Modular Synthetic Biology Toolkit for Filamentous Fungi

László Mózsik; Carsten Pohl; Vera Meyer; Roel A.L. Bovenberg; Yvonne Nygård; Arnold J.M. Driessen

doi:10.1021/acssynbio.1c00260

Modular Synthetic Biology Toolkit for Filamentous Fungi

László Mózsik
, Carsten Pohl
, Vera Meyer
, Roel A.L. Bovenberg
, Yvonne Nygård
, Arnold J.M. Driessen^*

^*Corresponding author for this work

Not published at VTT

University of Groningen
Technical University of Berlin
DSM Biotechnology Center
Chalmers University of Technology

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

65 Citations (Scopus)

Abstract

Filamentous fungi are highly productive cell factories, often used in industry for the production of enzymes and small bioactive compounds. Recent years have seen an increasing number of synthetic-biology-based applications in fungi, emphasizing the need for a synthetic biology toolkit for these organisms. Here we present a collection of 96 genetic parts, characterized inPenicilliumorAspergillusspecies, that are compatible and interchangeable with the Modular Cloning system. The toolkit contains natural and synthetic promoters (constitutive and inducible), terminators, fluorescent reporters, and selection markers. Furthermore, there are regulatory and DNA-binding domains of transcriptional regulators and components for implementing different CRISPR-based technologies. Genetic parts can be assembled into complex multipartite assemblies and delivered through genomic integration or expressed from an AMA1-sequence-based, fungal-replicating shuttle vector. With this toolkit, synthetic transcription units with established promoters, fusion proteins, or synthetic transcriptional regulation devices can be more rapidly assembled in a standardized and modular manner for novel fungal cell factories.

Original language	English
Pages (from-to)	2850-2861
Number of pages	12
Journal	ACS Synthetic Biology
Volume	10
Issue number	11
DOIs	https://doi.org/10.1021/acssynbio.1c00260
Publication status	Published - 19 Nov 2021
MoE publication type	A1 Journal article-refereed

Funding

The project leading to this application received funding from the European Union’s Horizon 2020 Research and Innovation Programme under Marie Skłodowska-Curie Grant Agreement 713482 (ALERT Program).

Keywords

filamentous fungi
hybrid transcription factor
inducible promoter
Modular Cloning
synthetic biology toolkit
transcriptional regulation
Synthetic Biology/methods
Plasmids/genetics
Cloning, Molecular/methods
Promoter Regions, Genetic/genetics
Fungi/genetics
CRISPR-Cas Systems/genetics
Genetic Engineering/methods
Genetic Vectors/genetics

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10.1021/acssynbio.1c00260

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@article{cd189d9996de48b695047fff7e11ecc5,

title = "Modular Synthetic Biology Toolkit for Filamentous Fungi",

abstract = "Filamentous fungi are highly productive cell factories, often used in industry for the production of enzymes and small bioactive compounds. Recent years have seen an increasing number of synthetic-biology-based applications in fungi, emphasizing the need for a synthetic biology toolkit for these organisms. Here we present a collection of 96 genetic parts, characterized inPenicilliumorAspergillusspecies, that are compatible and interchangeable with the Modular Cloning system. The toolkit contains natural and synthetic promoters (constitutive and inducible), terminators, fluorescent reporters, and selection markers. Furthermore, there are regulatory and DNA-binding domains of transcriptional regulators and components for implementing different CRISPR-based technologies. Genetic parts can be assembled into complex multipartite assemblies and delivered through genomic integration or expressed from an AMA1-sequence-based, fungal-replicating shuttle vector. With this toolkit, synthetic transcription units with established promoters, fusion proteins, or synthetic transcriptional regulation devices can be more rapidly assembled in a standardized and modular manner for novel fungal cell factories.",

keywords = "filamentous fungi, hybrid transcription factor, inducible promoter, Modular Cloning, synthetic biology toolkit, transcriptional regulation, Synthetic Biology/methods, Plasmids/genetics, Cloning, Molecular/methods, Promoter Regions, Genetic/genetics, Fungi/genetics, CRISPR-Cas Systems/genetics, Genetic Engineering/methods, Genetic Vectors/genetics",

author = "L{\'a}szl{\'o} M{\'o}zsik and Carsten Pohl and Vera Meyer and Bovenberg, \{Roel A.L.\} and Yvonne Nyg{\aa}rd and Driessen, \{Arnold J.M.\}",

note = "Publisher Copyright: {\textcopyright} 2021 The Authors. Published by American Chemical Society",

year = "2021",

month = nov,

day = "19",

doi = "10.1021/acssynbio.1c00260",

language = "English",

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journal = "ACS Synthetic Biology",

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AU - Mózsik, László

AU - Pohl, Carsten

AU - Meyer, Vera

AU - Bovenberg, Roel A.L.

AU - Nygård, Yvonne

AU - Driessen, Arnold J.M.

PY - 2021/11/19

Y1 - 2021/11/19

N2 - Filamentous fungi are highly productive cell factories, often used in industry for the production of enzymes and small bioactive compounds. Recent years have seen an increasing number of synthetic-biology-based applications in fungi, emphasizing the need for a synthetic biology toolkit for these organisms. Here we present a collection of 96 genetic parts, characterized inPenicilliumorAspergillusspecies, that are compatible and interchangeable with the Modular Cloning system. The toolkit contains natural and synthetic promoters (constitutive and inducible), terminators, fluorescent reporters, and selection markers. Furthermore, there are regulatory and DNA-binding domains of transcriptional regulators and components for implementing different CRISPR-based technologies. Genetic parts can be assembled into complex multipartite assemblies and delivered through genomic integration or expressed from an AMA1-sequence-based, fungal-replicating shuttle vector. With this toolkit, synthetic transcription units with established promoters, fusion proteins, or synthetic transcriptional regulation devices can be more rapidly assembled in a standardized and modular manner for novel fungal cell factories.

AB - Filamentous fungi are highly productive cell factories, often used in industry for the production of enzymes and small bioactive compounds. Recent years have seen an increasing number of synthetic-biology-based applications in fungi, emphasizing the need for a synthetic biology toolkit for these organisms. Here we present a collection of 96 genetic parts, characterized inPenicilliumorAspergillusspecies, that are compatible and interchangeable with the Modular Cloning system. The toolkit contains natural and synthetic promoters (constitutive and inducible), terminators, fluorescent reporters, and selection markers. Furthermore, there are regulatory and DNA-binding domains of transcriptional regulators and components for implementing different CRISPR-based technologies. Genetic parts can be assembled into complex multipartite assemblies and delivered through genomic integration or expressed from an AMA1-sequence-based, fungal-replicating shuttle vector. With this toolkit, synthetic transcription units with established promoters, fusion proteins, or synthetic transcriptional regulation devices can be more rapidly assembled in a standardized and modular manner for novel fungal cell factories.

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KW - Plasmids/genetics

KW - Cloning, Molecular/methods

KW - Promoter Regions, Genetic/genetics

KW - Fungi/genetics

KW - CRISPR-Cas Systems/genetics

KW - Genetic Engineering/methods

KW - Genetic Vectors/genetics

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Modular Synthetic Biology Toolkit for Filamentous Fungi

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