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Literature DB >> 26365384

Genome editing in Ustilago maydis using the CRISPR-Cas system.

Mariana Schuster¹, Gabriel Schweizer¹, Stefanie Reissmann¹, Regine Kahmann².

Abstract

This communication describes the establishment of the type II bacterial CRISPR-Cas9 system to efficiently disrupt target genes in the fungal maize pathogen Ustilago maydis. A single step transformation of a self-replicating plasmid constitutively expressing the U. maydis codon-optimized cas9 gene and a suitable sgRNA under control of the U. maydis U6 snRNA promoter was sufficient to induce genome editing. On average 70% of the progeny of a single transformant were disrupted within the respective b gene. Without selection the self-replicating plasmid was lost rapidly allowing transient expression of the CRISPR-Cas9 system to minimize potential long-term negative effects of Cas9. This technology will be an important advance for the simultaneous disruption of functionally redundant genes and gene families to investigate their contribution to virulence of U. maydis.

Entities: Species

Keywords: Biotrophic fungus; Cas9; Plant pathogen; Reverse genetics; Ustilago maydis

Mesh：

Year: 2015 PMID： 26365384 DOI： 10.1016/j.fgb.2015.09.001

Source DB: PubMed Journal: Fungal Genet Biol ISSN： 1087-1845 Impact factor: 3.495

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Cited

51 in total

Review 1. Computational Prediction of Effector Proteins in Fungi: Opportunities and Challenges.

Authors: Humira Sonah; Rupesh K Deshmukh; Richard R Bélanger
Journal: Front Plant Sci Date: 2016-02-12 Impact factor: 5.753

Review 2. Ustilago maydis effectors and their impact on virulence.

Authors: Daniel Lanver; Marie Tollot; Gabriel Schweizer; Libera Lo Presti; Stefanie Reissmann; Lay-Sun Ma; Mariana Schuster; Shigeyuki Tanaka; Liang Liang; Nicole Ludwig; Regine Kahmann
Journal: Nat Rev Microbiol Date: 2017-05-08 Impact factor: 60.633

3. Yield Improvement of the Anti-MRSA Antibiotics WAP-8294A by CRISPR/dCas9 Combined with Refactoring Self-Protection Genes in Lysobacter enzymogenes OH11.

Authors: Lingjun Yu; Wei Su; Paul D Fey; Fengquan Liu; Liangcheng Du
Journal: ACS Synth Biol Date: 2017-11-20 Impact factor: 5.110

4. Forced Recycling of an AMA1-Based Genome-Editing Plasmid Allows for Efficient Multiple Gene Deletion/Integration in the Industrial Filamentous Fungus Aspergillus oryzae.

Authors: Takuya Katayama; Hidetoshi Nakamura; Yue Zhang; Arnaud Pascal; Wataru Fujii; Jun-Ichi Maruyama
Journal: Appl Environ Microbiol Date: 2019-01-23 Impact factor: 4.792

5. Genetic Manipulation of the Plant Pathogen Ustilago maydis to Study Fungal Biology and Plant Microbe Interactions.

Authors: Kristin Bösch; Lamprinos Frantzeskakis; Miroslav Vraneš; Jörg Kämper; Kerstin Schipper; Vera Göhre
Journal: J Vis Exp Date: 2016-09-30 Impact factor: 1.355

6. Single and Multiplexed Gene Editing in Ustilago maydis Using CRISPR-Cas9.

Authors: Mariana Schuster; Christine Trippel; Petra Happel; Daniel Lanver; Stefanie Reißmann; Regine Kahmann
Journal: Bio Protoc Date: 2018-07-20

7. The Biotrophic Development of Ustilago maydis Studied by RNA-Seq Analysis.

Authors: Daniel Lanver; André N Müller; Petra Happel; Gabriel Schweizer; Fabian B Haas; Marek Franitza; Clément Pellegrin; Stefanie Reissmann; Janine Altmüller; Stefan A Rensing; Regine Kahmann
Journal: Plant Cell Date: 2018-01-25 Impact factor: 11.277