Platform to Accelerate Discovery of Tailored Industrial Enzymes (PAD-TIE)
Category: Other
Developers: Los Alamos National Laboratory
Product Description:Platform to Accelerate Discovery of Tailored Industrial Enzymes (PAD-TIE) is a rapid, low-cost, and easy-to-use screening toolkit for engineering improved enzymes. PAD-TIE scans many variants to discover highly efficient enzymes tailored for industrial use—making industrial processes, such as enzymatic plastic recycling, more efficient and economical. According to a Los Alamos web page on the technology, PAD-TIE evaluates enzyme efficiency, stability, and production potential in a single process, ensuring that only the most viable candidates move forward. Validated in lab-scale bioreactors that replicate industrial recycling environments, PAD-TIE supports sustainable PET recycling and upcycling, breaking plastic down into its fundamental building blocks (monomers) for reuse: without the need for harsh chemicals or energy-intensive processes. The technique has been validated in lab-scale bioreactors that replicate industrial recycling environments. It supports sustainable PET recycling and upcycling, breaking plastic down into its fundamental building blocks (monomers) for reuse: without the need for harsh chemicals or energy-intensive processes.
Developers: Los Alamos National Laboratory
Product Description:Platform to Accelerate Discovery of Tailored Industrial Enzymes (PAD-TIE) is a rapid, low-cost, and easy-to-use screening toolkit for engineering improved enzymes. PAD-TIE scans many variants to discover highly efficient enzymes tailored for industrial use—making industrial processes, such as enzymatic plastic recycling, more efficient and economical. According to a Los Alamos web page on the technology, PAD-TIE evaluates enzyme efficiency, stability, and production potential in a single process, ensuring that only the most viable candidates move forward. Validated in lab-scale bioreactors that replicate industrial recycling environments, PAD-TIE supports sustainable PET recycling and upcycling, breaking plastic down into its fundamental building blocks (monomers) for reuse: without the need for harsh chemicals or energy-intensive processes. The technique has been validated in lab-scale bioreactors that replicate industrial recycling environments. It supports sustainable PET recycling and upcycling, breaking plastic down into its fundamental building blocks (monomers) for reuse: without the need for harsh chemicals or energy-intensive processes.
