Abstract: A combinatorial pipettor device for the collection of a sample adapted for use with different size microtiter plates. The device comprises an upper plate having first and second halves, each half independently movable between an upper and a lower position, and a lower plate having tip connectors for the attachment of collecting tips. Also included are sample collector members having proximal ends and distal ends and a mechanism for moving at least one half of the upper plate between the upper and lower positions. Proximal ends of the sample collector members are held by the upper plate and distal ends of the sample collector members are engagable with the lower plate such that when at least one half of the upper plate is moved from the upper to the lower position, the corresponding sample collector members are lowered, thereby facilitating collection of a sample into a tip attached to one of the connectors.
Abstract: The invention concerns a device for collection of magnetic particles. The invention further concerns a system for transfer of material from a plurality of source vessels to a plurality of target vessels, the device comprising a plurality of collecting members each of which can be manipulated independently. The invention further concerns a method for detection of biological entities being fluorescent label, wherein the entities are bound to magnetic particles. The fluorescent emission is concentrated by clustering the magnetic particles utilizing magnetic force.
Abstract: The present invention concerns a method for separating at least one species of biological entities from a sample solution, by contacting the sample with a matrix of magnetic particles formed on a substrate such as a sheet a gel, etc. The particles in the matrix are coupled to entities capable of specifically binding to the species of biological entities to be separated. The separation is carried out either for detection purposes for obtaining separately each species of biological entities or for synthesis purposes. The invention further concerns matrices of magnetic particles formed on various substrates and kits for use in the method.