Life Sciences Integrated Solution_Galatek

Synthetic biology, known as the "key to life", marks the third revolution in biotechnology. After the discovery of the DNA double helix structure and the Human Genome Project, synthetic genome engineering has opened up a new understanding and manipulation of the life process. This subject integrates the knowledge of biology, engineering, informatics and other fields, and promotes the Life Sciences from the traditional observation and description to a new stage of predictability, quantitation and engineering. Synthetic biology has a broad application prospect. It shows great potential and value in many fields, such as health care, energy development, industrial production, agricultural improvement, environmental protection and information technology. Synthetic biology is gradually transforming into innovative technologies and products, providing new solutions and ideas for solving global challenges.

By integrating software and hardware, Galatek automation system can run the engineering cycle of "design-build-test-learn"effectively, accelerating the R&D and translation of synthetic biology. With the combination of dry and wet experiments, this technology brings a revolutionary innovation in synthetic biology through digital precise control, information-based whole process management and intelligent self-learning.

The Flex-S1000 high-throughput clone picking island has 2 versions-basic version and enhanced version. The basic version integrates the robotic arm, clone picker, consumable stackers and other equipment to support flexible configuration of the number of racks, and realizes automated experimental workflows such as monoclonal colony picking. The enhanced version can complete the experimental processes of PCR amplification, ligation, transformation, clone picking and strain culture, and promote the realization of the automated DNA assembly process with high fidelity and robustness.

The Flex-S2000 high-throughput plasmid construction functional island adopts a modular design, with the built-in 4-axis collaborative robotic arm, liquid workstation, PCR purification instrument, liquid dispenser, Automated sealer, clone picker, and consumable stackers, which can complete the full-process automation operation from PCR amplification, ligation, transformation, clone picking to strain culture. The software system supports strict time constraints to ensure the consistency of experimental conditions for each batch of samples, and effectively solves the problems of high cost, low efficiency and being error-prone caused by traditional manual operations. It can not only effectively improve the yield and accuracy of plasmid, but also promote the realization of the automated DNA assembly process with high fidelity and robustness.

The Flex-S2100 high-throughput strain screening functional island integrates dozens of automated equipment such as the liquid workstation, incubator, and microplate reader, which can automate the complete process of a strain screening experiment from clone picking, induced expression to reaction detection, and supports online strain amplification culture, strain density detection, strain backup and other operations. The automation system supports flexible dynamic scheduling, adds new experimental throughput, and meets the changing experimental requirements in practical applications. It is widely used in the breeding and research process of advantageous bacterial strains in enzyme preparations, food and beverage, bioenergy and other fields.

In today's fast-paced scientific landscape, the breakthroughs in 3D disease modeling demand a shift from traditional manual methods to advanced automated solutions. Galatek is at the forefront of this revolution, offering a game-changing approach to 3D cell culture and high-throughput drug screening that meets the rigorous standards of modern research.
Our innovative solution streamlines every aspect of 3D disease model development—from primary construction and passaging to cryopreservation, resuscitation, drug screening, and intelligent data management. By seamlessly automating and standardizing workflows, we empower researchers to achieve unparalleled quality, high throughput, and precision in their experiments while ensuring safety and compliance.
G-Entry Automated Organoid Culture and Detection Functional Island (Entry-Level)**: Take your first step into automation with G-Entry, which simplifies the 3D disease model processes of primary construction, passaging, and drug screening. This entry-level solution integrates individual devices manually and is perfect for medium-throughput scenarios, enabling efficient organoid culture, preparation, detection, and drug sensitivity testing.