Genome-editing techniques are promising tools in plant breeding. To facilitate a more comprehensive understanding of the use of genome editing, EU-SAGE developed an interactive, publicly accessible online database of genome-edited crop plants as described in peer-reviewed scientific publications.
The aim of the database is to inform interested stakeholder communities in a transparent manner about the latest evidence about the use of genome editing in crop plants. Different elements including the plant species, traits, techniques, and applications can be filtered in this database.
Regarding the methodology, a literature search in the bibliographic databases and web pages of governmental agencies was conducted using predefined queries in English. Identifying research articles in other languages was not possible due to language barriers. Patents were not screened.
Peer-reviewed articles were screened for relevance and were included in the database based on pre-defined criteria. The main criterium is that the research article should describe a research study of any crop plant in which a trait has been introduced that is relevant from an agricultural and/or food/feed perspective. The database does neither give information on the stage of development of the crop plant, nor on the existence of the intention to develop the described crop plants to be marketed.
This database will be regularly updated. Please contact us via the following webpage in case you would like to inform us about a new scientific study of crops developed for market-oriented agricultural production as a result of genome editing

Genome Editing Technique

Plant

Sdn Type

Displaying 10 results

Traits related to biotic stress tolerance

Fungal resistance: effective reduction of susceptibility against downy mildew by increasing salicylic acid levels. The pathogen can devastate individual vineyards and in some cases also affect production from entire regions.
(Giacomelli et al., 2023)
SDN1
CRISPR/Cas
Research and Innovation Centre
Fondazione Edmund Mach, Italy
Enza Zaden
Hudson River Biotechnology, The Netherlands
Viral resistance: Resistance against Grapevine leafroll-associated virus 3 (GLRaV-3), which is one of the causal agents of grapevine leafroll disease (GLD). GLD severely impacts grapevine production.
(Jiao et al., 2022)

CRISPR/Cas
Northwest A&
F University, China
Fungal resistance: increased resistance to Erysiphe necator, causing powdery mildew in grape cultivar. The pathogen infects all green tissues and berries, leading to dramatic losses in yield and berry quality.
(Malnoy et al., 2016)
SDN1
CRISPR/Cas
Fondazione Edmund Mach, Italy
ToolGen Inc.
Institute for Basic Science
Seoul National University, South Korea
Fungal resistance: increased resistance to Botrytis cinerea.
(Wang et al., 2018)
SDN1
CRISPR/Cas
Northwest A&
F University and Ministry of Agriculture, China
Fast and accurate field screening and differentiation of four major Tobamoviruses infecting tomato and pepper. Tomatoviruses are the most important viruses infecting plants and cause huge economic losses to tomato and pepper crops globally.
( Zhao et al., 2023 )
SDN1
CRISPR/Cas
Chinese Academy of Inspection and Quarantine
China Agricultural University, China
Fungal resistance: enhanced resistance to powdery mildew (Erysiphe necator), a major fungal disease, threatening one of the most economically valuable horticular crops.
(Wan et al., 2020)
SDN1
CRISPR/Cas
Ministry of Agriculture, China
Northwest A&
F University
University of Maryland College Park, USA

Traits related to improved food/feed quality

Promoted anthocyanin accumulation. Anthocyanins are plant secondary metabolites with a variety of biological functions.
( Tu et al., 2022 )
SDN1
CRISPR/Cas
Northwest A&
F University, China
Low tartaric acid.
( Ren et al., 2016 )
SDN1
CRISPR/Cas
University of Chinese Academy of Sciences
Chinese Academy of Sciences, China
Glossy green phenotype and reduced cuticular wax load.
( Liu et al., 2023 )
SDN1
CRISPR/Cas
Chinese Academy of Agricultural Sciences
Hunan Agricultural University
Tianjin Kernel Vegetable Research Institute, China

Traits related to herbicide tolerance

Strong ALS-herbicide resistance
( Wang et al., 2022 )
SDN1
CRISPR/Cas
Beijing Academy of Agriculture and Forestry Sciences, China