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

Displaying 27 results

Traits related to biotic stress tolerance

Viral resistance: resistance to rice tungro spherical virus, causing rice tungro disease (RTD). RTD is a serious threat for rice production in tropical Asia.
(Macovei et al., 2018)
SDN1
CRISPR/Cas
International Rice Research Institute (IRRI), Philippines
Bacterial resistance: Strong resistance to Xanthomonas oryzae, causing bacterial blight, a devastating rice disease resulting in yield losses.
(Xu et al., 2021)
SDN1
TALENs
Shanghai Jiao Tong University, China
Crop Diseases Research Institute, Pakistan
Viral resistance: reduced cotton leaf curl viral (CLCuV) load with asymptomatic plants. <br /> CLCuV causes a very devastating and prevalent disease. It causes huge losses to textile and other industries.
(Shakoor et al., 2023)
SDN1
CRISPR/Cas
University of the Punjab
University of Gujrat, Pakistan
Pacific Biosciences
CureVac Manufacturing GmbH, Germany
Bacterial resistance: improved resistance to Xanthomonas oryzae, which causes bacterial blight, a devastating rice disease resulting in yield losses.
(Oliva et al., 2019)
SDN1
CRISPR/Cas
International Rice Research Institute, Philippines
University of Missouri
University of Florida
Iowa State University
Donald Danforth Plant Science Center, USA
Université Montpellier, France
Heinrich Heine Universität Düsseldorf
Max Planck Institute for Plant Breeding Research
Erfurt University of Applied Sciences, Germany
Nagoya University, Japan
Bacterial resistance: Strong resistance to Xanthomonas oryzae, causing bacterial blight, a devastating rice disease resulting in yield losses.
(Zafar et al., 2020)
SDN1
CRISPR/Cas
Constituent College of Pakistan Institute of Engineering and Applied Sciences
University of Information Technology
Engineering and Management Sciences
Constituent College of Pakistan Institute of Engineering and Applied Sciences, Pakistan
Viral resistance: increased resistance to chickpea chlorotic dwarf virus (CpCDV).
(Malik et al., 2023)
SDN1
CRISPR/Cas
University of the Punjab
University of Gujrat, Pakistan
Washington State University, USA
Fungal resistance: Increased tolerance against Fusarium oxysporum f. sp. lycopersici, causing vascular wilt.
(Ijaz et al., 2022)
SDN1
CRISPR/Cas
University of Agriculture, Pakistan
Viral resistance: enhanced resistance against chickpea chlorotic dwarf virus (CpCDV). The range of symptoms caused by CpCDV varies from mosaic pattern to streaks to leaf curling and can include browning of the collar region and stunting, foliar chlorosis and necrosis.
(Munir Malik et al., 2022)
SDN1
CRISPR/Cas
University of the Punjab
University of Gujrat, Pakistan
Washington State University, USA
Viral resistance: enhanced resistance against wheat dwarf virus, which is a causal agent of wheat viral disease and can significantly impact wheat production worldwide.
(Yuan et al., 2024)
SDN1
CRISPR/Cas
Chinese Academy of Agricultural Sciences
Northwest A&
F University, China

Norwegian Institute of Bioeconomy Research, Norway
Viral resistance: to Cotton Leaf Curl Kokhran Virus, causing Cotton leaf curl disease (CLCuD), a very devastating and prevalent disease. CLCuD causes huge losses to the textile and other industries.
(Hamza et al., 2021)
SDN1
CRISPR/Cas
National Institute for Biotechnology and Genetic Engineering, Pakistan
Broad-spectrum resistance against multiple Potato virus Y (PVY)-strains.
( Noureen et al., 2022 )
SDN1
CRISPR/Cas
Constituent College of Pakistan Institute of Engineering and Applied Sciences (PIEAS)
University Institute of Biochemistry and Biotechnology (UIBB), Pakistan

