Abstract: The present invention is to provide a sample separation instrument used in a sample separation apparatus which includes: holding means for holding a first medium supporter which supports a first medium; and driving means for moving fixing means or the holding means in a direction parallel or perpendicular to a plane whose sides extend in the first direction and in the second directions. The sample separation instrument includes an insulator for storing a second medium which allows a sample separated in the first medium in the first direction to be further separated in the second direction different from the first direction, wherein: the insulator includes a first opening and a second opening each of which defines the second direction in which the second medium is electrified, and the second opening has a shape which allows the first medium containing the separated sample to be attached to the second medium along the first direction.

Abstract: A microfluidic device comprising a set of one or more, preferably more than 5, covered microchannel structures manufactured in the surface of a planar substrate. The device is characterized in that a part surface of at least one of the microchannel structures has a coat exposing a non-ionic hydrophilic polymer. The non-ionic hydrophilic polymer is preferably attached covalently directly to the part surface or to a polymer skeleton that is attached to the surface.

Abstract: Matrix polymers and dynamic coating polymers, compositions thereof and related methods, systems and apparatus for microchannel separation.

Abstract: Disclosed herein are methods and devices for preconcentrating and separating analytes such as proteins and polynucleotides in microchannels. As disclosed, at least one size-exclusion polymeric element is adjacent to processing area or an assay area in a microchannel which may be porous polymeric element. The size-exclusion polymeric element may be used to manipulate, e.g. concentrate, analytes in a sample prior to assaying in the assay area.

Abstract: Provided are a biomolecule detection device, a mobile phone for biomolecule detection, and a biomolecule detection method. The biomolecule detection device includes an electrophoresis unit comprising an electrophoretic gel filtering erythrocytes and leukocytes in blood and transferring proteins and DNAs in the blood, and at least one type of a probe biomolecule, immobilized in the electrophoretic gel, reacting with a target biomolecule; a conversion unit converting a result of a reaction between the target biomolecule and the probe biomolecule to an electrical signal; and a lead-out unit receiving, converting, and transmitting the electrical signal.

Abstract: A series of low molarity conductive media based on non-buffering univalent cations, such as sodium chloride-sodium acetate (SCA), sodium boric acid (SB), lithium boric acid, and lithium acetate mitigate the “runaway” positive feedback heating loop produced by conventional media containing biological amine buffers and permit improved DNA electrophoresis under the conditions of low salt concentration. These media serve well in ultra-fast DNA electrophoresis and in high-resolution separations of RNA and DNA fragments.

Abstract: The present invention describes a method of preparation of a permanent neutral wall coating made of thermally immobilized polysaccharides. The coating suppresses electroosmotic flow and adsorption on the wall under acidic, neutral, and basic conditions in capillary electrophoresis.

Abstract: A fluidic device comprising a capillary for conducting a fluid and a pivot arm configured for being pivoted, wherein the pivot arm supports at least a portion of the capillary, and a part of the capillary is coiled to at least partially compensate stress resulting from pivoting of the pivot arm.

Abstract: A sample plate assembly for an electrophoresis apparatus including a tray at a sample supply portion of a capillary array, an adapter for the tray, a sample plate mounted on the adapter, a septer mounted on the sample plate and a septer holder mounted on the septer. Thereby, many number of samples can be automatically supplied to capillaries in a multi capillary array.

Abstract: Systems and methods for enhancing quantitative transfer of analytes to an adsorptive substrate are provided. A preferred embodiment provides an improved transfer system and method that reduces “blow through” of low molecular weight analytes and increases the adsorption of low molecular weight, for example proteins of about 30 kDa or less compared to conventional transfer techniques. It has been discovered that using a secondary porous backing membrane in conjunction with an adsorptive membrane such as nitrocellulose or polvinylidene fluoride increases the efficiency of analyte interaction with the adsorption membrane compared to transfers techniques using the adsorption membrane without the secondary backing membrane. This improvement of quantitative analyte transfer efficiency facilitates a wider range of detection processes, such as direct analysis by MALDI mass spectrometry than in earlier applications of the process without the secondary backing membrane.

