A method and apparatus for locating and selecting a colony of microorganisms on a culture dish and identifying microorganisms in said selected colony using MALDI. The method comprises the automated steps of locating and selecting a colony of microorganisms on a culture dish; obtaining a sample of said selected colony of microorganisms; depositing at least some of said sample of said selected colony of microorganisms on a target plate; and transferring said target plate with said sample in an apparatus for performing MALDI for identification of said sample of said selected colony of microorganisms. A sample of a colony of microorganisms is automatically deposited on a depositing spot such that the sample covers at most approximately half of said one of the depositing spots of the target plate. A suspension of a sample of microorganisms is automatically prepared by automatically picking the sample with a picking tool and submerging the picking tool with said sample in a suspension, after which the picking tool is vibrated in vertical sense only to release the sample from the picking tool.

Methods and systems for managing a petri-dish. Embodiments herein disclose a RFID tag affixed on the petri-dish, wherein the RFID tag has a thin formfactor, so as not to interfere in the use and operation of the petri-dish and a sufficiently large readability range. Embodiments herein disclose methods and systems for RFID based asset tracking of petri-dishes in a laboratory/pharmaceutical/manufacturing environment, wherein the movement of the petri-dishes are tracked automatically with minimal manual intervention.

A method of inducing expression of a calcium channel and/or a calcium pump in a cell includes: irradiating the cell with light in a wavelength range of 315-325 nm. The calcium channel and/or the calcium pump is/are at least one selected from the group consisting of dihydropyridine receptor (DHPR), voltage-gated calcium channel (VGCC), ryanodine receptor (RYR), and sarcoendoplasmic reticulum Ca.sup.2+-ATPase (SERCA).

Provided is a technology allowing for stable supply of brain microvascular endothelium-like cells. This coating agent for inducing differentiation of pluripotent stem cells into brain microvascular endothelium-like cells contains at least one component of a Laminin-221 fragment or an N-terminal Vitronectin.

A cell culture vessel according to an embodiment of the present invention comprises: a base substrate; at least one deposited graphene layer provided on the base substrate; and a culture substrate comprising at least one electrostimulation input terminal coupled to a working electrode and configured to transmit electrical stimuli to the deposited graphene layer.

A fluidic cartridge comprises a fluidic disk having a plurality of alignment openings; a fluidic chip comprising a body, one or more channels formed in the body in fluidic communications with input ports and output ports for transferring one or more fluids between the input ports and the output ports, and a plurality of protrusions formed on the body and received in the alignment openings of the fluidic disk for aligning the fluidic chip to the fluidic disk; an actuator operably engaging with the one or more channels for selectively and individually transferring the one or more fluids through the one or more channels from at least one of the input ports to at least one of the output ports at desired flow rates; and a tube member defining a cylindrical housing for accommodating the fluidic disk, the fluidic chip and the actuator therein.

Hematopoietic stem cells are extremely difficult to maintain or expand in vitro. Two observations in traditional long-term bone marrow cultures strongly suggest that macrophages may be at the root of the problem: First, micromolar concentrations of hydrocortisone improve the longevity of long-term bone marrow cultures and hydrocortisone is known as a potent inhibitor of macrophage production of pro-inflammatory cytokines, chemokines, enzymes, nitrogen oxide and reactive oxygen species and redirects macrophages to the anti-inflammatory differentiation pathway; Second, the decline of hematopoiesis in long-term bone marrow cultures coincides with the development of large numbers of adherent and non-adherent macrophages including foreign body giant cells. These adherent macrophages and foreign body giant cells exhibit well-spread morphology, contain numerous lysosomes and phagolysosomes in the cytoplasm and are metabolically active. We hypothesize that hydrocortisone fails to suppress all aspects of macrophage pro-inflammatory activation/differentiation, resulting in the production of inhibitors or toxins of hematopoiesis. Macrophage adhesion in cell culture depends on serum proteins pre-adsorbed to the tissue-culture-treated polystyrene (TC-PS), which adsorbs proteins via mostly hydrophilic interactions. TC-PS is used in almost all tissue culture devices currently available. Cellular adhesion provides a strong stimulus for metabolic, mitotic and certain gene activities. Therefore, we seek to reduce macrophage adhesion and activation by culturing bone marrow cells in tissue culture devices composed of or covered with polymers with very different protein-binding characteristics than TC-PS such as polyethylene (PE) and other polyolefins, the latter bind proteins via exclusively hydrophobic interactions. As a result, polyolefins bind different proteins and in lower quantities than TC-PS. Furthermore, PE does not contain additional chemical features like the phenolic rings of polystyrene that might contribute to protein binding and macrophage adhesion/activation. Using these new culture devices, we developed a drastically different long-term bone marrow culture, the “Low Macrophage-Adhesion/Activation” (LoMAC) bone marrow culture. In LoMAC bone marrow culture, hematopoiesis continues for months to over a year and hematopoietic stem cells are amplified gradually. In stark contrast to traditional long-term bone marrow cultures, de novo erythropoiesis and megakaryocytopoiesis proceed robustly in the LoMAC bone marrow culture and B-lymphocyte and natural killer cell progenitors can be continuously derived. Thus, these new culture devices and the associated LoMAC c

A microbiological testing device for testing a liquid to be analysed that is liable to contain at least one microorganism, includes a closed inner space, a microbiological filtration member and an inlet port. The device has a nutritive layer in contact with the filtration member, and in that, in a configuration for providing the device an open/close member of the inlet port is in a closed state; the absolute gas pressure inside the closed inner space is strictly less than the standard atmospheric pressure, such that the device is able to create suction through the inlet port during a first opening of the open/close member.

An illuminated container for the growth of biological entities is provided. The container is illuminated by a flexible light diffusing fiber. The light diffusing fiber includes a core formed from a silica-based glass and a cladding in direct contact with the core. The light diffusing fiber also includes an outer polymer coating layer surrounding the cladding, the outer polymer coating layer being the cured product of a liquid polymer blend including a scattering material and a luminophore.

A well plate comprises a plate main body and at least one cavity in an upper side of the plate main body. An upwardly open annular channel is formed in the at least one cavity, the annular channel being delimited at an inner circumference thereof by a closed circumferential wall. A horizontal outer circumference of the circumferential wall decreases from bottom to top up to an upper edge of the circumferential wall. Within the horizontal circumference of the circumferential wall, at its upper edge, at least two retaining elements connect upwardly to the upper edge of the circumferential wall. The at least two retaining elements are at a free horizontal distance to one another, and at least one of the at least two retaining elements is elastically supported at the plate main body in horizontal direction.