Traits related to improved food/feed quality

Reduce malnutrition by decreasing antinutrient phytic acid (PA) and increasing Iron and Zinc accumulation. PA has adverse effects on essential mineral absorption and thus is considered as an anti-nutritive for monogastric animals.
( Ibrahim et al., 2021 )
SDN1
CRISPR/Cas
Quaid-i-Azam University Islamabad
National Agricultural Research Centre, Pakistan
Reduces phytic acid (anti-nutrient) and improves iron and zinc accumulation in wheat grains. Biofortification.
( Ibrahim et al., 2021 )
SDN1
CRISPR/Cas
Quaid-i-Azam University Islamabad
National Agricultural Research Centre, Pakistan
Amylose-free tubers.
( Abeuova et al., 2023 )
SDN1
CRISPR/Cas
National Center for Biotechnology (NCB)
L.N. Gumilyov Eurasian National University
Nazarbayev University, Kazakhstan
Improved cold storage and processing traits: lower levels of reduced sugars
(Yasmeen et al., 2022)
SDN1
CRISPR/Cas
University of the Punjab, Pakistan

Traits related to increased plant yield and growth

Improved spikelet number per panicle led to increased grain yield per plant.
( Ludwig et al., 2023 )
SDN1
CRISPR/Cas
International Rice Research Institute (IRRI), Philippines
University of Pavia, Italy
Increased grain yield without side effect.
( Gho et al., 2022 )
SDN1
CRISPR/Cas
Kyung Hee University, South Korea
International Rice Research Institute, Philippines
Increase in 1000-grain weight, grain area, grain width, grain length, plant height, and spikelets per spike.
( Errum et al., 2023 )
SDN1
CRISPR/Cas
National Agricultural Research Centre (NARC)
PARC Institute of Advanced Studies in Agriculture (PIASA)
Pakistan Agricultural Research Council, Pakistan
Reduced seed dormancy: rapid and uniform germination of seeds is important for rice production. Mutant seeds began to germinate 1 day after sowing, while WT seeds needed 2 days.
(Jung et al., 2019)
SDN1
CRISPR/Cas
Hankyong National University
Chungbuk National University
Hanyang University, China
Central Luzon State University, Philippines
Increased tiller number.
( Awan et al., 2024 )
SDN1
CRISPR/Cas
National Institute for Biotechnology and Genetic Engineering
Quaid-i-Azam University, Pakistan
Control grain size and seed coat color.
( Tra et al., 2021 )

BE
International Rice Research Institute, Philippines
Dahlem Center of Plant Sciences Freie Universität, Germany
Synthetic Biology, Biofuel and Genome Editing R&
D Reliance Industries Ltd, India
Altered root architecture with increased tillers and total grain weight.
( Rahim et al., 2023 )
SDN1
CRISPR/Cas
Quaid-e-Azam University
National Agricultural Research Centre (NARC)
The University of Haripur, Pakistan
King Saud University, Saudi Arabia
Nile University
Ain Shams University, Egypt
Chonnam National University, South Korea

Traits related to industrial utilization

Early heading: in regions with short growing seasons, early maturing varieties to escape frost damage are required.
(Sohail et al., 2022)
SDN1
CRISPR/Cas
China National Rice Research Institute
Northern Center of China National Rice Research Institute
Zhejiang A&
F University, China
Mir Chakar Khan Rind University
Agriculture Research System Khyber, Pakistan
Ministry of Agriculture, Bangladesh
Agriculture Research Center, Egypt

Traits related to herbicide tolerance

Dinitroanaline
( Liu et al., 2021 )

BE
Chinese Academy of Agricultural Sciences
China Agricultural University
Zhejiang University
Scientific Observing and Experimental Station of Crop Pests in Guilin, Ministry of Agriculture and Rural Affairs, China
Norwegian Institute of Bioeconomy Research, Norway
Bispyribac sodium
( Kuang et al., 2020 )

BE
Chinese Academy of Agricultural Sciences
China Agricultural University
Zhejiang University, China
Norwegian Institute of Bioeconomy Research, Norway
Herbicide tolerance: Bispyribac-sodium (BS). BS is a pyrimidinyl carboxy herbicide.
(Zafar et al., 2023)
SDN2
CRISPR/Cas
Constituent College of Pakistan Institute of Engineering and Applied Sciences
Engineering and Management Sciences (BUITEMS), Pakistan

Traits related to product color/flavour

Colour shift. The poinsettia belongs to most economically important potted ornamental plants. Customers are willing to pay higher prices for unusual varieties.
( Nitarska et al., 2021 )
SDN1
CRISPR/Cas
Technische Universität Wien, Austria
Klemm+Sohn GmbH &
Co
Leibniz Universität Hannover, Germany