Abstract: Processes for depositing functionalized nanoparticles upon a non-conductive substrate are disclosed herein. The processes may include the step of aerosolizing one or more particles into suspension within a gas, each of the one or more particles comprising functionalized nanoparticles having an electric charge. The processes may include the step the step of attracting the one or more particles onto a non-conductive substrate by a static electric charge opposite of the electric charge, wherein at least portions of the non-conductive substrate are having the static electric charge. The processes may include the step of depositing the functionalized nanoparticles onto the non-conductive substrate.

Abstract: A method of marking an inventory item includes providing an activatable smoke generator and a reservoir for holding a smoke fluid and adapted to provide a flow of smoke fluid to the generator. The reservoir contains a smoke fluid including a carrier nucleic acid having a uniquely identifiable sequence, and upon activation of the smoke generator, marker smoke is generated and targeted to flow over the inventory item. The method further includes activating the smoke generator to produce the marker smoke including the carrier nucleic acid so as to cause the marker smoke to flow over the inventory item and thereby to detectably mark the inventory item with carrier nucleic acid. The invention provides methods for stably binding and immobilizing deoxyribonucleic acid onto objects and substrates. The method includes exposing the deoxyribonucleic acid to alkaline conditions, and contacting the deoxyribonucleic acid to the object or substrate.

Abstract: A method of eluting biomolecules, such as nucleic acids from a biological sample by electroelution is provided. An example of a method includes various steps, such as loading the biological sample to a device comprising a housing, at least two conductive redox polymer electrodes operationally coupled to the housing and a biomolecule impermeable layer disposed on at least one of the electrodes. The loading of sample is followed by initiating an electrical connection to generate an electric field strength sufficient to elute biomolecules from the biological sample; and eluting the biomolecules from the biological sample.

Abstract: Methods and compositions are provided for preparing a biological specimen for microscopic analysis. These methods find many uses, for example in medicine and research, e.g., to diagnose or monitor disease or graft transplantation, to study healthy or diseased tissue, to screen candidate agents for toxicity and efficacy in disease modification. Also provided are reagents, devices, kits and systems thereof that find use in practicing the subject methods.

Abstract: An apparatus for preparing nucleic acids is provided which includes an anode, a cathode, and a space formed between the anode and the cathode. In addition, in the apparatus described above, the space includes a first porous film provided at an anode side, a second porous film provided at a cathode side, an inlet port which is proved in a region sandwiched between the first porous film and the second porous film and which introduces a specimen containing proteins and nucleic acids into the region, and a gel filter provided between the inlet port and the first porous film.

Abstract: Cassette bodies for use with electrophoresis apparatus can be formed of a single piece of molded or machined plastic. Such cassette bodies can include a plurality of channels that pass through the cassette body, from a proximal end to a distal end. Such channels can be defined by upper and lower chambers. The upper chambers can be in fluid communication with a first buffer pool through a semi-permeable membrane, and the lower chambers can be in fluid communication with a second buffer pool. An electric current can be passed through the first and second buffer pools, and then reversed, to perform an electrophoresis operation that can separate a biomolecule of interest from free probes, and provide for convenient collection of said biomolecule of interest.

Abstract: The invention relates to a method to produce gels for electrophoresis, wherein at least two monomer solutions are printed in a pattern on a substrate and the printed substrate is exposed to electromagnetic or ionising radiation so as to initiate polymerisation. The gels are useful for electrophoretic separation of proteins, peptides and/or nucleic acids.

Abstract: Materials and methods employing a polymerisable boronic acid species and a polymerisable linker are disclosed for making gels for resolving polyhydric species present in a sample by electrophoresis. The electrophoresis gels are capable of improving the effective separation of polyhydric species, especially those that show similar mobilities in standard electrophoresis or fluorophore-assisted carbohydrate electrophoresis (FACE). The use of template molecules in the reaction to form the electrophoresis gel with the boronic acid species and the polymerisable linker, so that the template molecule becomes incorporated into the electrophoresis gel, is also disclosed. The template molecule provides cavities in the electrophoresis gel that are generally complementary to the template molecule and which are adapted to reversibly interact with one or more of the polyhydric species present in the sample that have structures similar to the template molecule.