Abstract: This invention relates to improved methods and compositions for conducting Capillary Electrophoresis (CE) to separate molecules on the basis of their respective size or charge.

Abstract: The present invention relates to methods for the identification of compounds in carbohydrate mixture compositions as well as the determination of carbohydrate mixture composition patterns, based on e.g. orthogonal cross determining migration time (indices) using capillary gel electrophoresis-laser induced fluorescence and identifying said carbohydrate components based on comparing said migration time (indices) with standard migration time (indices) from a database which data are preferably also orthogonal cross determined. In a further aspect, the present invention relates to a method for carbohydrate mixture composition pattern profiling, like glycosylation pattern profiling using capillary gel electrophoresis-laser induced fluorescence (CGE-LIF). In another aspect, the present invention refers to a system for an automated determination and/or identification of carbohydrates and/or carbohydrate mixture composition patterns (e.g.: glycosylation patterns).

Abstract: An individual identification method for identifying an individual by analyzing a DNA sample through electrophoresis, comprises: a first analysis step of analyzing an identifier-attached DNA sample which is given an identifier for an individual; a step of storing a result obtained by analyzing the identifier-attached DNA sample together with a corresponding identifier in a database; a second analysis step of analyzing a new sample which is a DNA sample subjected to individual identification with an accuracy lower than the accuracy when the identifier-attached DNA sample is analyzed, and using the result as a new sample analysis result; and a step of searching the database based on the new sample analysis result.

Abstract: Scattering on analysis in a multi-capillary electrophoresis apparatus is suppressed. The multi-capillary electrophoresis apparatus has a multi-capillary array that has a sample and a separation medium for separating a sample charged therein, and has a sampling section formed at ends of the capillaries and a detector part for acquiring information depending on the sample thus separated, a means for applying a voltage between the sampling section and the detector part, a chamber part having an air blowing mechanism and a temperature controlling mechanism, a capillary housing base provided on a leeward side of the air blowing mechanism and housing the multi-capillary array, and a first straightening plate provided between the chamber part and the capillary housing base.

Abstract: The subject invention concerns zirconia-based hybrid organic-inorganic sol-gel coating for optional use as a stationary phase in capillary microextraction (CME), gas chromatographic (GC), high performance liquid chromatography (HPLC), capillary electrophoresis (CE), capillary electrochromatography (CEC) and related analytical techniques. Sol-gel chemistry is employed to chemically bind a hydroxy-terminated silicone polymer (polydimethyldiphenylsiloxane, PDMDPS) to a sol-gel zirconia network. In one embodiment, a fused silica capillary is filled with a properly designed sol solution to allow for the sol-gel reactions to take place within the capillary. In the course of this process, a layer of the evolving hybrid organic-inorganic sol-gel polymer becomes chemically bonded to the silanol groups on the inner capillary walls.

Abstract: The present invention relates to a method of classifying charged molecules such as proteins for quantitative analysis. An analyte solution of the molecules is subjected to separational forces may be fluid drag and electrophoretic force in opposition. The analyte solution may be subjected to a two-phase process. The two-phase process may add both electrophoretic force based upon molecule charge, and differential mobility resistance based upon molecule mass and/or size.

Abstract: Capillary columns (102) pass through and are inserted in a rubber plate (14), held and fixed by elastic force of rubber, and two-dimensionally arranged on a sample injection side. it fixes the capillary columns (102) arranged on a plane in close contact by holding the same with a holder plate (6a) from below and with a rubber plate (16) from above on a detection side. In order to press the capillary columns (102) against the holder plate 6a and fix the same with the rubber plate (16), a holder plate (6b) fixing the rubber plate (16) to the holder plate (6a) on both sides of the arrangement of the capillary columns (102) is provided.

