Embodiments of a modular tubular bioreactor system for culturing an aqueous culture of microorganisms are described herein. The tubular bioreactor may comprise culture tubes configured in a vertically spaced and horizontally staggered arrangement to optimize the application of light to the culture in phototrophic and mixotrophic cultivation.

The present invention relates to a modular system of closed photobioreactors, intended for indoor operation with LED lighting, in an uninterrupted and completely automated manner, with continuous monitoring of process variables, and feedback control of the CO.sub.2 and nutrients, of water temperature along the entire route of the photobioreactor, allowing maximum use of the indoor space where the system is arranged.

Systems and methods are disclosed for continuously optimizing the profile of an aqueous culture comprising microorganisms. The systems and methods comprise a controlled environment comprising a housing enclosing a lighting device and controlled temperature environment, and sensor modules for measuring culture and environment parameters. The sensor modules may be in communication with an automated computer control system to continuously optimize the microorganism culture profile.

The invention discloses microorganism cell culture conditions that result in increased cellular and media concentrations of a biological pigment. The invention has applications in use as a natural food colouring, as antioxidants in the food supplement industries, in the nutraceutical, pharmaceutical, and cosmeceutical industries, and a non-toxic ink. The method results in pigment that is relatively easy to separate from the microorganism culture.

Provided is a determination device including a determining section that determines a state of a cell, using information relating to uniformity of a detection target generated based on an optical intensity of radiation light from the detection target included in a biological cell irradiated with excitation light. In the determination device, the detection target may be proteins. The determination device may include an information generating section that generated information, and the information generating section may generate information that excludes information corresponding to a non-resonant background signal.

Bioreactors and methods for cultivating microalgae are provided herein. The bioreactor and methods include features and modifications to improve heterotrophic growth efficiency by providing a light signal.

A method of killing specific cells from among a group of cells cultured in a culture vessel by quick and brief laser treatment, the cell culture vessel comprising a main body and a to-be-irradiated layer attached to the main body, the to-be-irradiated layer containing an ingredient capable of absorbing laser light upon laser irradiation, the group of cells being cultured on the surface of the to-be-irradiated layer, the method comprising: applying laser light to a partial area of the to-be-irradiated layer directly below the specific cells.

An object moving device includes: a first drive mechanism configured to move a head unit in a first direction and in a second direction; a second drive mechanism configured to move an illumination unit in the first direction; and a third drive mechanism configured to move a camera unit in the first direction. A control unit controls the first drive mechanism to move the head unit on a first path. The control unit controls the second and third drive mechanisms to move the illumination unit and the camera unit on the first path between the first container and the second container. When the head unit and the illumination unit interfere with each other on the first path, the control unit implements control such that the head unit moves in the second direction and the head units moves in the first direction on a second path parallel to the first path.

Embodiments disclose a device for testing biological specimen. The device includes a sample carrier and a detachable cover. The sample carrier includes a specimen holding area. The detachable cover is placed on top of the specimen holding area. The detachable cover includes a magnifying component configured to align with the specimen holding area. The focal length of the magnifying component is from 0.1 mm to 8.5 mm. The magnifying component has a linear magnification ratio of at least 1. Some embodiments further include a multi-camera configuration. These embodiments include a first camera module and a second camera module arranged to capture one or more images of the first holding area and the second holding area, respectively. The processor may perform different analytic processes on the captured images of different holding areas to determine an outcome with regard to the biological specimen.

The invention relates to a bioreactor comprising a tank containing a culture medium in which a cell culture composed of algae cells is dispersed. The cell culture of algae has a concentration greater than 0.1 g/L in the culture medium, and each algal cell has a minimum absorption in a specific range of wavelengths of light. The bioreactor comprises a light source that is capable of emitting incident light in the direction of the tank, 60% of the photons of the incident light having a wavelength which is included in said specific range of wavelengths of light. The invention also relates to the use of the bioreactor for the production of biomass.