Abstract: Apparatus, systems and methods for performing gel electrophoresis using a horizontal monolithic electrophoresis unit that at least includes first and second buffer chambers containing buffer solution and a gel chamber containing a pre-cast flat gel, whereby all of these chambers are integrated into a pre-fabricated single unit that is ready for use. In performing gel electrophoresis, a top seal of this monolithic electrophoresis unit is removed, target samples are loaded into the pre-cast gel, interior walls of the unit are broken to allow buffer from anode and cathode chambers to combine within the gel chamber and cover the loaded gel matrix, a reusable lid is attached to the top surface of the unit, and an electrical connection is provided through the reusable lid into the horizontal monolithic electrophoresis unit for performing electrophoresis on the flat pre-cast gel.

Abstract: Techniques are generally described that include electrokinetic pumping an emulsion comprising an ionic fluid and a nonpolar fluid to promote flow of the ionic fluid by electro-osmotic flow and drag the nonpolar fluid by viscous drag forces. In some examples, the electrokinetic pump may be utilized to deliver one or more reagents within a fluidic reactor system, such as a micro-scale reactor system. In some additional examples, a reagent may be dissolved in the nonpolar fluid of a first emulsion and pumped through the electrokinetic pump to a mixing channel to allow the reagent of the first emulsion to react with a reagent of second emulsion to form a reactive product.

Abstract: The present invention relates to methods and systems for adding a reagent to an analyte in a gel. The invention further provides methods and systems for transferring liquid analyte reagent mixtures from a gel to a second vessel, such as a microtitre plate. The invention is useful in the manipulation of biological molecules such as nucleic acids, carbohydrates, proteins and peptides. In particular, the invention has utility for manipulating proteins and peptides in isoelectric focusing gels.

Abstract: Apparatus, systems and methods for performing gel electrophoresis using a monolithic electrophoresis unit that at least includes first and second chambers containing one or more buffer solutions and a gel chamber containing a pre-cast gel, whereby all of these chambers are integrated into a pre-fabricated single unit that is ready for use. In performing gel electrophoresis, a top seal of this monolithic electrophoresis unit is removed, followed by optionally removing a gel chamber seal from over the gel chamber, such that, buffer solution contacts the pre-cast gel within the gel chamber. Target samples are loaded into the gel chamber for contact with the pre-cast gel, a reusable lid is attached to the top surface of the monolithic electrophoresis unit, and an electrical connection is provided through the reusable lid into the monolithic electrophoresis unit for performing electrophoresis on the pre-cast gel.

Abstract: An electrophoresis gel matrix is provided for conducting proteomics, in particular the steps of separating and/or identifying proteins. The matrix comprises at least one chemical reagent being at least one of a denaturing, buffering, disaggregating, reducing, staining or dissolving reagent, and a volume of dimethylsulfoxide. The use of such a matrix, which is provided to be filled into an electrophoresis capillary being part of a microfluidic device for carrying out proteomics, leads to an enhanced resolution of proteins. The matrix is prepared adding a volume of dimethylsulfoxide ranging from 4% to 15%, preferably from 5% to 10%, most preferably from 6% to 8% with respect to the total volume of chemical reagents being comprised in the matrix. A method is provided for preparation of the matrix for conducting proteomics and a method is conducted to carry out proteomics by the use of this matrix.

Abstract: The present invention relates to a gel processing and transfer device, useful for the processing and transferring un-damaged and intact gel with minimal handling, said device comprising at least 4 separable components namely: a base plate for holding the gels with facility to drain out solution; a retaining rim with attached side-walls, said side walls are fastened to the base plate by a fastening means; at least one “O” ring fixed to the retaining rim to give leakproof arrangement with the base plate; and a lid to cover the assembly.

Abstract: A technical measure for gel electrophoresis shaping that can make the gel electrophoresis generate no bubbles including in the gel, and can make a gradient gel being more accurate and more stable in quality. When liquid gel enters a collecting trough under continuous driving of a roller in the collecting trough to be injected into a carrier sheet set from a gel output port and a narrow seam, former injected liquid gel can be pushed upwards by latter injected liquid gel, and an accomplished product of gel can be obtained. If the collecting trough is input with two liquid basic materials, the liquid gel continuously output into the carrier sheet set can have a gradient.

