Repositorium

What is a repositorium?

The repositorium is a searchable database that provides data on relevant articles from journals, company web pages and web pages of governmental agencies about studies/applications of genome-editing in model plants and agricultural crops in the period January 1996 to May 2018. Search options are article type, technique, plant, traits or free text. The repositorium is based on the systematic map of Dominik Modrzejewski et al., published in the journal environmental evidence. (Download article PDF).

Development of broad virus resistance in non-transgenic cucumber using CRISPR/Cas9 technology


Typ / Jahr

Journal Article / 2016

Autoren

Chandrasekaran, Jeyabharathy; Brumin, Marina; Wolf, Dalia; Leibman, Diana; Klap, Chen; Pearlsman, Mali; Sherman, Amir; Arazi, Tzahi; Gal-On, Amit

Abstract
Genome editing in plants has been boosted tremendously by the development of CRISPR/Cas9 (Clustered Regularly Interspaced Short Palindromic Repeats) technology. This powerful tool allows substantial improvement in plant traits in addition to those provided by classical breeding. Here, we demonstrate the development of virus resistance in cucumber (Cucumis sativus L.) using Cas9/subgenomic RNA (sgRNA) technology to disrupt the function of the recessive eIF4E (eukaryotic translation initiation factor 4E) gene. Cas9/sgRNA constructs were targeted to the Nā€™ and Cā€™ termini of the eIF4E gene. Small deletions and single nucleotide polymorphisms (SNPs) were observed in the eIF4E gene targeted sites of transformed T1 generation cucumber plants, but not in putative off-target sites. Non-transgenic heterozygous eif4e mutant plants were selected for the production of non-transgenic homozygous T3 generation plants. Homozygous T3 progeny following Cas9/sgRNA that had been targeted to both eif4e sites exhibited immunity to Cucumber vein yellowing virus (Ipomovirus) infection and resistance to the potyviruses Zucchini yellow mosaic virus and Papaya ring spot mosaic virus-W. In contrast, heterozygous mutant and non-mutant plants were highly susceptible to these viruses. For the first time, virus resistance has been developed in cucumber, non-transgenically, not visibly affecting plant development and without long-term backcrossing, via a new technology that can be expected to be applicable to a wide range of crop plants.
Keywords
Base Sequence; Chromosome Segregation/genetics; CRISPR-Cas Systems/genetics; Cucumis sativus/genetics/virology; Disease Resistance/genetics; Eukaryotic Initiation Factor-4E/genetics; gene editing; Genotype; homozygote; Mutation/genetics; Plant Diseases/virology; Plant Viruses/physiology; Plants, Genetically Modified
Periodical
Molecular plant pathology
Periodical Number
7
Page range
1140ā€“1153
Volume
17
DOI
10.1111/mpp.12375

Techniques

ID Corresponding Author
Country
Plant Species GE Technique
Sequence Identifier
Trait
Type of Alteration
Progress in Research
Key Topic
48 Gal-On, Amit
Israel
Cucumis sativus CRISPR/Cas9
elF4E
Virus stress tolerance - tolerant to cucumber vein yellowing virus
SDN1
Market-oriented
Biotic stress tolerance