A new era of biological discovery and production is coming to your benchtop. Revolutionary digital genome engineering tools transform how we face complex global challenges and yield solutions that benefit all, such as improved crops and better foods, sustainable materials and fuels, and new and improved ways to treat disease.
Get unmatched scientific power and throughput in your lab, with a fully automated workflow including an instrument, reagents and software. Overcome current challenges and limitations of gene editing to discover new biology that benefits all humanity. Transform the status quo through constructive genome engineering that solves major societal challenges.
Get unmatched scientific power and throughput in your lab, with a fully automated workflow including an instrument, reagents and software. Overcome current challenges and limitations of gene editing to discover new biology that benefits all humanity. Transform the status quo through constructive genome engineering that solves major societal challenges.
Services
About Us
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We are giving researchers the power to ask trailblazing questions and find solutions that support decarbonization, health and well-being, energy production, food security, and environmental management. Inscripta is built on the idea that having mastered the reading of genomes, the next revolution in biology will come from writing them.
Technology
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This is an exciting time for biology - after centuries of empirical approaches, we can now actively participate in engineering biological systems. We are taking inspiration from the molecular mechanisms that evolved in nature over billions of years and using those to guide our methods in the lab. By removing the technical barriers, we let scientific questions drive the research.
Genome Editing
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Biological organisms have been subject to human manipulation for thousands of years through artificial selection and breeding. With the discovery of DNA, the quest to understand the relationship between gene sequences and their function has become the focus of biology. We can now actively change the genetic code and ask questions about how that impacts the resulting phenotype.
How does CRISPR work
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CRISPR editing is a brilliant and innovative adaptation of what nature already does well: nucleic acid base pair recognition, enzymatic cleavage, and DNA repair mechanisms. The editing process can be separated into two parts: cutting and repair. Both of these steps contain crucial elements for successful genome editing.
The MAD7™ Nuclease
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There is a wide variety of naturally occurring and engineered CRISPR nucleases. This diversity can be useful when choosing the right nuclease for editing a specific organism or accessing different CRISPR applications. CRISPR nucleases vary in size, corresponding gRNA structures, PAM requirements, and other characteristics.
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