Our TechnologyPioneering the Future of Agriculture
Revolutionizing Crop Development with Precision and Scale
With our groundbreaking gene-editing platform, we are redefining what’s possible in plant breeding. Our approach is not just about making incremental changes: it’s about unlocking the full potential of plant genomes. Leveraging advanced bioinformatics, sophisticated CRISPR libraries, and precise genome editing techniques, we provide genome editing at the genome-wide scale.
Moreover, our approach allows for the simultaneous targeting of multiple members within gene families. This enables us to generate thousands of plants, each modified in multiple genes, overcoming the challenges of genetic redundancy, and bringing forth a new era of climate-smart crop varieties.
Pillars of Our Approach
1. mapping
Genome Analysis
Utilizing advanced bioinformatics and machine learning, we conduct comprehensive gene mapping to identify traits for enhancement.
2. analysing
Bioinformatics Algorithm
Our tailored CRISPR libraries are optimized to target specific gene families, addressing genetic redundancy with unparalleled precision.
3. constructing
Genome Editing
We employ a novel approach, introducing multiple CRISPR constructs into plant genomes, achieving targeted large-scale gene editing to effectively enhance plant traits.
4. identifying
Integrated Breeding
Our process culminates in the identification of desirable plant traits and integrating them into breeding programs. Our products are in accordance with contemporary agricultural standards, and do not fall under the category of transgenic plants.
Phylogenetics
Phylogenetic-based gene family clustering per crop
Multi-targeted sgRNA library
Using proprietary bioinformatic tools
Cloning sgRNA oligo high-throughput libraries
Synthesize sgRNA libraries, amplify and clone
Plant Transformation
Each sgRNA, expressed in a single plant, targets a sub-family of 2-8 genes
Phenotypic Screen
sgRNA sequencing and phenotyping evaluation
An End-to-End Disruptive Approach to Future Crops
Our Technology Bypasses Redundant Phenotypes and Functions
Our Proof of Concept
Tomatoes
Silencing various transporters resulted in a first generation library of novel phonotypes.
Rice
Transporter and nutrient oriented PoC with initial promising results.
Second generation testing to begin soon.