Abstract: An electrophoresis device having a separation chamber that is provided with at least one sample inlet on the inlet side and outlets (9) for the electrophoretically treated sample species on the outlet side. The separation chamber is divided into two chamber parts (7, 8) by at least one separation element (2) which is selectively permeable for specific sample species and has a continuous inner space extending longitudinally, especially a hollow fiber, from the inlet to the outlet side. Electrodes (4) are disposed parallel to the separation element on both sides of the separation chamber.

Abstract: The present invention is directed to a solidified hybrid gel for use in an electrophoresis process, having a solidified first gel portion juxtaposed with a solidified second gel portion. The first gel portion is capable of accommodating therein one or more samples for electrophoresis after said first gel portion is in solidified form, and the second gel portion is adapted for enabling an electrophoresis process to be applied to such a sample that may be accommodated in said first gel portion. Thus, the hybrid gel may be provided in a precast form to users, ready for use. The invention is also directed to methods for providing such a gel, apparatuses for accommodating such a gel, and methods for carrying out electrophoresis on a sample comprised in such a gel.

Abstract: A method and apparatus for concentrating dilute biomolecules in samples using electrophoresis are described. The method involves using the charged nature of the biomolecules to localize them to a microspot containing a dialysis membrane. The method and apparatus may also be used for identifying the presence of a biomolecule in a mixture or to quantitate the amount of a specific biomolecule in a mixture. The method and apparatus may also be used to produce a high throughput method for analysis and quantitation of a sample containing biomolecules.

Abstract: The apparatus includes a container (20) having a base (22) and sides (32) adapted to receive a plurality of plastic gel cassettes. An inlet port (12) is positioned in the base of the container and in fluid communication with the chamber and a baffle (11) is positioned over the inlet port, such that, in use, when gel forming fluid passes through the inlet port into the chamber, the baffle substantially reduces fluid turbulence and vertical fluid movement in the vicinity of the inlet port during flow of the fluid into the chamber. Pretreatment of the plastic cassette to remove polymerisation inhibitors prior to filling the same with fluid is by exhaustive vacuum treatment, optionally with nitrogen gas purging. This can be achieved conveniently using a vacuum chamber in which one or more plastic cassettes are placed. Optionally the vacuum chamber may be the container in which the cassettes are filled with fluid. No barrier films or chemical scavengers are required.

Abstract: A plugging medium is used to block the bottom opening of cassettes for vertical electrophoresis in order to facilitate filling the cassettes with separation media. Cassettes can be filled within a vertical electrophoresis system in which electrophoresis is conducted without further manipulation of the cassettes. The system includes a frame assembly mounted on a base containing a basin for plugging solution. The cassette is mounted to the frame assembly in a substantially vertical position such that a bottom opening of the empty cassette resides below the rim of the basin. The plugging solution (e.g. agarose gel) forms a plug within the bottom of the cassette to contain the separation medium.

Abstract: An apparatus for rehydrating and for performing electrophoresis on a gel strip includes a tray defining a plurality of parallel troughs configured to receive gel strips. Each trough defines a centrally located rehydration area and an electrode area disposed either side of the electrode area. End walls delimit the rehydration area of the trough from the electrode area. Electrode means including contact points adapted to contact either the gel strip in the electrode areas near the first and second end of the gel or a conducting or current carrying electrode bridge material which is in contact with the gel strip in the electrode areas. The electrode means are adapted to be connected to a means for supplying an electric current for imposing an electric potential in the strip between the electrodes.

Abstract: A method of injecting, isolating and separating mixed analytes from one or more samples. The method includes collecting successive fractions from each of a plurality of samples at discrete points in time. Fractions may be analyzed at the time of collecting, or later, using one or more detector systems. In one embodiment, a processor controls the elutions of fractions by modulating the migration field in a separation pathway. The processor also controls distribution of the fraction into a particular collection well of a plurality of collection wells.

