Welcome back to the ABLE Insights! In this edition, we'll be discussing our efforts to automate the transformation process with our ODM product, the Automated Transfer Robot (ATR).
The transformation of bacteria cells is a critical process in synthetic biology research, but it has traditionally been a manual and low-throughput activity. Many companies have attempted to automate this process, but most have had to use multiple equipment, including transfer robots and liquid handlers, to do so.
At ABLE Labs, we have a different approach. Our team is dedicated to defining and developing innovative products that streamline research workflows and increase efficiency. That's why we developed the ATR, a robot that can automate the transformation process with just one piece of equipment.
Introducing the Automated Transfer Robot (ATR)
The ATR is a flexible, easy-to-use liquid-handling robot that is specifically designed for the transformation of bacteria cells. It can transfer plasmid DNA and bacteria cells accurately and efficiently, eliminating the need for manual pipetting and reducing the risk of human error. With the ATR, researchers can transform bacteria cells in a high-throughput, automated manner, significantly improving the reproducibility and efficiency of their experiments.
Collaboration with KRIBB to Develop the Automated Transformation Robot (ATR)
Our collaboration with KRIBB(Korea Research Institute of Bioscience & Biotechnology) to develop the Automated Transformation Robot (ATR) is a prime example of how the ATR can be used to improve the efficiency and accuracy of experiments. With the ATR, researchers can transform bacteria cells in a fully automated manner, allowing for high-throughput growth and transformation. The system is used in KRIBB BioFoundry and is described in detail on our website.
At ABLE Labs, we're proud to be leading the way in lab automation innovation. Our focus on defining and developing new products allows us to provide researchers with cutting-edge solutions that simplify complex workflows and accelerate scientific discovery. We believe that the ATR is just the beginning, and we're excited to continue pushing the boundaries of lab automation in the years to come.
To learn more about the ATR and how it works in video, be sure to contact our team today. Don't miss out on the opportunity to streamline your transformation process and increase your research efficiency with the ATR.
What's Next?
As lab automation continues to evolve, it's important to stay up-to-date with the latest trends and technologies. In 2023, we expect to see continued growth in the use of robotics and artificial intelligence in laboratory settings, as well as the development of new tools and software to help researchers automate their workflows. At ABLE Labs, we'll continue to innovate and develop new solutions to meet the changing needs of the scientific community. Stay tuned for more updates and insights on the latest trends and technologies in lab automation. And don't forget to subscribe to our ABLE Insights for regular updates and insights on the latest trends and technologies in lab automation.
Check it out on LinkedIn
Welcome back to the ABLE Insights! In this edition, we'll be discussing our efforts to automate the transformation process with our ODM product, the Automated Transfer Robot (ATR).
The transformation of bacteria cells is a critical process in synthetic biology research, but it has traditionally been a manual and low-throughput activity. Many companies have attempted to automate this process, but most have had to use multiple equipment, including transfer robots and liquid handlers, to do so.
At ABLE Labs, we have a different approach. Our team is dedicated to defining and developing innovative products that streamline research workflows and increase efficiency. That's why we developed the ATR, a robot that can automate the transformation process with just one piece of equipment.
Introducing the Automated Transfer Robot (ATR)
The ATR is a flexible, easy-to-use liquid-handling robot that is specifically designed for the transformation of bacteria cells. It can transfer plasmid DNA and bacteria cells accurately and efficiently, eliminating the need for manual pipetting and reducing the risk of human error. With the ATR, researchers can transform bacteria cells in a high-throughput, automated manner, significantly improving the reproducibility and efficiency of their experiments.
Collaboration with KRIBB to Develop the Automated Transformation Robot (ATR)
Our collaboration with KRIBB(Korea Research Institute of Bioscience & Biotechnology) to develop the Automated Transformation Robot (ATR) is a prime example of how the ATR can be used to improve the efficiency and accuracy of experiments. With the ATR, researchers can transform bacteria cells in a fully automated manner, allowing for high-throughput growth and transformation. The system is used in KRIBB BioFoundry and is described in detail on our website.
At ABLE Labs, we're proud to be leading the way in lab automation innovation. Our focus on defining and developing new products allows us to provide researchers with cutting-edge solutions that simplify complex workflows and accelerate scientific discovery. We believe that the ATR is just the beginning, and we're excited to continue pushing the boundaries of lab automation in the years to come.
To learn more about the ATR and how it works in video, be sure to contact our team today. Don't miss out on the opportunity to streamline your transformation process and increase your research efficiency with the ATR.
What's Next?
As lab automation continues to evolve, it's important to stay up-to-date with the latest trends and technologies. In 2023, we expect to see continued growth in the use of robotics and artificial intelligence in laboratory settings, as well as the development of new tools and software to help researchers automate their workflows. At ABLE Labs, we'll continue to innovate and develop new solutions to meet the changing needs of the scientific community. Stay tuned for more updates and insights on the latest trends and technologies in lab automation. And don't forget to subscribe to our ABLE Insights for regular updates and insights on the latest trends and technologies in lab automation.
Check it out on LinkedIn