 6784-6788.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Williams, K., Szwalbe, A. J., Mulholland, N. P., Vincent, J. L., Bailey, A. M., Willis, C. L., Simpson, T. J., & Cox, R. J. (2016). Heterologous Production of Fungal Maleidrides Reveals the Cryptic Cyclization Involved in their Biosynthesis. Angewandte Chemie , 55(23), 6784-6788. https://doi.org/10.1002/anie.201511882, https://doi.org/10.1002/ange.201511882
Williams K, Szwalbe AJ, Mulholland NP, Vincent JL, Bailey AM, Willis CL et al. Heterologous Production of Fungal Maleidrides Reveals the Cryptic Cyclization Involved in their Biosynthesis. Angewandte Chemie . 2016 Mai 27;55(23):6784-6788. Epub 2016 Apr 21. doi: 10.1002/anie.201511882, 10.1002/ange.201511882
Williams, Katherine ; Szwalbe, Agnieszka J. ; Mulholland, Nicholas P. et al. / Heterologous Production of Fungal Maleidrides Reveals the Cryptic Cyclization Involved in their Biosynthesis. in: Angewandte Chemie . 2016 ; Jahrgang 55, Nr. 23. S. 6784-6788.
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abstract = "Fungal maleidrides are an important family of bioactive secondary metabolites that consist of 7, 8, or 9-membered carbocycles with one or two fused maleic anhydride moieties. The biosynthesis of byssochlamic acid (a nonadride) and agnestadride A (a heptadride) was investigated through gene disruption and heterologous expression experiments. The results reveal that the precursors for cyclization are formed by an iterative highly reducing fungal polyketide synthase supported by a hydrolase, together with two citrate-processing enzymes. The enigmatic ring formation is catalyzed by two proteins with homology to ketosteroid isomerases, and assisted by two proteins with homology to phosphatidylethanolamine-binding proteins. Ring cycle: The enzymes involved in the cyclization of the maleidride family of bioactive fungal natural products, including agnestadride A and byssochlamic acid, were identified. These previously unknown proteins show homology to ketosteroid isomerases (KI-like) and phosphatidylethanolamine-binding proteins (PEBP-like).",
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AU - Williams, Katherine

AU - Szwalbe, Agnieszka J.

AU - Mulholland, Nicholas P.

AU - Vincent, Jason L.

AU - Bailey, Andrew M.

AU - Willis, Christine L.

AU - Simpson, Thomas J.

AU - Cox, Russell J.

N1 - Funding information: We thank BBSRC (KW, BB/J006289/1) and Syngenta (AS) for funding. Analytical and preparative LCMS were provide by EPSRC (EP/F066104/1) and DFG (INST 187/621). 500 MHz NMR (EP/L011999/1) was provided by EPSRC. We thank Dr Kate de Mattos-Shipley (BB/K002341/1) for helpful discussions and bioinformatic assistance with maleidride clusters.

PY - 2016/5/27

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N2 - Fungal maleidrides are an important family of bioactive secondary metabolites that consist of 7, 8, or 9-membered carbocycles with one or two fused maleic anhydride moieties. The biosynthesis of byssochlamic acid (a nonadride) and agnestadride A (a heptadride) was investigated through gene disruption and heterologous expression experiments. The results reveal that the precursors for cyclization are formed by an iterative highly reducing fungal polyketide synthase supported by a hydrolase, together with two citrate-processing enzymes. The enigmatic ring formation is catalyzed by two proteins with homology to ketosteroid isomerases, and assisted by two proteins with homology to phosphatidylethanolamine-binding proteins. Ring cycle: The enzymes involved in the cyclization of the maleidride family of bioactive fungal natural products, including agnestadride A and byssochlamic acid, were identified. These previously unknown proteins show homology to ketosteroid isomerases (KI-like) and phosphatidylethanolamine-binding proteins (PEBP-like).

AB - Fungal maleidrides are an important family of bioactive secondary metabolites that consist of 7, 8, or 9-membered carbocycles with one or two fused maleic anhydride moieties. The biosynthesis of byssochlamic acid (a nonadride) and agnestadride A (a heptadride) was investigated through gene disruption and heterologous expression experiments. The results reveal that the precursors for cyclization are formed by an iterative highly reducing fungal polyketide synthase supported by a hydrolase, together with two citrate-processing enzymes. The enigmatic ring formation is catalyzed by two proteins with homology to ketosteroid isomerases, and assisted by two proteins with homology to phosphatidylethanolamine-binding proteins. Ring cycle: The enzymes involved in the cyclization of the maleidride family of bioactive fungal natural products, including agnestadride A and byssochlamic acid, were identified. These previously unknown proteins show homology to ketosteroid isomerases (KI-like) and phosphatidylethanolamine-binding proteins (PEBP-like).

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