Abstract: The present invention comprises gel cassettes comprising a base plate with channels to retain gels and an outer plate removably attached to the base plate to form closed chambers within the gel cassette. A gel is disposed within the cassette and subsequently eluted to resolve various samples loaded within each chamber. The outer plate is removed and the gel columns are exposed along the open face regions of the channels of the base plate. The gels are developed within the channels of the base plate as developing solutions communicate with the gel to form an image thereon.

Abstract: An electrophoresis gel is prepared with indicia incorporated into the gel itself rather than on a label or backing that is adhered to the gel. According to one method, the indicia are applied by first coating a solid surface that will be used as one internal surface of a gel mold with a solution of a water-permeable polymer, allowing the coating to dry, imprinting indicia in ink on the dry coating, and then forming the gel over the coating. In a variation on this method, the indicia are applied to a sheet which is then placed against the mold surface, the sheet being either a liner that is separable from the gel yet coated with the polymer or a sheet of the polymer itself. Alternatively, the indicia are printed directly on the mold surface without first coating the surface. This is achieved by using as a printing composition a mixture of an ink and a solution of a water-permeable polymer, then forming the gel over the imprinted indicia.

Abstract: An apparatus for expressing and unloading an isoelectric focusing gel from an electrophoresis gel tube includes a first support for supporting the gel tube, a plunger rod and a second support for supporting the plunger rod. The first support is mounted on a movable carriage and is moved toward the second support so that the gel tube slides onto the plunger rod to unload the gel from the gel tube. A plurality of gel tubes can be mounted in a rack and the rack coupled to the first support. The first support preferably includes a plurality of openings oriented with the gel tubes for guiding a respective plunger rod through the axial passage of the gel tubes. In preferred embodiments, the second support supporting the plunger rods is substantially stationary while the first support moves toward the second support so that the gel tubes slide onto the plunger rods.

Abstract: An apparatus and method is described for obtaining a preparative-scale, free-fluid electrophoretic separator with high resolution as well as an analytical capability commensurate with capillary zone electrophoresis. The electrophoretic focusing apparatus and method of the present invention features a separation chamber bounded by planar precision-pore, insulated screens, a plurality of purge chambers, a plurality of electrode chambers, and a plurality of pump means. The separation device of the invention is capable of high speed of separation and short residency of sample through the use of high voltage gradients which are produced by relatively low voltages applied across the narrow chamber dimensions. The present apparatus and method thus achieves high resolution of separation in an analytical or a preparative mode through a practically unlimited scale-up potential, and controls the adverse effects of Joule heating and electrohydrodynamics on the electrophoretic separation procedure.

Abstract: In pre-cast slab gel cassettes, the formation of pathways in which proteins can migrate between the gel and the walls of the cassette to form shadow bands is avoided by including a nonionic amphiphilic polymer in the monomer solution from which the gel is formed and casting the gel with the polymer included. The nonionic amphiphilic polymer also prevents the resulting gel from sticking to the walls when the gel is to be removed from the cassette after electrophoresis.

Abstract: An automated assembly for performing first dimension electrophoresis is described herein that includes a supply magazine, an electrophoresis tank and an automated transferring device that robotically transfers biological samples from sample vials retained in the supply magazine, and delivers the biological samples one by one to tube gels supported in a rack within the electrophoresis tank. The transferring device is configured to move in three dimensions with respect to the supply magazine and the rack for flexible sample delivery.

Abstract: An electrophoresis device is disclosed which separates cells, particles, proteins and other separands by collecting samples of decreasing electrophoretic mobility in a train of inverted cavities while an electric field is applied between said inverted cavities and one or more sample cuvettes containing a mixture of cells, particles, proteins or other separands. One circular plate is provided for the one or more sample cuvettes, and one circular plate is provided for the multiple collection cavities. The invention utilizes an innovative purification method that combines free electrophoresis and multistage extraction in an instrument capable of separating living cells, particles, and proteins in useful quantities at high concentrations. The purification method includes a method for dealing with electrolysis products, a technique for controlling the electrical energy input, and an approach for keeping the process isothermal.