Abstract: An electrophoretic device in the form of a casing having inside sealed spaces isolated by an electrophoretic carrier. The device includes at least one liquid injection/discharge opening, communicable with the outside, on the outer wall of said sealed spaces. An electrophoretic method and a specimen detection method use the device. Additionally, an electrophoresis apparatus can have a structure for sandwiching the electrophoretic carrier between a pair of electrodes, and can have a space capable of holding liquid between the sandwiched electrophoretic carrier and the respective electrodes, and an electrophoretic method uses the same device.

Abstract: The present invention provides, in one aspect, an apparatus or electrophoretic separation of analytes. In one aspect, the apparatus comprises a disc-shaped substrate defining (1) a central reservoir region, (2) a plurality of electrophoretic channels in fluid communication with, and emanating substantially radically from, the central reservoir region, the channels being coplanar with each other, and each channel having (i) a proximal end which is linked to the reservoir region, and (ii) a distal end, and preferably (3) for each channel, at least one chamber, and preferably three chambers, linked by a passageway in fluid communication with the distal end of that channel.

Abstract: In a case where the temperature of capillaries cannot be controlled rapidly in accordance with the change of the amount of heat generated from the capillaries, the phoretic speed of the sample is not controlled constant to lower the analyzing performance for the sample. This invention intends to stabilize the electrophoretic speed. The surface of a substrate on which a plurality of capillaries are arranged is in contact with a member capable of temperature control thereby controlling the temperature of the capillaries. Since a member capable of controlling the temperature and the capillaries are in direct contact with each other according to the invention, the temperature of the capillary can be controlled rapidly at a high accuracy, so that electrophoretic speed is stabilized.

Abstract: The invention relates to a device for electrophoretically separating molecules. The inventive device comprises: at least one plate having a top side and an underside; a first separating channel provided for receiving at least one first separating medium; at least one second channel, which is orthogonal to said first separating channel and which is provided for receiving a second separating medium; optionally comprises implements provided for filling the device with reagents, solvents, buffers, separating media and/or for loading the device with a sample to be separated, and; terminals for applying electric separating voltage to the separating channels. In the device, the first separating channel is located on the plate top side and comprises at least one first opening that leads to the plate underside, whereby the second separating channel is located on the plate underside and comprises at least one second opening.

Abstract: A multi-capillary electrophoresis apparatus is provided for reducing errors during analysis caused by fluctuations in electrophoresis time among plural capillaries of the apparatus. The multi-capillary electrophoresis apparatus can contain a multi-capillary array that has a separation medium filled therein for isolating a sample. A detector component can be provided at a position remote from a sample injecting end of the array for acquiring information from the sample. A buffer container can be provided for holding a buffer solution into which the sample injecting end can be immersed. One or more temperature controlling component devices can be arranged for controlling a temperature of the buffer solution, of the detector component, or of both the buffer solution and the detector component.

Abstract: A method of discharging a fluid flow with suspended microparticles from a fluidic microsystem (10) is described, whereby the fluid flow converges with at least one output flow to form a discharge flow at the end of a discharge channel (14) of the microsystem, and the discharge flow is delivered through a conduction element (19). A microsystem with a flow output device for implementation of this method is also described.

Abstract: A capillary array electrophoresis which can measure fluorescence of a number of capillaries at a time with high sensitivity and can automatically analyze a sample sequentially. An end edge as a sample dissolution edge of a number of capillaries is connected to a polymer filling block having a mechanism of filling the polymer as an isolation medium inside a capillary. Fluorescence irradiated from an edge surface of an end edge portion of the capillary is detected through a detection window in which distance between an external surface and a detection surface is smaller than focal distance of an optical lens closest to a detection flat surface.

Abstract: A microfluidic device and method is disclosed having one or more membranes for the control of electrolysis. In one embodiment, a microfluidic device is disclosed that includes body with first channel and second channels separated by a gel layer. A first electrode positioned in the first channel and a second electrode positioned in the second channel wherein a potential applied to the first and second electrodes passes electrons from the first channel to the second channel through the gel layer. In another embodiment, a microfluidic device includes a body having a surface with a channel separating two first reservoirs. One or more membranes are positioned on the surface covering a portion of the channel and a blank is positioned covering the channel and the one or more membranes. A second reservoir through the blank is in contact with the membrane, each second reservoir in communication with the channel via the membrane.

