Combinatorial biosynthesis in yeast leads to over 200 diterpenoids

Maximilian Frey; Ulschan Bathe; Luca Meink; Gerd U. Balcke; Jürgen Schmidt; Andrej Frolov; Alena Soboleva; Ahmed Hassanin; Mehdi D. Davari; Oliver Frank; Verena Schlagbauer; Corinna Dawid; Alain Tissier

doi:10.1016/j.ymben.2024.02.006

Combinatorial biosynthesis in yeast leads to over 200 diterpenoids

Maximilian Frey, Ulschan Bathe, Luca Meink, Gerd U. Balcke, Jürgen Schmidt, Andrej Frolov, Alena Soboleva, Ahmed Hassanin, Mehdi D. Davari, Oliver Frank, Verena Schlagbauer, Corinna Dawid, Alain Tissier

Research output: Contribution to journal › Article › peer-review

7 Scopus citations

Abstract

Diterpenoids form a diverse group of natural products, many of which are or could become pharmaceuticals or industrial chemicals. The modular character of diterpene biosynthesis and the promiscuity of the enzymes involved make combinatorial biosynthesis a promising approach to generate libraries of diverse diterpenoids. Here, we report on the combinatorial assembly in yeast of ten diterpene synthases producing (+)-copalyl diphosphate-derived backbones and four cytochrome P450 oxygenases (CYPs) in diverse combinations. This resulted in the production of over 200 diterpenoids. Based on literature and chemical database searches, 162 of these compounds can be considered new-to-Nature. The CYPs accepted most substrates they were given but remained regioselective with few exceptions. Our results provide the basis for the systematic exploration of the diterpenoid chemical space in yeast using sequence databases.

Original language	English
Pages (from-to)	193-200
Number of pages	8
Journal	Metabolic Engineering
Volume	82
DOIs	https://doi.org/10.1016/j.ymben.2024.02.006
State	Published - Mar 2024

Keywords

Combinatorial biosynthesis
Cytochrome P450 oxidases
Diterpenes
Golden gate cloning
New-to-nature
Synthetic biology
Terpene synthases
Yeast

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10.1016/j.ymben.2024.02.006

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title = "Combinatorial biosynthesis in yeast leads to over 200 diterpenoids",

abstract = "Diterpenoids form a diverse group of natural products, many of which are or could become pharmaceuticals or industrial chemicals. The modular character of diterpene biosynthesis and the promiscuity of the enzymes involved make combinatorial biosynthesis a promising approach to generate libraries of diverse diterpenoids. Here, we report on the combinatorial assembly in yeast of ten diterpene synthases producing (+)-copalyl diphosphate-derived backbones and four cytochrome P450 oxygenases (CYPs) in diverse combinations. This resulted in the production of over 200 diterpenoids. Based on literature and chemical database searches, 162 of these compounds can be considered new-to-Nature. The CYPs accepted most substrates they were given but remained regioselective with few exceptions. Our results provide the basis for the systematic exploration of the diterpenoid chemical space in yeast using sequence databases.",

keywords = "Combinatorial biosynthesis, Cytochrome P450 oxidases, Diterpenes, Golden gate cloning, New-to-nature, Synthetic biology, Terpene synthases, Yeast",

author = "Maximilian Frey and Ulschan Bathe and Luca Meink and Balcke, \{Gerd U.\} and J{\"u}rgen Schmidt and Andrej Frolov and Alena Soboleva and Ahmed Hassanin and Davari, \{Mehdi D.\} and Oliver Frank and Verena Schlagbauer and Corinna Dawid and Alain Tissier",

note = "Publisher Copyright: {\textcopyright} 2024 The Authors",

year = "2024",

month = mar,

doi = "10.1016/j.ymben.2024.02.006",

language = "English",

volume = "82",

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journal = "Metabolic Engineering",

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AU - Frey, Maximilian

AU - Bathe, Ulschan

AU - Meink, Luca

AU - Balcke, Gerd U.

AU - Schmidt, Jürgen

AU - Frolov, Andrej

AU - Soboleva, Alena

AU - Hassanin, Ahmed

AU - Davari, Mehdi D.

AU - Frank, Oliver

AU - Schlagbauer, Verena

AU - Dawid, Corinna

AU - Tissier, Alain

PY - 2024/3

Y1 - 2024/3

N2 - Diterpenoids form a diverse group of natural products, many of which are or could become pharmaceuticals or industrial chemicals. The modular character of diterpene biosynthesis and the promiscuity of the enzymes involved make combinatorial biosynthesis a promising approach to generate libraries of diverse diterpenoids. Here, we report on the combinatorial assembly in yeast of ten diterpene synthases producing (+)-copalyl diphosphate-derived backbones and four cytochrome P450 oxygenases (CYPs) in diverse combinations. This resulted in the production of over 200 diterpenoids. Based on literature and chemical database searches, 162 of these compounds can be considered new-to-Nature. The CYPs accepted most substrates they were given but remained regioselective with few exceptions. Our results provide the basis for the systematic exploration of the diterpenoid chemical space in yeast using sequence databases.

AB - Diterpenoids form a diverse group of natural products, many of which are or could become pharmaceuticals or industrial chemicals. The modular character of diterpene biosynthesis and the promiscuity of the enzymes involved make combinatorial biosynthesis a promising approach to generate libraries of diverse diterpenoids. Here, we report on the combinatorial assembly in yeast of ten diterpene synthases producing (+)-copalyl diphosphate-derived backbones and four cytochrome P450 oxygenases (CYPs) in diverse combinations. This resulted in the production of over 200 diterpenoids. Based on literature and chemical database searches, 162 of these compounds can be considered new-to-Nature. The CYPs accepted most substrates they were given but remained regioselective with few exceptions. Our results provide the basis for the systematic exploration of the diterpenoid chemical space in yeast using sequence databases.

KW - Combinatorial biosynthesis

KW - Cytochrome P450 oxidases

KW - Diterpenes

KW - Golden gate cloning

KW - New-to-nature

KW - Synthetic biology

KW - Terpene synthases

KW - Yeast

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U2 - 10.1016/j.ymben.2024.02.006

DO - 10.1016/j.ymben.2024.02.006

M3 - Article

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AN - SCOPUS:85185879922

SN - 1096-7176

VL - 82

SP - 193

EP - 200

JO - Metabolic Engineering

JF - Metabolic Engineering

ER -

Combinatorial biosynthesis in yeast leads to over 200 diterpenoids

Abstract

Keywords

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