Abstract: There is provided a capillary electrophoresis apparatus wherein coupling efficiency of exciting irradiation light to a capillary array does not decline even if any one capillary array of two capillary arrays is removed. Light emission generated by capillaries of each capillary array of 2n (n is a positive integer) capillary arrays radiating exciting light from one side is detected by one optical detection system.

Abstract: An electrophoresis analysis method and apparatus capable of maintaining high reliability upon a repeated use of the same gel. A heat transfer medium selected from the group consisting of solids, liquids and gels is filled in substantially all of the gaps between the electrode and each capillary. A hollow electrode into which a capillary is inserted has a plurality of retaining shapes such that the capillary can be fixed at the center of the electrode. The heat from the capillary can be efficiently dissipated via the electrode, and also the temperature increase in the capillary can be prevented. Further, temperature increases due to the heating of the capillaries during operation can be controlled and thereby thermal deterioration of the gel can be prevented.

Abstract: To reduce the elongation of the migration time for the first electrophoresis cycle in successive electrophoresis cycles and improve the reliability of electrophoresis analysis. The present invention relates to making the condition of a migration medium at the start of the first electrophoresis analysis in successive electrophoresis analyses after the temperature in a thermostatic oven reaches a desired preset temperature substantially the same as the conditions after the successive electrophoresis analyses. Preferably, a voltage is applied to a separation medium filling a capillary during preheating of the thermostatic oven. Preferably, the temperature in the thermostatic oven during preheating is set higher than the temperature in the thermostatic oven during electrophoresis analysis. Preferably, a buffer solution is heated during preheating of the thermostatic oven. Preferably, the capillary is filled with a preheated separation medium during preheating of the thermostatic oven.

Abstract: The object of the present invention is that a dynamic range is extended in an electrophoresis unit and concentration differences among a plurality of samples measured simultaneously are increased. An irradiation time to the samples is adjusted during analysis without changing a sampling time. By shortening the irradiation time, a fluorescence amount of the samples is reduced to cause signal intensity detected by a detector to physically decrease. If the irradiation time is very short (several 100 msec), the irradiation time and fluorescence intensity are in a direct proportional relationship. It is known that, if the irradiation time is reduced to 1/n, the fluorescence intensity, that is, signal intensity to be detected will be 1/n. Thus, for data whose irradiation time is reduced to 1/n during analysis, data obtained by multiplying a substantially measured value by n is used for data analysis as a true value to be originally acquired.

Abstract: A capillary electrophoresis apparatus capable of efficiently using a polymer in a polymer container is provided. The present invention relates to a mechanism for efficiently using the polymer in the polymer container in a capillary electrophoresis apparatus for the electrophoresis with a separation medium filled in a capillary. According to the present invention, since the polymer in the polymer container is not contacted with the air, deterioration of the polymer by oxidation can be prevented.

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: 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: An electrophoresis apparatus includes a multi-capillary array having a liquid or solid disposed between the capillaries of the array. The liquid or solid exhibits a refractive index higher than that of air and less than that of water and reduces the amount of laser beams scattered by the capillaries. Also provided are methods of adjusting refracted and reflected excitation light beams passing through capillaries of a multi-capillary array, to reduce loss of intensity of the laser beams and increase irradiation of respective samples disposed in the capillaries.

Abstract: An electrophoresis apparatus includes a multi-capillary array having a liquid or solid disposed between the capillaries of the array. The liquid or solid exhibits a refractive index higher than that of air and less than that of water and reduces the amount of laser beams scattered by the capillaries. Also provided are methods of adjusting refracted and reflected excitation light beams passing through capillaries of a multi-capillary array, to reduce loss of intensity of the laser beams and increase irradiation of respective samples disposed in the capillaries.

Abstract: An object of the present invention is to provide a capillary electrophoresis apparatus in which simultaneity can be ensured between sensitivity and data acquisition to decrease a pull-up signal while spectral data acquisition is eliminated in each capillary exchange. The invention relates to a capillary electrophoresis apparatus characterized in that a multi-bandpass filter is provided in an optical detection system. In one aspect of the invention, a signal detection area of a two-dimensional detector is divided into plural regions corresponding to wavelength transmission regions of the multi-bandpass filter. An integrated value of the fluorescence spectrum signal is determined in the region including a fluorescence spectrum peak of an analysis sample in the plural regions. The analysis is performed with the integrated value.

Abstract: An object of the present invention is to provide a capillary electrophoresis apparatus in which simultaneity can be ensured between sensitivity and data acquisition to decrease a pull-up signal while spectral data acquisition is eliminated in each capillary exchange. The invention relates to a capillary electrophoresis apparatus in which capillary position shift is detected in each capillary exchange by detecting a capillary position. A capillary position measuring light source is provided in the capillary electrophoresis apparatus of the invention. The capillary is irradiated with light emitted from the capillary position measuring light source, a capillary image is detected with a two-dimensional detector, and thereby a position deviation of the capillary is determined. On the basis of the position deviation of the capillary, a data acquisition area is set in the two-dimensional detector, or a reference fluorescent light spectrum determined from the capillary at the standard position is corrected.

Abstract: An electrophoresis apparatus includes a multi-capillary array having a liquid or solid disposed between the capillaries of the array. The liquid or solid exhibits a refractive index higher than that of air and less than that of water and reduces the amount of laser beams scattered by the capillaries. Also provided are methods of adjusting refracted and reflected excitation light beams passing through capillaries of a multi-capillary array, to reduce loss of intensity of the laser beams and increase irradiation of respective samples disposed in the capillaries.

Abstract: System and method for fluorescent light excitation and detection from samples to enhance the numerical aperture and/or reduce the cross-talk of the fluorescent light.

Abstract: The present invention relates to detection of an emission spectrum by irradiating excitation light onto a plurality of electrophoretic paths and dispersing fluorescent light output from the electrophoretic paths in a direction approximately vertical to an electrophoretic direction. According to the invention, since an emission spectrum to be detected does not substantially change over time, it becomes possible to make observed emission spectrums completely correspond to various fluorescent dyes or various bases.

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 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: A multi-focus capillary array that can reduce crosstalk and a capillary array photodetector are provided. On a substrate 20 on which a plurality of capillaries are aligned, a perforation 72 is formed in at least a part of an area in the rear of the capillaries when the capillary array is viewed from the photodetector.

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: A capillary array includes a light detection portion, a sample supply portion, a buffer solution supply portion and a voltage application portion which are necessary functions for electrophoresis, thereby, when assembling the capillary array into an electrophoresis apparatus, the same can be immediately used. Accordingly, a capillary array is provided which can be easily incorporated into an electrophoresis apparatus.

Abstract: In an electrophoresis apparatus comprising capillaries for containing therein fluorescence-labeled substances, and a sensor for irradiating the capillaries with exciting light and detecting fluorescences, the sensor has a substrate including a datum surface for holding thereon the capillaries, and a groove sinking from the datum surface, and the groove has a plurality of reflecting surfaces for reflecting thereon the fluorescences emitted from the capillaries by a plurality of times.