Abstract: An apparatus, method and system electrostatically guide ionized droplets of a material in chemical or biological array fabrication. The apparatus comprises a plurality of deposition sites and an area surrounding the plurality of sites on a surface of a substrate. An electrostatic charge differential is generated on the apparatus between a selected set of deposition sites and the surrounding area remaining around the selected set. In some embodiments, the substrate comprises a photoconductive layer overlying a conductive layer. In other embodiments, the substrate comprises circuit paths interconnecting to electrode pads defined in the substrate. The electrode pads correspond to the plurality of deposition sites. The substrate may further comprise a membrane sheet that supports the deposition sites. The method further comprises exposing the array to the ionized droplets after the electrostatic charge differential is generated. The apparatus provides an electrostatically changeable deposition mask.

Abstract: A gel electrophoresis cassette (33) is disclosed which includes two plates (34, 35) and at least one seal (36) which separates these plates. The seal (36) is annular; it may be positioned essentially in the region of the outer edge of the plates (34, 35). For performing an electrophoresis in a second dimension following an isoelectric focusing in an first dimension, one of the plates (34, 35) includes a recess (37) for inserting a strip holder (1) having a base plate (4), which has a carrier surface (2) on which an IEF strip (3) is accommodated. The base plate (4) includes at least one stop (5) offset to a lower level in relation to the carrier surface (2) and a sealing surface (6). The strip holder (1) is insertable into this recess (37) in such a way that the stop (5) of the base plate (4) is applied to the outer surface of the plate (34, 35) and the sealing surface (6) presses tightly against the inner surface (38) of the recess (37).

Abstract: The invention relates to a method and a system, suitable for automation, for the, preferably preparative, separation of amphoteric macromolecules, e.g. proteins or peptides, wherein said method comprises the steps of: (a) subjecting said mixture of macromolecules to isoelectric focusing in liquid media; (b) collecting samples from step (a), said samples containing macromolecules separated on basis of isoelectric point, and transferring each sample to a channel (13) accommodating medium for electrophoresis, said channel (13) being part of a composite body (14); (c) subjecting said samples, contained in the channels (13) in said composite body (14), to electrophoresis; and (d) allowing electrophoresis to proceed until macromolecules are eluted from said medium for electrophoresis, and collecting fractions of the samples containing macromolecules.

Abstract: The invention provides an electrophoresis cassette to cast electrophoresis gels and to separate and analyze molecular components by electrophoresis. The electrophoresis cassette comprises a top plate assembly, a spacer and a bottom plate. The top plate assembly is seated to the bottom plate with the spacer there between to define a thickness of the electrophoresis cassette and to seal an outer perimeter of the assembly. The top plate assembly includes a cathode reservoir connected to a first terminal end of a central plate, and an anode reservoir connected to a second terminal end of the central plate. When the electrophoresis cassette is assembled, the cathode and anode reservoirs are in alignment with the first and second terminal ends of the central plate to facilitate formation of leak-proof seals between the reservoirs and the assembly components.

Abstract: A strip holder (1) is disclosed for accommodating a gel strip (3) for separating molecules using gel electrophoresis. The strip holder (1) disclosed is distinguished by including a baseplate (4), at least one stop (5), which is offset to a lower level in relation to the carrier surface (2), and at least one sealing surface (6), this stop (5) being implemented to be applied to counter surfaces (7) of an electrophoresis chamber, through which offset to a lower level of the stop (5) the installation depth of the strip holder (1) carrying a gel strip (3) into this electrophoresis chamber is determined and the sealing surface (6) ensuring a sealing installation of the strip holder (1) carrying a gel strip (3) into this electrophoresis chamber. Such a chamber (15) for isoelectric focusing of molecules in gel strips (3) is distinguished by including such a strip holder (1), a frame (16), and a cover (20).

Abstract: An improvement in the immunofixation electrophoresis procedure for detecting proteins in serum, urine or cerebral spinal fluids. Multiple samples from a single patient are placed on a gel and subjected to electrophoresis for resolving or separating proteins. A container has multiple receptacles which store, separately, various antisera. The separate antisera are withdrawn from the receptacles and simultaneously applied to the sample areas for subsequent incubation. The receptacles are preferably arranged in multiple series in the container, each series offset from, and partially overlapping, the receptacles of the next series.

