Novel Key Metabolites Reveal Further Branching of the Roquefortine/Meleagrin Biosynthetic Pathway

Marco I. Ries; Hazrat Ali; Peter P. Lankhorst; Thomas Hankemeier; Roel A.L. Bovenberg; Arnold J.M. Driessen; Rob J. Vreeken

doi:10.1074/jbc.M113.512665

Novel Key Metabolites Reveal Further Branching of the Roquefortine/Meleagrin Biosynthetic Pathway

Marco I. Ries, Hazrat Ali, Peter P. Lankhorst, Thomas Hankemeier, Roel A.L. Bovenberg, Arnold J.M. Driessen, Rob J. Vreeken

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Abstract

Metabolic profiling and structural elucidation of novel secondary metabolites obtained from derived deletion strains of the filamentous fungus Penicillium chrysogenum were used to reassign various previously ascribed synthetase genes of the roquefortine/meleagrin pathway to their corresponding products. Next to the structural characterization of roquefortine F and neoxaline,which are for the first time reported for P. chrysogenum, we identified the novel metabolite roquefortine L, including its degradation products, harboring remarkable chemical structures. Their biosynthesis is discussed, questioning the exclusive role of glandicoline A as key intermediate in the pathway. The results reveal that further enzymes of this pathway are rather unspecific and catalyze more than one reaction, leading to excessive branching in the pathway with meleagrin and neoxaline as end products of two branches.

Original language	English
Pages (from-to)	37289-37295
Number of pages	7
Journal	J. Biol. Chem.
Volume	288
Issue number	52
DOIs	https://doi.org/10.1074/jbc.M113.512665
Publication status	Published - 2013

Keywords

Toxins
Natural Product Biosynthesis
Secondary Metabolism
Fungi
Anticancer Drug
Antibiotics

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@article{dbbfbd6be86c442a996512fb64ab0ef3,

title = "Novel Key Metabolites Reveal Further Branching of the Roquefortine/Meleagrin Biosynthetic Pathway",

abstract = "Metabolic profiling and structural elucidation of novel secondary metabolites obtained from derived deletion strains of the filamentous fungus Penicillium chrysogenum were used to reassign various previously ascribed synthetase genes of the roquefortine/meleagrin pathway to their corresponding products. Next to the structural characterization of roquefortine F and neoxaline,which are for the first time reported for P. chrysogenum, we identified the novel metabolite roquefortine L, including its degradation products, harboring remarkable chemical structures. Their biosynthesis is discussed, questioning the exclusive role of glandicoline A as key intermediate in the pathway. The results reveal that further enzymes of this pathway are rather unspecific and catalyze more than one reaction, leading to excessive branching in the pathway with meleagrin and neoxaline as end products of two branches.",

keywords = "Toxins, Natural Product Biosynthesis, Secondary Metabolism, Fungi, Anticancer Drug, Antibiotics",

author = "Ries, {Marco I.} and Hazrat Ali and Lankhorst, {Peter P.} and Thomas Hankemeier and Bovenberg, {Roel A.L.} and Driessen, {Arnold J.M.} and Vreeken, {Rob J.}",

note = "Relation: http://www.rug.nl/research/gbb/ Rights: University of Groningen, Groningen Biomolecular Sciences and Biotechnology Institute",

year = "2013",

doi = "10.1074/jbc.M113.512665",

language = "English",

volume = "288",

pages = "37289--37295",

journal = "J. Biol. Chem.",

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publisher = "AMER SOC BIOCHEMISTRY MOLECULAR BIOLOGY INC",

number = "52",

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TY - JOUR

T1 - Novel Key Metabolites Reveal Further Branching of the Roquefortine/Meleagrin Biosynthetic Pathway

AU - Ries, Marco I.

AU - Ali, Hazrat

AU - Lankhorst, Peter P.

AU - Hankemeier, Thomas

AU - Bovenberg, Roel A.L.

AU - Driessen, Arnold J.M.

AU - Vreeken, Rob J.

N1 - Relation: http://www.rug.nl/research/gbb/ Rights: University of Groningen, Groningen Biomolecular Sciences and Biotechnology Institute

PY - 2013

Y1 - 2013

N2 - Metabolic profiling and structural elucidation of novel secondary metabolites obtained from derived deletion strains of the filamentous fungus Penicillium chrysogenum were used to reassign various previously ascribed synthetase genes of the roquefortine/meleagrin pathway to their corresponding products. Next to the structural characterization of roquefortine F and neoxaline,which are for the first time reported for P. chrysogenum, we identified the novel metabolite roquefortine L, including its degradation products, harboring remarkable chemical structures. Their biosynthesis is discussed, questioning the exclusive role of glandicoline A as key intermediate in the pathway. The results reveal that further enzymes of this pathway are rather unspecific and catalyze more than one reaction, leading to excessive branching in the pathway with meleagrin and neoxaline as end products of two branches.

AB - Metabolic profiling and structural elucidation of novel secondary metabolites obtained from derived deletion strains of the filamentous fungus Penicillium chrysogenum were used to reassign various previously ascribed synthetase genes of the roquefortine/meleagrin pathway to their corresponding products. Next to the structural characterization of roquefortine F and neoxaline,which are for the first time reported for P. chrysogenum, we identified the novel metabolite roquefortine L, including its degradation products, harboring remarkable chemical structures. Their biosynthesis is discussed, questioning the exclusive role of glandicoline A as key intermediate in the pathway. The results reveal that further enzymes of this pathway are rather unspecific and catalyze more than one reaction, leading to excessive branching in the pathway with meleagrin and neoxaline as end products of two branches.

KW - Toxins

KW - Natural Product Biosynthesis

KW - Secondary Metabolism

KW - Fungi

KW - Anticancer Drug

KW - Antibiotics

U2 - 10.1074/jbc.M113.512665

DO - 10.1074/jbc.M113.512665

M3 - Article

SN - 0021-9258

VL - 288

SP - 37289

EP - 37295

JO - J. Biol. Chem.

JF - J. Biol. Chem.

IS - 52

ER -

Novel Key Metabolites Reveal Further Branching of the Roquefortine/Meleagrin Biosynthetic Pathway

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Keywords

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