Next-gen 3D biology lab programs stem cells that differentiate and self-organize into organoid models with higher reproducibility and consistency for screening
SAN JOSE, CALIF. (PRWEB) APRIL 12, 2022
Molecular Devices, LLC., a leading provider of high-performance life science solutions, this month celebrates the one-year anniversary of its automated 3D imaging workcell, the Organoid Innovation Center, located at the company’s global headquarters. Since the Center's opening in April 2021, Molecular Devices has empowered researchers to automate sample prep and screening for assays performed on complex 3D biological models.
By adding the QPix® 400 Series Microbial Colony Picker and the ClonePix® 2 Mammalian Colony Picker to the Organoid Innovation Center, the platform now allows for early cell line development. This update expands the Center’s state-of-the-art methods and technologies to include automated workflows for synthetic biology, antibody discovery, and cell line development, in addition to those currently in place for automated organoid culturing and screening. Also, soon to be added is the recently launched CloneSelect® Imager FL with multi-channel fluorescence for day zero monoclonality verification, and confirmation of CRISPR edits, for a wide range of cell and gene therapy applications.
“We’re on the cusp of a transformational era of genomic medicine and gene-edited cell and gene therapies as innovative technology and specialized knowledge become more mainstream, making personalized therapeutic research and development increasingly accessible to more scientists,” said Dan O’Connor, Vice President, Drug Discovery, Molecular Devices. “By incorporating our synthetic biology-focused technology into the Organoid Innovation Center, we’re driving expanded capabilities for our customers as the industry heads toward an industrialization of biology, where automated synthetic biology, cell line development, and 3D biology research converge.”
New Product Highlights
These newly incorporated instruments expand the Center’s downstream, 2D cell line development capabilities, while automation and intuitive scheduling software ensure seamless interaction with systems that support upstream 3D biology culturing and screening applications. The Center now helps ease the transition from 2D to 3D biology for researchers, speeding up a transformative future for therapeutic drug discovery and development.
“As more cell and gene therapy products are approved by the U.S. Food and Drug Administration and enter the clinical market, Molecular Devices is poised to offer an end-to-end solution for automated discovery and scaleup to support the next great Investigational New Drug candidate,” O’Connor concluded.
The Organoid Innovation Center builds on Molecular Devices’ 39 years of experience delivering high-performance life science technology to customers around the world. To learn more about the Organoid Innovation Center, visit http://www.moleculardevices.com/organoid-innovation-center, or explore a wide range of organoid applications spanning brain, intestinal, lung, and more, here. For those attending SynBioBeta in Oakland, Calif., April 12 - 14, visit Molecular Devices at booth No. 5 to see the QPix system functioning within an automated workcell.
About Molecular Devices, LLC. Molecular Devices is one of the world's leading providers of high-performance bioanalytical measurement systems, software and consumables for life science research, pharmaceutical and biotherapeutic development. Included within a broad product portfolio are platforms for high-throughput screening, genomic and cellular analysis, colony selection, and microplate detection. These leading-edge products enable scientists to improve productivity and effectiveness, ultimately accelerating research and the discovery of new therapeutics. Molecular Devices is committed to the continual development of innovative solutions for life science applications. The company is headquartered in Silicon Valley, California with offices around the globe. To learn more about Molecular Devices, visit https://www.moleculardevices.com.