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33 条记录 (耗时 0.018 秒)

    Method for immobilizing compound onto column carrier
    1.
    发明授权
    Method for immobilizing compound onto column carrier 有权
    将化合物固定在柱载体上的方法

    公开(公告)号:US08013180B2

    公开(公告)日:2011-09-06

    申请号:US12209956

    申请日:2008-09-12

    申请人: Minoru Asogawa Toru Matsumoto

    发明人: Minoru Asogawa Toru Matsumoto

    IPC分类号: C07C303/00

    CPC分类号: C07C303/06 B01J20/3219 B01J20/3251 B01J20/3253 C07B2200/11 C07C303/38 C07C303/40 C07C309/40 C07C311/19

    摘要: It is intended to provide a method for immobilizing, onto a column carrier, a compound having a sulfo group or a compound to which a sulfo group can be added. The method comprises immobilizing the compound onto the column carrier using a linker comprising: a sulfo group-binding group capable of forming a bond with the sulfo group in the compound; and a carrier-binding group capable of forming a bond with a group present on the surface of the column carrier.

    摘要翻译: 旨在提供一种固定在柱载体上的具有磺基的化合物或可加入磺基的化合物的方法。 该方法包括使用连接体将化合物固定在柱载体上,所述接头包含:能够与化合物中的磺基形成键的磺基结合基团; 以及能够与柱载体的表面上存在的基团形成键的载体结合基团。

    Temperature control method and system
    2.
    发明授权
    Temperature control method and system 有权
    温度控制方法和系统

    公开(公告)号:US08202722B2

    公开(公告)日:2012-06-19

    申请号:US12679358

    申请日:2008-09-16

    申请人: Minoru Asogawa Hisashi Hagiwara Tohru Hiramatsu

    发明人: Minoru Asogawa Hisashi Hagiwara Tohru Hiramatsu

    IPC分类号: C12M1/38 F28F13/00 F28F7/00

    CPC分类号: B01L3/502715 B01L3/50273 B01L3/505 B01L7/52 B01L2200/0689 B01L2300/0867 B01L2300/087 B01L2300/0887 B01L2300/123 B01L2300/14 B01L2300/1822 B01L2300/1827 B01L2400/0481 B01L2400/0655 G01N2035/00158 G01N2035/00346

    摘要: For heating or cooling a sample contained in a vessel portion through a heat transfer member held in contact with the vessel portion, there is used the vessel portion, which has a part formed of an elastic member, expands and contracts for injection and discharge of the sample, is closed other than a connecting port with a channel connected to the vessel, and expands and contracts for injection and discharge of the sample. The vessel portion expands correspondingly to the injection when the sample is injected through an inflow path serving as the channel into the vessel portion contracting in a non-contacting state with the heat transfer member. A predetermined amount of sample is injected into the vessel portion so as to expand the vessel portion, and the vessel portion comes into contact with the heat transfer member. The vessel portion is heated or cooled through the heat transfer member.

    摘要翻译: 为了通过与容器部分保持接触的传热构件来加热或冷却包含在容器部分中的样品,使用具有由弹性构件形成的部分的容器部分,其膨胀和收缩用于注射和排出 样品,除了具有连接到容器的通道的连接端口之外,并且扩展并收缩样品的注入和排出。 当样品通过用作通道的流入路径注入到与传热构件非接触状态收缩的容器部分中时,容器部分对应于注射膨胀。 将预定量的样品注入到容器部分中以使容器部分膨胀,并且容器部分与传热构件接触。 容器部分通过传热构件被加热或冷却。

    FLOW PASSAGE CONTROL MECHANISM FOR MICROCHIP
    3.
    发明申请
    FLOW PASSAGE CONTROL MECHANISM FOR MICROCHIP 有权
    流量控制机制的MICROCHIP

    公开(公告)号:US20110000561A1

    公开(公告)日:2011-01-06

    申请号:US12920256

    申请日:2009-03-18

    申请人: Minoru Asogawa Hisashi Hagiwara Tohru Hiramatsu

    发明人: Minoru Asogawa Hisashi Hagiwara Tohru Hiramatsu

    IPC分类号: F03B11/02

    CPC分类号: B01L3/502738 B01L3/50273 B01L2300/0816 B01L2300/0864 B01L2300/0867 B01L2300/0887 B01L2300/123 B01L2400/0481 B01L2400/0655 G01N35/1095 G01N2035/00158 G01N2035/1034 Y10T137/8593 Y10T436/11 Y10T436/25 Y10T436/2575

    摘要: A channel control mechanism for a microchip has a laminated structure formed of members including elastic members, and includes: a sample reservoir for packing a sample therein; a reaction reservoir in which mixture and reaction of the sample are performed; and a channel formed in a middle layer of the laminated structure, for bringing the sample reservoir and the reaction reservoir into communication with each other. The channel control mechanism performs the reaction and analysis in such a manner that the sample is delivered into the reaction reservoir through the channel. A shutter channel (pressurizing channel) is provided in a layer different from a layer in which the channel is formed so that the pressurizing channel partially overlaps the channel. The channel is closed through applying a pressurized medium to the shutter channel (pressurizing channel), and the channel is opened through releasing a pressure of the pressurized medium.

