This invention relates to compositions of matter, methods, modules and instruments for automated mammalian cell growth and mammalian cell transduction followed by nucleic acid-guided nuclease editing in live mammalian cells.

Compositions of matter, methods, modules, and automated instruments may relate to synthesizing a library including an editing cassette including a different gRNA and donor DNA pair, amplifying the editing cassette in a partition separate from other editing cassettes in the library, adding nuclease to the partition, and adding lipofectamine to the editing cassette and nuclease to form a lipofectamine/nucleic acid/nuclease complex. A microcarrier coated in extracellular matrix or a cell adhesion molecule coating may be added to the lipofectamine/nucleic acid/nuclease complex. Cell growth material, the microcarrier, and mammalian cells may be transferred to a growth module in an automated closed cell editing instrument via a liquid handling system. The mammalian cells may be allowed to seed on the microcarrier. Conditions may be provided for the mammalian cells to take-up and be edited by a payload associated with the lipofectamine/nucleic acid/nuclease complex. The mammalian cells may be detached from the microcarrier.

The application provides a system for continuous cell production, comprising: a culture container; and a polymer blended layer arranged on the inner surface of the culture container; wherein, the polymer blended layer is a pH-responsive polymer blended with nylon. Additionally, a method for continuous cell production using the system of the present application is provided.

The invention provides a microfluidic device comprising at least one cell culture chamber, the at least one cell culture chamber being connected to at least two openings, the device being configured to supply at least one physiologically active substance from at least one of the openings to the at least one cell culture chamber in such a manner as to form a concentration gradient or concentration gradients in the at least one chamber when cells and a hydrogel are introduced into the at least one cell culture chamber to culture the cells in a 3D-gel medium.

In a liquid supply device, the pump unit has a discharge port for discharging a fluid. The connecting portion is connected to the discharge port. The first and second pipe portions and branch off from the connecting portion. The first introduction unit is connected to the first pipe portion and introduces a first liquid into the first flow channel at a flow rate corresponding to a flow rate of the fluid flowing through the first pipe portion. The second introduction unit is connected to the second pipe portion and introduces a second liquid into the first flow channel at a flow rate corresponding to a flow rate of the fluid flowing through the second pipe portion. The stopping portion stops the flow of the fluid in the second pipe portion.

According to one embodiment, a method for the establishment of an induced pluripotent stem (iPS) cell includes a suspension liquid feeding step, an inducing factor feeding step, and an establishing step. The suspension liquid feeding step feeds a suspension liquid containing a target cell. The inducing factor feeding step feeds an inducing factor to a trap. The trap traps the target cell contained in the suspension liquid fed in the suspension liquid feeding step. The establishing step establishes an iPS cell by introducing the inducing factor, which has been fed to the trap, into the target cell trapped by the trap.

The present invention provides a pigmentation skin model that comprises: a first cell group containing fibroblasts damaged by light irradiation, said first cell group being seeded on a first cell culture substratum; and a second cell group containing melanocytes and keratinocytes, said second cell group being applied onto the first cell group. The present invention also provides a method for producing the pigmentation skin model, and a method for evaluating a factor for treating or preventing pigmentation of the skin, said method comprising using the pigmentation skin model.

The present invention relates to a device which can serve as a model of a hemato-encephalic barrier (HEB) comprising two compartments in which certain cell types are arranged. The invention also relates to the method for preparing said device and the use thereof as a model of the HEB.

The invention relates to the field of cultivating biological cells and tissues having an organ-like function on a microphysiological scale and provides a microphysiological reproduction of the choroid and the blood-retinal barrier as an in vitro test system.

The invention relates to culturing brain endothelial cells, and optionally astrocytes and neurons in a fluidic device under conditions whereby the cells mimic the structure and function of the blood brain barrier. Culture of such cells in a microfluidic device, whether alone or in combination with other cells, drives maturation and/or differentiation further than existing systems.