Abstract: This invention relates to improved methods and compositions for conducting Capillary Electrophoresis (CE) to separate molecules on the basis of their respective size or charge.

Abstract: A method of electrophoresis, an electrophoresis apparatus and a capillary array in which a fluorescently labelled sample is supplied into capillaries in a capillary array constituted by a plurality of capillaries and including a sample supply portion, an electrophoresis medium supply portion and a detection portion while controlling the temperature of the capillary array through gas circulation, the sample is caused to migrate and separated in the capillaries through electrophoresis, and at the region where the capillaries are contacted or come close each other a plurality of capillaries are contacted to a solid body so as to dissipate heat generated from the capillaries to the solid body.

Abstract: Polymeric surfactants (molecular micelles) are disclosed for use in open tubular capillary electrochromatography or in high performance liquid chromatography. For example, fused silica capillaries are coated with thin films of charged polymers in a polyelectrolyte multilayer (PEM). A PEM coating may be formed in situ by alternate rinses with positive and negative polyelectrolytes. At least the innermost of the negatively charged polymer layers is a molecular micelle. Prototype embodiments have successfully separated seven benzodiazepines from one another. The run-to-run, day-to-day, week-to-week and capillary-to-capillary reproducibilities were very good, with relative standard deviation values less than 0.01. The PEM-coated capillary was very robust over at least 200 runs. Stability against high and low pH values was also observed. Using chiral polymerized micelles, chiral separations may be achieved, as was demonstrated with a separation of the enantiomers of 1,1?-binaphthyl-2,2?-dihydrogenphosphate.

Abstract: A bio-separation system using an efficient, compact, portable, interchangeable, reusable, recyclable, multi-channel cartridge, has integrated pre-aligned optics and an integrated reagent reservoir. The cartridge supports, for example, multiple capillaries for CE separation. An integrated reservoir containing a separation support medium (e.g., a gel buffer) is common to all capillaries. The chemistry of the medium and the characteristics of the capillaries (e.g., capillary size, coating and length) are defined for each cartridge. Different cartridges can be easily interchanged in the bio-separation system to suit the particular sample based separation. The reservoir is coupled to an air pressure pump that pressurizes the gel reservoir to purge and fill the capillaries with buffer as the separation support medium.

Abstract: The present invention provides a capillary electrophoresis apparatus in which a capillary is easily attached to and detached from a migration medium filling unit without mixing impurities into the capillary. Mixture of impurities such as dust is also prevented when a capillary negative-electrode end is brought into contact with a sample stored in a vessel. Furthermore, temperature control is efficiently performed in the capillary. In the capillary electrophoresis apparatus, the whole of capillary array can be supported by grasping a grip portion by hand. A migration medium filling mechanism includes a slide mechanism which moves a polymer block with respect to a capillary head. The capillary electrophoresis apparatus includes a vessel in which a sample and a buffer can simultaneously be stored. Temperatures of the capillary and an irradiation and detection unit are controlled by a temperature control function provided in a thermostatic device.

Abstract: The invention concerns to an electrophoretic separation device comprising a separation channel having at least one in- and outlet opening at the beginning and at the end of the channel and one electrode in the region of the inlet opening and one electrode in the region of the outlet opening. As well the invention concerns to a method for electrophoretic separation. The invention is characterized in that said separation channel is subdivided into at least two sections in series being coupled mutually by a joint providing an electrical connection means having a ion-conductive material separating said channel from a reservoir being apart the channel and provided with an electrode.

Abstract: A capillary electrophoresis system includes a plurality of capillaries arranged in parallel on a vertical plane at an identical distance from each other, each of which has a sample injection end immersed in a cathode buffer 23 and pointed downward vertically to facilitate connection between the cathode buffer 23 and a sample solution. The sample elution end is connected via a pump block 11 and a connection tube 3 to an anode buffer 24. The height is made identical between the liquid levels for buffers 23 and 24 to prevent movement of the separation medium in the capillaries. The sample introduced from the sample injection end 20 moves upward vertically via electrophoresis to the sample elution end in the capillary and is passed through and detected at the fluorescence detection position 19. The effective separation length is thus decreased to 10 cm or less to attain high throughput.

