In example implementations, an apparatus is provided. The apparatus includes a channel, a reagent chamber, a synthetic jet channel, and an energy source. The channel is to hold a cell. The reagent chamber is coupled to the channel and stores a reagent. The synthetic jet channel is coupled to the channel and the reagent chamber. The energy source is located in the synthetic jet channel to heat a liquid in the synthetic jet channel to create a synthetic jet that carries the reagent through towards the cell to inject the reagent into the cell.

There is provided a new material that can form a finer pattern and can be applied to adsorption/adhesion control of various cell species, proteins, viruses, and the like without the limitation of the light source. A light-degradable material comprising: a moiety that is capable of bonding to a surface of a substrate through a siloxane bond; and a structural unit of Formula (2-a) and/or Formula (2-b): ##STR00001##
(where R.sub.2 to R.sub.4 are saturated linear alkyl groups; X is a hydrogen atom or an alkyl group; Z is a carbanion or a sulfo anion; Q is an ester bond group, a phosphodiester bond group, an amido bond group, an alkylene group, or an phenylene group or a combination of these divalent groups; m.sub.1 is an integer of 1 to 200, and n is an integer of 1 to 10).

The present invention relates to a device and a method for inducing pluripotent cells using energy and, more specifically, has an effect of inducing new type pluripotent cells having pluripotent characteristics by applying energy such as ultrasonic waves, lasers or heat treatment to differentiated cells.

Disclosed herein is an industrial scale process of cultivating cultivating Ganoderma lucidum mycelia. As high as 15 Kg dried Ganoderma lucidum mycelia may be produced from about 300 liters liquid culture every 30 days, and the resulting dried Ganoderma lucidum mycelia are rich in triterpenoids that include at least ganoderic acid S (GAS), ganoderic acid T (GAT), ganoderic acid Me (GAMe), ganoderic acid R (GAR), and ganodermic acid S (GMAS).

Disclosed is an ultra-violet (UV) light sterilisable fluid-guiding element (100, 200, 300, 400, 500) configurable to form a part of a normally closed bioprocessing fluid system, at least a portion of the element being formed from a material which is transmissive to UV light, said at least one portion of the element including one or more surfaces (134) configured to contact and guide fluids within the closed system. The element further includes at least one UV light emitting diode (LED) (154) mounted in, on, or adjacent the at least one portion and has sufficient light output to sterilise at least the one or more surfaces (134).

An apparatus for transferring bio-ink onto a target having a slide defining a receiving area of a film of fluid containing inhomogeneities, a laser source associated with controlled diversion means and an optical block for focusing in a plane of the fluid film in order to apply a local pulse, wherein the apparatus also comprises imaging means and means for analyzing images in order to recognize the geometric positions of the inhomogeneities in the film, and an observable feature of each of the inhomogeneities (size, shape factor, type of particles, age of the particle, density, type of biomaterial, molecule, etc.) recognized by the appropriate analysis means. The apparatus further comprises selection means for selecting at least one of the inhomogeneous areas, and means for controlling the diversion in order to direct the laser beam toward the position of the inhomogeneous area and trigger the firing of the laser.

A method for monitoring species of algae for stress comprises growing a test set of algae of a given species, applying a stress of a predetermined kind to some of the algae, and irradiating the algae at a predetermined first set of wavelengths. The algae are then monitored at a predetermined second set of wavelengths to detect fluorescence and/or absorbance carried out on the first set of wavelengths by the stressed algae. The detected fluorescence and/or absorbance is compared for each irradiation wavelength between the stressed algae and unstressed algae to find signs indicating the applied stress. There is then a stage of searching through combinations of respective irradiation wavelengths and detected wavelengths to find a minimal set of irradiating and detected wavelengths that detects the stress. The smallest size set is then used in irradiating further sets of algae of the tested species to detect the given stress.

CO.sub.2, and other gases are utilized with mineral feedstock to synthesize products. The synthesized products, as the result of liquid, solid, gas photo-chemical reactions within the advanced bioreactor of the disclosed embodiment, are precipitated raw material for multiple consumer and industrial products. Waste heat, pressure and torque produced from the bioreactor are utilized for generating electricity and/or heat through a combination of energy recovery devices. Energy recovery devices offsets and lower the cost of operating the reactor as the disclosed reactor integrates photolysis via ultra-violet light, as an integral component, of a reactor system, composed also of an active mixer-agitator assembly, pressure and vacuum vessel chamber, heat source, and ports for media ingestion. The disclosed reactor is designed be conducive to transforming gaseous, solid, and liquid feedstock, like carbon dioxide —CO.sub.2, and other feedstocks that are inorganic and/or organic in an aqueous medium, into inorganic and organic products.

A cell culture tool configured to be produced in a simple facility to obtain a cell mass having a desired shape. The cell culture tool includes a cell culture base layer that contains a cell culture base. The cell culture base layer has a cell adhesive area to which a cell is adherable and a cell adhesion inhibitory area where cell adhesion is inhibited. The cell adhesion inhibitory area includes a modified product of the cell culture base.

This disclosure features methods and compositions for treating diseases of the gastrointestinal tract with an immunosuppressant.