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

Displaying 14 results

Traits related to biotic stress tolerance

Bacterial resistance: Enhanced resistance against Candidatus Liberibacter spp., which causes significant economic losses globally.
(Ramasamy et al., 2024)
SDN1
CRISPR/Cas
Texas A&
M AgriLife Research and Extension Center
Texas A&
M University
Texas A&
M AgriLife, USA
Viral resistance: increased resistance to infection with the potato virus Y (PVY) and tolerance to salt and osmotic stress. PVY is one of the most economically important potato pathogens
(Makhotenko et al., 2019)
SDN1
CRISPR/Cas
Russia Moscow State University, Russia
Doka Gene Technologies Ltd, USA

Traits related to abiotic stress tolerance

Increased tolerance to drought trough reducing water loss. Tuber development.
( Gonzales et al., 2020 )
SDN1
CRISPR/Cas
Wageningen University and Research, The Netherlands
Centro Nacional de Biotecnología – CSIC
Universidad Politécnica de Madrid (UPM), Spain

Traits related to improved food/feed quality

Improved starch quality by reducing the levels of amylose, thus increasing the amylopectin content.
( Ali et al., 2023 )
SDN1
CRISPR/Cas
Agricultural Genetic Engineering Research Institute (AGERI)
Ain Shams University Faculty of Agriculture, Egypt
Amylose-free starch in tubers.
( Toinga-Villafuerte et al., 2022 )
SDN1
CRISPR/Cas
Texas A&
M University, USA
Increased iron content in potato plants. Iron is an essential micronutrient.
( Chauhan et al., 2024 )
SDN1
CRISPR/Cas
Panjab University
Panjab University
National Institute of Plant Genome Research, India
University of Minnesota, USA
Promoted phenolic acid biosynthesis. Salvia is tradional Chinese medicine with great medical value to treat cardio- and cerebrovascular diseases. Phenolic acids make up a big part of the bioactive compounds.
( Shi et al., 2021 )
SDN1
CRISPR/Cas
East China University of Science and Technology
Zhejiang Chinese Medical University, China
University of Hawaii at Manoa, USA

Traits related to increased plant yield and growth

Increases size of starch granules. Granule size is a key parameter for industrial processing. Larger granules may increase yield during processing and it has been shown in sweet potato that smaller starch granules degrade faster than large granules, so larger granule tubers may be beneficial for storage.
( Pfotenhauer et al., 2023 )
SDN1
CRISPR/Cas
University of Tennessee, USA

Traits related to industrial utilization

Generate self-compatible diploid potato lines for the application of efficient breeding methods.
( Eggers et al., 2021 )
SDN3
CRISPR/Cas
Solynta
Wageningen University &
Research, The Netherlands
Generate self-compatible diploid potato lines for the application of efficient breeding methods.
( Enciso-Rodriguez et al., 2021 )
SDN1
CRISPR/Cas
Michigan State University, USA

Traits related to herbicide tolerance

Imidizolinone
( Butler et al., 2016 )
SDN2
TALENs
Michigan State University
University of Minnesota, USA
Imidizolinone
( Butler et al., 2016 )
SDN2
CRISPR/Cas
Michigan State University
University of Minnesota, USA

Traits related to storage performance

Improved cold storage and processing traits: reduced levels of acrylamide, reduced sugars.
(Clasen et al., 2017)
SDN1
TALENs
Cellectis Plant Science, USA
Decreased cold-induced sweetening of the potato tubers.
Cold-storage causes undesired sweetening which reduces the quality and the commercial value of the tubers.
( Hassan et al., 2023 )
SDN1
CRISPR/Cas
Agricultural Genetic Engineering Research Institute - Agricultural Research Center
Ain Shams University, Egypt