Abstract: An electrophoresis device is disclosed that is capable of reducing waves occurring in a fluid in which the capillary tips of a capillary assay are immersed. A plurality of partition plate members can be provided in a container containing the fluid to divide the surface of the fluid into several sections. The container can be transported at a high speed, and the capillary tips can be immersed in the fluid quickly, thereby preventing resolution degradation caused by a long period of exposure of the capillary tips to air. Throughput of sample analysis can also be improved because it is not necessary to wait until waves disappear before conducting an analysis.

Abstract: A bio-separation instrument using a multi-segment cartridge. The cartridge includes a plurality of efficient, compact, portable, interchangeable, reusable, recyclable, modular, multi-channel segments. Each segment supports multiple capillaries for CE separation. Each segment has an integrated reservoir containing a buffer/gel common to all the capillaries. Air pressure can be supplied to the reservoir through the periphery of each segment. Each segment has an integrated LED array board directly coupled to capillaries for providing excitation light. Optical fibers of a fiber bundle are individually guided through the periphery of each segment to the capillaries for emission collection. The fiber bundle delivers emissions to a detector that can read the emissions in a time-staggered multiplexed scheme. Each segment includes electrodes electrically coupled to a voltage source through the periphery of the segment for effecting CE separation.

Abstract: An electrode plate of a sample plate is set on the body of an electrophoretic apparatus, while a plug is inserted into a migration high voltage line connection hole and connected to a high-tension distribution cable. Each well of a base plate is inserted into a through hole of a well guide and further press-fit and engaged into a cavity of an electrode plate, for fixing the base plate to the electrode plate. Thereafter a sample is introduced into each well of the base plate and an end of a capillary column is dipped into each well for applying a migration voltage and electrophoretically injecting the sample into the capillary column.

Abstract: The invention is a method of performing electrophoresis that increases sample throughput and increases the efficiency and speed of the analysis of polynucleotides by electrophoresis. The method is performed by loading and running multiple sequential samples on each capillary gel without flushing or replacing the gel between samples.

Abstract: Devices, systems and methods for use in separating sample materials into different fractions that employ bulk fluid flow for loading of samples followed by electrophoretic separation of the sample material. Devices employ configurations that optionally allow bulk sample loading with some or no displacement of a separation matrix within a separation conduit. Methods of using these devices, and systems that incorporate these devices are also envisioned.

Abstract: A series of low molarity conductive media based on non-buffering univalent cations, such as sodium chloride-sodium acetate (SCA), sodium boric acid (SB), lithium boric acid, and lithium acetate mitigate the “runaway” positive feedback heating loop produced by conventional media containing biological amine buffers and permit improved DNA electrophoresis under the conditions of low salt concentration. These media serve well in ultra-fast DNA electrophoresis and in high-resolution separations of RNA and DNA fragments.

Abstract: Multiphasic microfluidic apparatus for performing product fluid manipulation and separation in a single continuous unit are provided. Related methods, kits, and compositions are also provided.

Abstract: A protein marker pellet for use in a gel electrophoresis system includes one or more protein markers including a protein of known molecular weight with ionic components to provide electrical conductance, and a non-protein, gel-forming material having a porosity sufficient to allow the one or more protein markers to migrate out of the protein marker pellet under the influence of an electrical field at the same rate as the ionic components.

Abstract: An injection system including a first electrical circuit for concentration of an analyte and a second electrical circuit for injection of the concentrated analyte into an electrophoretic device is described, as well as methods of using the injection system.