Abstract: An automated apparatus for carrying out a first dimension electrophoresis separation of proteins and other macromolecules includes a supply magazine, an automated transferring device and an electrophoresis tank. The supply magazine includes a carousel for storing sample containers, a bar code reader, a holding device and an arm for transferring the sample container from the carousel to the bar code reader and the holding device. The transferring device includes a reciprocating pipette that is able to remove a sample from a sample container and deliver the sample to a selected gel tube in the electrophoresis tank. The tank includes a rack supporting a plurality of gel tubes and includes a chamber for containing a buffer solution in contact with one end of the gel tubes. The chamber includes a top wall with an opening having a guide surface for guiding the pipette through the chamber to the top end of the gel tubes.

Abstract: A method for analyzing a sample containing a plurality of analytes, comprises labelling the analytes with a detectable label, the label being chosen such that its detectability can be influenced by modifying the conditions of detection; separating the labelled analytes, before or after labeling,; and determining the presence of the separated analytes under the modified conditions and also, if desired, the unmodified conditions. Suitable detection apparatus comprises a support for a gel, means for detecting one or more analytes in the gel, and means for reducing the temperature of the gel to below ambient temperature, e.g., to no more than 0°C.

Abstract: A method of injecting, isolating and separating mixed analytes from one or more samples. The method includes collecting successive fractions from each of a plurality of samples at discrete points in time. Fractions may be analyzed at the time of collecting, or later, using one or more detector systems. In one embodiment, a processor controls the elutions of fractions by modulating the migration field in a separation pathway. The processor also controls distribution of the fraction into a particular collection well of a plurality of collection wells.

Abstract: Apparatus for conducting electrophoresis therein includes a chamber with a gel matrix. The chamber has a first sealed region and a second sealed region, and an anode within the first sealed region of the chamber and in contact with the gel matrix, and a cathode within the second sealed region and in contact with the gel matrix. At least one of the electrodes also provides ions for driving the electrophoresis. The apparatus further includes a matrix with at least one sparingly water-soluble salt.

Abstract: This invention is directed to isoelectric gateways for use in the alteration of the composition of the sample wherein the buffering capacity of such isoelectric gateways is not as limited as in an isoelectric membrane and the isoelectric gateways are suitably used in analytical and preparative-scale isoelectric focusing separations, or in the alteration of the composition of solutions that contain at least one amphoteric substance.

Abstract: An electrophoretic device and method for focusing a charged solute is disclosed. The device includes a first chamber for receiving a fluid medium, the first chamber having an inlet for introducing a first liquid to the chamber and an outlet for exiting the first liquid from the chamber; a second chamber comprising an electrode array, the second chamber having an inlet for introducing a second liquid to the chamber and an outlet for exiting the second liquid from the chamber; and a porous material separating the first and second chambers. The device's electrode array includes a plurality of electrodes and generates an electric field gradient profile which can be dynamically controlled. In the method, a charged solute is introduced into a fluid medium followed by the application of a hydrodynamic force. Opposing the hydrodynamic force with an electric field gradient results in solute focusing in the fluid medium.

Abstract: An apparatus and method is described for obtaining a preparative-scale, free-fluid electrophoretic separator with high resolution as well as an analytical capability commensurate with capillary zone electrophoresis. The electrophoretic focusing apparatus and method of the present invention features a separation chamber bounded by planar precision-pore, insulated screens, a plurality of purge chambers, a plurality of electrode chambers, and a plurality of pump means. The separation device of the invention is capable of high speed of separation and short residency of sample through the use of high voltage gradients which are produced by relatively low voltages applied across the narrow chamber dimensions. The present invention is also highly flexible, with operation in a constant electric field, continuous flow mode which permits scanning of the sample fraction content and display in a conventional histogram format.

