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    • 3. 发明申请
    • Biological Molecule Separation Apparatus
    • 生物分子分离装置
    • US20110233062A1
    • 2011-09-29
    • US13073835
    • 2011-03-28
    • Koji SakairiSatonari AkutsuAtsunori HiratsukaKenji YokoyamaYuji MaruoHiroshi Ohki
    • Koji SakairiSatonari AkutsuAtsunori HiratsukaKenji YokoyamaYuji MaruoHiroshi Ohki
    • C25B7/00
    • G01N27/44769
    • A biological molecule separation apparatus for separating a biological molecule of one embodiment of the present invention has a buffer solution chamber receiving a buffer solution, a separation electrode arranged in the buffer solution chamber, a biological molecule separation medium for separating a biological molecule, a biological molecule adsorption film for adsorbing a biological molecule, a pair of transfer electrodes having a plurality of line shaped conductors extending in a direction perpendicular to a first direction, the conductors being arranged in the direction perpendicular to the first direction, and a separation part which holds the transfer electrode, the biological molecule adsorption film, the medium and the transfer electrode, wherein the transfer electrode, the biological molecule adsorption film, the medium and the transfer electrode are stacked in this order.
    • 本发明的一个实施方案的分离生物分子的生物分子分离装置具有接收缓冲溶液的缓冲溶液室,配置在缓冲溶液室中的分离电极,分离生物分子的生物分子分离介质,生物分子分离装置 用于吸附生物分子的分子吸附膜,具有沿与第一方向垂直的方向延伸的多个线状导体的一对转移电极,导体沿垂直于第一方向的方向排列,分离部保持 转移电极,生物分子吸附膜,介质和转移电极,其中转移电极,生物分子吸附膜,介质和转移电极按此顺序堆叠。
    • 5. 发明申请
    • Electrophoresis Apparatus and Device Therefor
    • 电泳装置及其装置
    • US20070278102A1
    • 2007-12-06
    • US11663646
    • 2006-09-05
    • Chie HayashidaKoji SakairiKatsuyoshi TakahashiYuji MaruoMichinobu MiedaYutaka Unuma
    • Chie HayashidaKoji SakairiKatsuyoshi TakahashiYuji MaruoMichinobu MiedaYutaka Unuma
    • G01N27/447B01D57/02G01N21/64
    • G01N27/44704B01D57/02G01N21/6428
    • There is provided an electrophoresis device (100) including an insulator (10) that includes: a first-separating-medium storing section (4′) for storing therein a first separating medium (4); a first opening (7) and a second opening (8) that are in communication with the first-separating-medium storing section (4′) and for defining a direction of separation on the first separating medium (4); and a third opening (9) that is covered with a penetrable insulating thin film (3), wherein the first separating medium storing section (4′) is in communication with outside via the first opening (7) and the second opening (8). There is also provided an electrophoresis apparatus including the electrophoresis device (100). This realizes an electrophoresis apparatus, and a device therefor, that enables an operator to sample separated proteins without ever making contact with the electrophoresed gel, and that can easily be used with various types of analyses, thereby improving convenience of electrophoresis.
    • 提供了一种包括绝缘体(10)的电泳装置(100),其包括:用于在其中存储第一分离介质(4)的第一分离介质存储部分(4'); 第一开口(7)和第二开口(8),其与第一分离介质存储部分(4')连通并且用于限定第一分离介质(4)上的分离方向; 和覆盖有可穿透绝缘薄膜(3)的第三开口(9),其中第一分离介质容纳部分(4')经由第一开口(7)和第二开口(8)与外部连通, 。 还提供了包括电泳装置(100)的电泳装置。 这实现了一种电泳装置及其装置,其使得操作者能够对分离的蛋白质进行取样,而不会与电泳凝胶接触,并且可以容易地与各种类型的分析一起使用,从而提高电泳的方便性。
    • 8. 发明授权
    • Biological molecule separation apparatus
    • 生物分子分离装置
    • US08419916B2
    • 2013-04-16
    • US13073835
    • 2011-03-28
    • Koji SakairiSatonari AkutsuAtsunori HiratsukaKenji YokoyamaYuji MaruoHiroshi Ohki
    • Koji SakairiSatonari AkutsuAtsunori HiratsukaKenji YokoyamaYuji MaruoHiroshi Ohki
    • G01N27/26
    • G01N27/44769
    • A biological molecule separation apparatus for separating a biological molecule of one embodiment of the present invention has a buffer solution chamber receiving a buffer solution, a separation electrode arranged in the buffer solution chamber, a biological molecule separation medium for separating a biological molecule, a biological molecule adsorption film for adsorbing a biological molecule, a pair of transfer electrodes having a plurality of line shaped conductors extending in a direction perpendicular to a first direction, the conductors being arranged in the direction perpendicular to the first direction, and a separation part which holds the transfer electrode, the biological molecule adsorption film, the medium and the transfer electrode, wherein the transfer electrode, the biological molecule adsorption film, the medium and the transfer electrode are stacked in this order.
    • 本发明的一个实施方案的分离生物分子的生物分子分离装置具有接收缓冲溶液的缓冲溶液室,配置在缓冲溶液室中的分离电极,分离生物分子的生物分子分离介质,生物分子分离装置 用于吸附生物分子的分子吸附膜,具有沿与第一方向垂直的方向延伸的多个线状导体的一对转移电极,导体沿垂直于第一方向的方向排列,分离部保持 转移电极,生物分子吸附膜,介质和转移电极,其中转移电极,生物分子吸附膜,介质和转移电极按此顺序堆叠。
    • 10. 发明授权
    • Fluorescence detecting apparatus
    • 荧光检测装置
    • US07307261B2
    • 2007-12-11
    • US11397893
    • 2006-04-05
    • Yuji Maruo
    • Yuji Maruo
    • G01N21/64
    • G01N21/6458G01N21/645G01N21/6452G01N2021/6463
    • A fluorescence detecting apparatus includes: a light source for illuminating the surface of detection of a sample with excitation light; a CCD area image sensor for detecting fluorescence emitted from the sample; and a micromirror array device for irradiating excitation light in a 2-dimensional illumination pattern generated by an information processor based on the detected result from the CCD area image sensor. In this configuration, irradiation of weak excitation light on areas that contain large amounts of fluorescent dyes hence would emit strong fluorescence makes it possible to excite reduced amounts of fluorescence and thereby inhibit adverse effects such as blurring or spreading of light of fluorescent wavelengths around the areas as well as to prevent the high-sensitivity fluorescence detecting device from being saturated by excessive amounts of light. On the other hand, irradiation of strong excitation light on areas that contain lower amounts of fluorescent dyes hence would emit weak fluorescence makes it possible to obtain high enough amounts of fluorescence that can be detected by the fluorescence detecting device.
    • 荧光检测装置包括:用激发光照射样品的检测表面的光源; 用于检测从样品发出的荧光的CCD区域图像传感器; 以及微镜阵列装置,用于基于来自CCD区域图像传感器的检测结果,照射由信息处理器生成的二维照明图案中的激发光。 在这种结构中,在含有大量荧光染料的区域上的弱激发光的照射因此会发出强烈的荧光,可以激发减少量的荧光,从而抑制不利影响,例如区域周围的荧光波长的光的模糊或扩展 并且防止高灵敏度荧光检测装置被过量的光饱和。 另一方面,在含有较少量的荧光染料的区域上的强激发光的照射因此会发出弱荧光使得可以获得足够高的荧光检测量的荧光量。