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

Sdn Type

Displaying 15 results

Traits related to abiotic stress tolerance

Increased root length, which can restore good performance under water stress.
( Gabay et al., 2023 )
SDN1
CRISPR/Cas
University of California
Howard Hughes Medical Institute, USA
University of Haifa, Israel
Consejo Nacional de Investigaciones Científicas y Técnicas (CONICET)
Universidad Nacional de San Martín (UNSAM), Argentina
Fudan University
China Agricultural University, China
Karolinska Institutet, Sweden
Increased drought tolerance.
( Abdallah et al., 2022 )
SDN1
CRISPR/Cas
Cairo University, Egypt
Crop Improvement and Genetics Unit, USA
Drought tolerance.
( Kim D et al,. 2018 )
SDN1
CRISPR/Cas
Montana State University, USA

Traits related to improved food/feed quality

Decreases in palmitic acid, increased total C18 and reduced total saturated fatty acid contents. Reduced saturated fat content is connected to lowered cardiovascular disease rate.
( Gupta et al., 2012 )
SDN1
ZFN
Dow AgroSciences
Sangamo BioSciences, USA
Increased grain number per spikelet.
( Zhang et al., 2019 )
SDN1
CRISPR/Cas
University of Missouri
South Dakota State University
University of California
Donald Danforth Plant Science Center, USA
University of Bristol, UK
Altered lignin composition: decreased syringyl monolignol / guaiacylmonolignol (S/G) ratio. The monolignol ratio has been proposed to affect biomass recalcitrance and the resistance to plant disease.
(Cao et al., 2021)
SDN1
CRISPR/Cas
SouthwestUniversity, China
University of Wisconsin, USA
Reduced gluten content. Coeliac disease is an autoimmune disorder triggered in genetically predisposed individuals by the ingestion of gluten proteins.
( Sánchez-León,et al., 2017 )
SDN1
CRISPR/Cas
Instituto de Agricultura Sostenible (IASCSIC), Spain
University of Minnesota, USA

Traits related to increased plant yield and growth

Enhanced grain yield and semi-dwarf phenotype by manipulating brassinosteroid signal pathway.
( Song et al., 2023 )
SDN1
CRISPR/Cas
China Agricultural University, China
Hard Winter Wheat Genetics Research Unit, USA
Semi-dwarf phenotype and compact architecture to increase yield. Plant height and branch angle are the major architectural factors determining yield.
( Fan et al., 2021 )
SDN1
CRISPR/Cas
Ministry of Agriculture and Rural Affairs, China
Wilkes University, USA
Improve plant architecture to increase yield. Plant height and branch number are directly correlated with yield.
( Zheng et al., 2020 )
SDN1
CRISPR/Cas
Ministry of Agriculture, China
Wilkes University, USA
Increased grain weight and grain size. Carbohydrate and total protein levels also increased.
( Guo et al., 2021 )
SDN1
CRISPR/Cas
Sichuan Agricultural University, China
University of California, USA
High temperature germination. Large increases in the maximum temperature for seed germination to allow for the cultivation of the crop in production areas with higher temperature.
( Bertier et al., 2018 )
SDN1
CRISPR/Cas
University of California, USA

Traits related to industrial utilization

Rapid generation of male sterile (MS) bread wheat. MS is an important tool in creating hybrid crop varieties that provide a yield advantage over traditional varieties by harnessing heterosis.
( Singh et al., 2021 )
SDN1
CRISPR/Cas
DuPont Pioneer, USA

Traits related to herbicide tolerance

Herbicide tolerance: AHAS-inhibiting
(Gocal et al., 2015)

ODM
Cibus, Canada
Cibus, USA

Traits related to product color/flavour

Reduced citrate content. Citrate is a common primary metabolite which often characterizes fruit flavour.
( Fu et al., 2023 )
SDN1
CRISPR/Cas
Zhejiang University, China
University of Florida, USA
The New Zealand Institute for Plant &
Food Research Limited (Plant &
Food Research) Mt Albert
University of Auckland, New Zealand