Abstract: The invention provides a device and method for the manipulation of materials (e.g., particles, cells, macromolecules, such as proteins, nucleic acids or other moieties) in a fluid sample. The device comprises a substrate having a plurality of microstructures and an insulator film on the structures. Application of a voltage to the structures induces separation of materials in the sample. The device and method are useful for a wide variety of applications such as dielectrophoresis (DEP) or the separation of a target material from other material in a fluid sample.

Abstract: A separation matrix for capillary electrophoresis of single-stranded nucleic acids is disclosed. The matrix comprises an aqueous buffer containing a denaturant and (hydroxypropyl)methyl cellulose.

Abstract: The capillary electrophoresis device using one pressure-resistant syringe (125) is capable of automatically suctioning in polymer solution and injecting polymer solution into a capillary array (100). An electric hook (131) is installed for pulling up the syringe plunger on a push-in action type syringe (125). A check valve (124) is inserted between a polymer bottle (123) and syringe to prevent solution from flowing back into the polymer bottle. As a result, one syringe portion of polymer solution can be suctioned and injected, a large volume of polymer solution can be continuously used and device processing capability is improved.

Abstract: The present invention provides methods of electrophoretically separating macromolecular species, as well as compositions and systems useful in carrying out such methods. Specifically, the methods of the present invention comprise providing a substrate that has at least a first capillary channel disposed therein. The surface of the channel has a first surface charge associated therewith, and is filled with a water soluble surface adsorbing polymer solution that bears a net charge that is the same as the charge on the capillary surface.

Abstract: The present invention is directed to valves for use in controlling the flow of fluid and, more particularly, to a triggerable passive valve for use in controlling the flow of fluid. In one embodiment, a fluid delivery channel is connected to a flow restrictor and a passive valve positioned in the fluid delivery channel downstream from the flow restrictor. The first passive valve prevents fluid from moving through the channel when the pressure exerted by the fluid on the first passive valve is below the burst pressure. A pneumatic actuator actuates the valve by forcing fluid through the passive valve.

Abstract: A microfluidic device includes first and second substrates and a microfluidic cavity formed in one of the first and second substrates. The microfluidic cavity has a width (W) and a depth (D), wherein the other of the first and second substrates encloses the microfluidic cavity and a width (W) to depth (D) ratio is at least 100 with the depth (D) being from about 10 ?m to about 150 ?m. The device also includes a plurality of ports formed in the other of the first and second substrates to permit access to the microfluidic cavity and a third substrate disposed on the second substrate and including microchannels formed therein. The microchannels are formed so that a plurality of ports formed in the second substrate for sample selection and sample output communicate therewith.

Abstract: Methods and devices are described for concentration and cleanup of samples containing bio-molecule analytes (e.g., polynucleotides, such as DNA, RNA, PNA). Various embodiments provide for pH-mediated sample concentration and cleanup of nucleic acid samples with channel devices (e.g., cross-T format, microchannel devices).

Abstract: Reactors and methods for miniaturized reactions having enhanced reaction kinetics. In particular the subject matter is directed to chemical and biological reactions conducted in a nanoporous membrane environment. The subject matter contemplates methods for modifying the kinetics of reactions and devices for conducting reactions having modified kinetics. The subject matter also provides systems for rapid miniaturized reactions. Further the subject matter includes methods and kits for conducting a reaction with enhanced throughput and methods of conducting miniaturized, high throughput analyses of reaction products, and the like. Reactions performed on or within a nanoporous membrane exhibits improved kinetic characteristics.

Abstract: A technique processes a sample of biomolecular analyte. The technique uses an apparatus having a support assembly that receives and supports a test module, a load assembly that loads the sample of biomolecular analyte onto the test module, an electrophoresis assembly that applies a current to the test module such that components within the sample separate by electrophoresis, and a controller that controls operations of the load assembly and the electrophoresis assembly. The load assembly and the electrophoresis assembly are coupled to the support assembly. The controller controls the operation of the load assembly in an automated manner. Preferably, the test module includes a dielectric plate member having an upper planar surface and a lower planar surface that is spaced apart from and coplanar with the upper planar surface. The dielectric plate member has at least one set of channels that includes an injection channel and a separation channel.