Selected customers stories

Integration with Twist and LabCyte

Learn how Arzeda leveraged technology from TeselaGen, Labcyte and Twist Bioscience to accelerate their synthetic biology workflow and build a better DNA assembly line. The integrated solution speeds up the workflow, reduces errors and overall cost. Equally important, rather than hiring a large team to design and implement this platform, it’s a plug-and-play solution that Arzeda got up and running in around two weeks.

Using Machine Learning for Optimization of Cellular Factories To Produce Industrial Products

The Jensen Lab at DTU Biosustain, also known as Synthetic Biology Tools for Yeast (SBTY), develops engineering tools and high-resolution data that can dramatically increase the speed, efficiency and rationale by which yeast-based cell factories are screened, selected and engineered. Learn how TeselaGen collaborated with DTU Biosustain using machine learning to optimize these cellular factories.
DTU Biosustain building
Class using Teselagen

Teaching Synthetic Biology to Scientists of Future

Joshua Heazlewood, Ph.D., is an Associate Professor at the University of Melbourne, Australia. He joined the university in 2013, as an ARC Future Fellow at the School of Botany. As part of his teaching responsibilities, he inherited a master’s-level class on Advanced Molecular Biology Techniques that was – in a word – boring. The course had become stale and no one was interested in taking it. It needed some re-invigorating. So in 2018, Joshua reached out to TeselaGen to help him and his students.

From Waste To Fuel: Accelerating Synthetic Biology to reduce human carbon footprint

Historically, waste gases were not considered as potential feedstocks because the conditioning required to clean up these gases before processing made their use economically unfeasible. LanzaTech’s expertise in fermentation scale-up, reactor design, machine learning, and synthetic biology has enabled the company to commercialize its recycling process and demonstrate the production of over 100 different chemicals.

Beyond E.coli: Domesticating non-model species for Industrial Production

MicroByre seeks to change the bioengineering landscape by converting non-model species into genetically tractable strains within which the techniques from model organisms can be practiced. This will empower bioengineers to use new model species capable of addressing some of society’s most intractable problems such as climate change.

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