Abstract: An electrophoretic device and method for focusing a charged solute is disclosed. The device includes a first chamber for receiving a fluid medium, the first chamber having an inlet for introducing a first liquid to the chamber and an outlet for exiting the first liquid from the chamber; a second chamber comprising an electrode array, the second chamber having an inlet for introducing a second liquid to the chamber and an outlet for exiting the second liquid from the chamber; and a porous material separating the first and second chambers. The device's electrode array includes a plurality of electrodes and generates an electric field gradient profile which can be dynamically controlled. In the method, a charged solute is introduced into a fluid medium followed by the application of a hydrodynamic force. Opposing the hydrodynamic force with an electric field gradient results in solute focusing in the fluid medium.

Abstract: Systems and methods for the electronic sample preparation of biological materials utilize the differential charge-to-mass ratio and/or the differential affinity of sample constituents to separation materials for sample preparation. An integrated system is provided for performing some or all of the processes of: receipt of biological materials, cell selection, sample purification, sample concentration, buffer exchange, complexity reduction and/or diagnosis and analysis. In one embodiment, one or more sample chambers adapted to receive a buffer solution are formed adjacent to a spacer region which may include a trap or other affinity material, electrophoretic motion of the materials to be prepared being effected through operation of electrodes. In another aspect of this invention, a transporter or dipstick serves to collect and permit transport of materials, such as nucleic acids, most preferably DNA and/or RNA.

Abstract: This invention provides a gel electrophoresis casting cassette for horizontal gel electrophoresis. The tray and lid of the cassette have locking means for securing the two parts to prevent damage to the slab gel and to create slab gels of uniform quality.

Abstract: An electrophoresis microgel is formed in a gel holder. The gel holder comprises a top substrate, a bottom substrate and a spacer disposed between the top substrate and the bottom substrate. The spacer establishes a separation of from 25 to 250 microns between the top substrate and the bottom substrate. A gel compartment is formed by partially sealing the top substrate to the bottom substrate, while leaving an opening for the introduction of unpolymerized gel. The gel compartment is then filled with an unpolymerized gel, which is polymerized in the gel compartment. Electrodes may be printed on the substrates, may be contacts to an exposed edge of gel, or may be applied through windows cut into one of the substrates. One type of gel holder makes use of graded beads having a diameter of 25 to 250 microns slurried in an adhesive such as an acrylate adhesive as the spacer. The slurry is printed onto the surface of one or both substrates to form a spacer of the desired shape, and then hardened using heat or light.

Abstract: The present invention provides electrophoresis systems and methods for forming at least one gel therein and for conducting electrophoresis on the gel without removing the gel from the electrophoresis system. The systems of the present invention include an electrophoresis platform which is a surface onto which one or more electrophoresis gels can be cast, and at least one gel casting/electrophoresis member for use in casting at least one gel on the electrophoresis platform and conducting electrophoresis on the gel. The present invention also includes optional members specific to other stages of the electrophoresis process, including a gel staining member and a gel drying member.

Abstract: Automated electrophoresis is performed by applying a cover plate to a substrate having a plurality of electrophoresis lanes, applying at least one sample to the plurality of electrophoresis lanes, electrophoresing the at least one sample, removing the cover plate from the substrate, and washing the substrate. Thereafter, the aforementioned steps are repeated using the same substrate.

Abstract: An improved plastic mold for the polymerization of electrophoresis gels. The improved electrophoresis gel mold comprises non-conductive plastic film. The film is supported by a rigid plastic frame. The frame maintains the integrity of the electrophoresis gel. The molds of the present invention are particularly useful in the manufacture of precast electrophoresis gels.

Abstract: A spacer-comb element including (i) a longitudinal central axis and (ii) three or more, preferably four, teeth arrays radially extending about the central axis and extending along a length thereof, serves to emplace arrayed slit apertures within flat sheets of a gel state material that is itself suitable to receive samples upon which electrophoresis may be performed. The spacer-comb element is placed between the sidewalls of, and engaged by, a tray holding the gel material in a central reservoir so that the teeth of only a selected one array extend downwards into the tray. An opposite, upwards-extending, teeth array engages the underside of an overlying tray, preferably at an optional complimentary groove feature on the tray's underside, so as to support the tray.