Discover the best crops and the fastest breeding based on machine learning bioinformatics algorithms and gene editing technology to creating plants with specified characteristics.
Genomic technologies that generate evolutionary purpose
How to Identify unique plant features
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How to identify genetic markers associated with desired traits
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Quick production of new varieties
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Improvement of plant characteristics
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How to get the desired plant variety in 1-3 years
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Increased disease resistance
Learn more ↗
Make the variety resistant to herbicides
Learn more ↗
Find the ideal variety for your field
Learn more ↗
How to Identify unique plant features
Learn more ↗
How to identify genetic markers associated with desired traits
Learn more ↗
Quick production of new varieties
Learn more ↗
Improvement of plant characteristics
Learn more ↗
How to get the desired plant variety in 1-3 years
Learn more ↗
Increased disease resistance
Learn more ↗
Make the variety resistant to herbicides
Learn more ↗
Find the ideal variety for your field
Learn more ↗
How to Identify unique plant features
Learn more ↗
How to identify genetic markers associated with desired traits
Learn more ↗
Quick production of new varieties
Learn more ↗
Improvement of plant characteristics
Learn more ↗
How to get the desired plant variety in 1-3 years
Learn more ↗
Increased disease resistance
Learn more ↗
Make the variety resistant to herbicides
Learn more ↗
Find the ideal variety for your field
Learn more ↗
How to Identify unique plant features
Learn more ↗
How to identify genetic markers associated with desired traits
Learn more ↗
Quick production of new varieties
Learn more ↗
Improvement of plant characteristics
Learn more ↗
How to get the desired plant variety in 1-3 years
Learn more ↗
Increased disease resistance
Learn more ↗
Make the variety resistant to herbicides
Learn more ↗
Find the ideal variety for your field
Learn more ↗
How to Identify unique plant features
Learn more ↗
How to identify genetic markers associated with desired traits
Learn more ↗
Quick production of new varieties
Learn more ↗
Improvement of plant characteristics
Learn more ↗
How to get the desired plant variety in 1-3 years
Learn more ↗
Increased disease resistance
Learn more ↗
Make the variety resistant to herbicides
Learn more ↗
Find the ideal variety for your field
Learn more ↗
CREATE NEW CROPS
ACCELERATE,PRECISE,LIKE YOUR NEED
Gene analysis AI
Gene editing
Selecting crop
Speed breeding cameras
New crop with naturally occurring gene combinations
Gene analysis
Marker-assisted breeding AI
New crop with fundamentally new, but natural characteristics
Speed breeding cameras
We develop plant varieties with specified characteristics in 2 years. This approach out performs classical breeding approaches by a factor of 10
We work with a probability of more than 90% of creating a variety with given traits, while classical selection depends on natural mutations and gives less than 5% probability
Collaboration with Plastilin costs up to 6 times less than working with crop breeding with classic approaches
Managing varieties for adaptation to climate change
We base our work on the consumer's needs by making the product with the best flavour, colour and nutritional content
Making tailored varieties for plant-based meat and alternative protein market
You don’t have to wait long for custoM crops
Combine storage, processing, analytics, bioinformatics, genotyping, sequencing for the maintenance of accelerated and directed breeding
Digital management of selection
Platform allows you to plan and record all field work, providing digital management of the breeding process, including end-to-end control and management from the warehouse to field research.
Advanced technologies for breeding based on bioinformatics and AI
Predicting phenotype from genotype
Search and evaluation of the effect of DNA markers on the phenotype. The predictive accuracy of our genomic evaluation algorithms is >80%.
Multiple acceleration of selection
Identification of DNA markers associated with phenotypic traits and construction of a selection program based on them. Selection of the best parent pairs for creating hybrids and new varieties.
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START NOW ↗
DOWNLOAD THE APP >
ONE PLATFORMFOR BREEDING
Whole genome sequencing
We Speed Up Selectionwith Genotyping & Sequencing
Our technologies allow you to get an improved variety in a short time instead of hundreds of years of evolution.
Increasing characteristics of crop
You can improve any characteristic of a crop if such a modification exists in nature.
Get the rapidly perfect crop
Get the most ideal plant with the characteristics you need in 1 year.
Order the genome editing of your plants now
Fill out the form and we will contact you soon.
CROPS PIPLINE
Up to 20% increase in growth rate.
Resistance to pathogens
Increased vitamin and fiber content.
by traditional breeding: classical selection, marker-mediated selection, genotyping
5-8 yr.
2-3 yr.
by PLASTILIN
Lettuce
1
2
3
4
5
5-8 yr.
2-3 yr.
by PLASTILIN
1
2
3
4
5
by traditional breeding: classical selection, marker-mediated selection, genotyping
5-8 yr.
2-3 yr.
by PLASTILIN
1
2
3
4
5
!!!
by traditional breeding: classical selection, marker-mediated selection, genotyping
5-8 yr.
2-3 yr.
by PLASTILIN
1
2
3
4
5
Reduced trait selection costs by ~ $1-3 million.
Formed a strategy to improve the trait based on the required characteristics.
by traditional breeding: classical selection, marker-mediated selection, genotyping
5-7 yr.
3-4 yr.
by PLASTILIN
Reduce trait selection costs by ~ $3-5.7 million.
Obtain a region-specific variety with the necessary traits with unique positioning.
by traditional breeding: classical selection, marker-mediated selection, genotyping
6-9 yr.
3 yr.
by PLASTILIN
Pea
Soybean
1
2
3
4
5
1
2
3
4
5
Rice
Tomato
!!!
!!!
by traditional breeding: classical selection, marker-mediated selection, genotyping
Rapeseed
SEED COOPERATIVE
Using the technology we have developed to create an optimal combination of necessary genes of a specified type within a single plant, we significantly accelerate the breeding process by carrying out natural evolution at an accelerated pace.
Our technology will allow you to improve varieties or components of hybrids simultaneously across several traits, such as:
Resistance to pathogens (viruses, bacteria, fungi)
Increase/decrease of biochemical components (protein, specific fatty acids, aromatic compounds, etc.)
Resistance to abiotic factors (drought, salinity, frost resistance, and others)
Modification of morphological characteristics (changes in stem length, changes in grain shape, etc.)
Resistance to specific class herbicides
Our technological platform has the potential to create new varieties of various crops, including the production of hybrids, with precise characteristics for cultivation in any region.
Varieties are updated every 4 years and possess the highest performance indicators (surpassing previously regionally adapted varieties, including those from foreign breeding), as well as characteristics that have not previously been on the market, such as resistance to herbicides.