    摘要翻译: 用于微芯片的通道控制机构具有由包括弹性构件的构件形成的层压结构,并且包括:用于在其中包装样品的样品容器; 反应容器,其中进行混合物和样品的反应; 以及形成在层叠结构的中间层中的通道,用于使样本储存器和反应容器彼此连通。 通道控制机构以通过通道将样品输送到反应容器中的方式进行反应和分析。 快门通道(加压通道)设置在与形成通道的层不同的层中,使得加压通道与通道部分重叠。 通过将加压介质施加到闸门通道(加压通道)来关闭通道,并且通过释放加压介质的压力来打开通道。

    INDIVIDUAL IDENTIFICATION METHOD AND APPARATUS
    4.
    发明申请
    INDIVIDUAL IDENTIFICATION METHOD AND APPARATUS 审中-公开
    个人识别方法和设备

    公开(公告)号:US20090277790A1

    公开(公告)日:2009-11-12

    申请号:US12297204

    申请日:2007-04-12

    申请人: Minoru Asogawa Masatoshi Sugisawa Shinji Okui

    发明人: Minoru Asogawa Masatoshi Sugisawa Shinji Okui

    IPC分类号: G01N27/453 G01N27/447

    CPC分类号: G16B20/00 G16B30/00 G16B50/00

    摘要: 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.

    摘要翻译: 用于通过电泳分析DNA样品来识别个体的个体识别方法包括:分析给予个体标识符的标识符附着DNA样品的第一分析步骤; 将通过分析标识符附着的DNA样本获得的结果与相应的标识符一起存储在数据库中的步骤; 第二分析步骤,以分析标识符附着的DNA样品的精度以下的精度分析作为进行个体识别的DNA样品的新样品,并使用该结果作为新的样本分析结果; 并且基于新的样本分析结果搜索数据库的步骤。

    TEMPERATURE CONTROL METHOD AND SYSTEM
    8.
    发明申请
    TEMPERATURE CONTROL METHOD AND SYSTEM 有权
    温度控制方法与系统

    公开(公告)号:US20100221814A1

    公开(公告)日:2010-09-02

    申请号:US12679358

    申请日:2008-09-16

    申请人: Minoru Asogawa Hisashi Hagiwara Tohru Hiramatsu

    发明人: Minoru Asogawa Hisashi Hagiwara Tohru Hiramatsu

    IPC分类号: C12M1/38 F28F13/00 F28F7/00

    CPC分类号: B01L3/502715 B01L3/50273 B01L3/505 B01L7/52 B01L2200/0689 B01L2300/0867 B01L2300/087 B01L2300/0887 B01L2300/123 B01L2300/14 B01L2300/1822 B01L2300/1827 B01L2400/0481 B01L2400/0655 G01N2035/00158 G01N2035/00346

    摘要: For heating or cooling a sample contained in a vessel portion through a heat transfer member held in contact with the vessel portion, there is used the vessel portion, which has a part formed of an elastic member, expands and contracts for injection and discharge of the sample, is closed other than a connecting port with a channel connected to the vessel, and expands and contracts for injection and discharge of the sample. The vessel portion expands correspondingly to the injection when the sample is injected through an inflow path serving as the channel into the vessel portion contracting in a non-contacting state with the heat transfer member. A predetermined amount of sample is injected into the vessel portion so as to expand the vessel portion, and the vessel portion comes into contact with the heat transfer member. The vessel portion is heated or cooled through the heat transfer member.

    摘要翻译: 为了通过与容器部分保持接触的传热构件来加热或冷却包含在容器部分中的样品,使用具有由弹性构件形成的部分的容器部分,其膨胀和收缩用于注射和排出 样品,除了具有连接到容器的通道的连接端口之外,并且膨胀和收缩用于样品的注入和排出。 当样品通过用作通道的流入路径注入到与传热构件非接触状态收缩的容器部分中时,容器部分对应于注射膨胀。 将预定量的样品注入到容器部分中以使容器部分膨胀,并且容器部分与传热构件接触。 容器部分通过传热构件被加热或冷却。

    Microchip, solvent displacement method using the microchip, concentrating method, and mass spectrometry system
    9.
    发明申请
    Microchip, solvent displacement method using the microchip, concentrating method, and mass spectrometry system 审中-公开
    Microchip,使用微芯片的溶剂置换法,浓缩法和质谱系统

    公开(公告)号:US20060070951A1

    公开(公告)日:2006-04-06

    申请号:US10536597

    申请日:2003-11-28

    申请人: Masakazu Baba Toru Sano Kazuhiro Iida Hisao Kawaura Noriyuki Iguchi Wataru Hattori Hiroko Someya Minoru Asogawa

    发明人: Masakazu Baba Toru Sano Kazuhiro Iida Hisao Kawaura Noriyuki Iguchi Wataru Hattori Hiroko Someya Minoru Asogawa

    IPC分类号: C02F1/44 B01D15/08

    CPC分类号: B01D67/0062 B03C5/00 G01N1/40

    摘要: A particular component in a sample is recovered in a high concentration and solvent-replaced. A separator 100 is placed on a microchip and includes a channel 112 for flowing the particular component. The channel 112 includes a sample feeding channel 300 as well as a filtrate discharge channel 302 and a sample recovering part 308 which are branched from the sample feeding channel 300. There is formed a filter 304 for preventing passage of the particular component, at the inlet of the filtrate discharge channel 302 from the sample feeding channel 300. Furthermore, there is formed a damming area (hydrophobic area) 306 for preventing entering of a liquid sample while allowing for passage of the liquid sample by applying an external force equal to or larger than a given level, at the inlet of the sample recovering part 308 from the sample feeding channel 300.

    摘要翻译: 样品中的特定组分以高浓度回收并进行溶剂置换。 分离器100放置在微芯片上,并且包括用于流动特定部件的通道112。 通道112包括样品供给通道300以及从样品供给通道300分支的滤液排出通道302和样品回收部分308。 在滤液排出通道302的入口处,从样品供给通道300形成防止特定成分通过的过滤器304。 此外,在样品回收部的入口处形成防止液体样品进入的阻止区域(疏水区域)306,同时允许通过施加等于或大于给定水平的外力使液体样品通过 308。