Inside Inscripta: Eileen Spindler, Applications
We hope you’re enjoying getting to know the amazing people on the Inscripta team! Today we’ll catch up with Eileen...
Improving Protein Production in Yeast with Targeted and Exploratory Approaches
Recombinant proteins have many applications, from enzymes and protein therapeutics to meat and materials alternatives, and there is significant interest...
Inscripta Technology Helps Scientists Characterize the Evolution of Bacterial Persistence
Antibiotic resistance is a growing problem worldwide. Although it has not been studied in as much depth, bacterial persistence offers...
In New Publications, Scientists Report Use of MAD7™ Nuclease for Plant Editing and More
A key part of Inscripta’s mission is making genome engineering more accessible. To that end, we released the MAD7™ nuclease...
New Market Report Highlights Opportunity in Synthetic Biology Field
A recent industry report released by the equity research team at William Blair offers a great view of the synthetic...
New Market Report Highlights Opportunity in Synthetic Biology Field
A recent industry report released by the equity research team at William Blair offers a great view of the synthetic...
Inside Inscripta: Tyson Shepherd, Applications
Our employee profile series is still going strong! Let’s chat with Tyson Shepherd, Senior Scientist in Microbial Applications Development. The...
Introducing BioCantor, a Python Library to Navigate Data Coordinate Systems
We’re excited to release a new tool designed by Inscripta’s scientists to help bioinformaticians and genomic scientists work more easily...
Heterologous Protein Optimization with Inscripta’s Onyx Workflow
Optimization of protein function and expression is important for academic research as well as industrial applications. Historically, heterologous proteins have...