A resealable microbial culture and observation device provides a growth platform for the growth, transportation, and inspection of a biologic organism. The device provides a tray having at least one growth medium depression for containing a growth medium and a biologic, at least one anerobic member depression for containing an anerobic member that creates an anerobic environment for the biologic, and a vent to enable filtered gas exchange with the ambient environment, so as to supplement the microbial growth conditions in the growth medium depression during single use or in stacked position of multiple devices; and further having a resealable label with a nontransparent portion for labeling, and a transparent portion for viewing the biologic.

In an illustrative embodiment, automated multi-module cell editing instruments are provided to automate multiple edits into nucleic acid sequences inside one or more cells.

A device for mechanically stabilizing a sensor port on a flexible bag including a rigid, substantially plate-shaped support part, which has a receptacle for a rigid connecting part integrated in the bag, in particular a sensor, and a holding mechanism on the receptacle. The device further includes a fastening element adapted to be attached to the holding mechanism of the support part such that it fixes the support part to the connecting part. The device may include a rigid support part which can be assembled from at least two parts, preferably struts. The parts surround a free area or an opening in which a rigid connecting part integrated in the bag can be placed. In an assembled state of the parts, the free area or the opening has a smaller diameter than the connecting part, so that the parts form a load-receiving mechanism for the connecting part.

A small-volume liquid container for dispensing a liquid medium, especially biological medium, into a bioprocessing system, especially into a bioreactor, wherein the liquid container provides an accommodation volume for the liquid medium, wherein the liquid container comprises two dimensionally stable container parts, which are movable relative to one another between an initial position and an end position, and an outlet connection for discharge of the liquid medium. It is proposed that the liquid container comprises a shape-changeable delimitation means which at least sectionally delimits the accommodation volume and which is connected to the dimensionally stable container parts in such a way that a relative movement of the dimensionally stable container parts to one another, causing a change in volume of the accommodation volume, is associated with a change in shape of the delimitation means.

A plurality of caps are provided each with a visual coding of color and/or indicia for use with different sizes of bottles at least in accordance with a height of the bottles from a closed bottom end to an open top end for engaging each of the caps. Each of the caps has a tube mounted to, or through, an aperture extending through a top closed end of the cap to extend a selected length enabling one end of the tube to reach or extend along an interior surface of the bottom end of any of the bottles of the height to which the cap is coded for use therewith. The other end of tube is extendable to a bioreactor container. Each of the caps has another tube or port to another aperture of the cap to provide an air vent with an optional air filtering device.

A magnetic particle separation system includes a magnetic field generating device having an upper surface with a receiving area formed thereon; and a magnetic field generating element disposed beneath the upper surface, the magnetic field generating element being configured to produce a magnetic field above the upper surface. A container assembly is disposed on the upper surface and includes: a flexible container having an outer wall with an interior surface that at least partially bounds an internal compartment, the outer wall having a front side and an opposing back side with the internal compartment disposed therebetween; a fluid inlet extending through the outer wall at the front side; a fluid outlet extending through the outer wall at the front side; and a first partition projecting into the internal compartment from the front side between the fluid inlet and the fluid outlet.

Disclosed herein are cell processing systems, devices, and methods thereof. A system for cell processing may comprise a plurality of instruments each independently configured to perform one or more cell processing operations upon a cartridge, and a robot capable of moving the cartridge between each of the plurality of instruments.

A gel tray for a bacterial transformation lab exercise has a plastic body with four parallel gel channels and four filling ports, one for each channel into which unmodified bacteria and heat-shocked bacteria can be injected by students along with appropriate reaction constituents to demonstrate transformation of the bacteria under visualization. A seal may be provided to seal the tops of the gel channels and a lid can cover the gel tray during incubation.

A method and apparatus of aseptic processing and production of cells in a non-sterile enclosure apparatus without chemical biocides is disclosed, by controlling the level of humidity throughout the enclosure to 25% relative humidity (RH) or less, and preferably 20% or 15% or less RH. In addition, the temperature is controlled to 37° C., and consistent gas flow is maintained the enclosure. Colony forming units from microbial contamination detected by environmental monitoring within the enclosure are significantly reduced in this method.

This disclosure relates to equipment utilized to manufacture chemical agents, particularly biopharmaceuticals, using Disposable Containers (DCs).