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    • 2. 发明申请
    • FLUID HANDLING SYSTEM FOR FLOW-THROUGH ASSAY
    • 用于流量测量的流体处理系统
    • WO2008005292A1
    • 2008-01-10
    • PCT/US2007/015045
    • 2007-06-28
    • CORNING INCORPORATEDMILLER, William JMORRELL, Mark LROSWECH, Todd MYUEN, Po Ki
    • MILLER, William JMORRELL, Mark LROSWECH, Todd MYUEN, Po Ki
    • G01N35/10B01L3/00
    • G01N35/1072B01L3/5027G01N35/1074
    • A fluid handling system for transferring fluids is disclosed. The fluid handling system incorporates a plurality of transfer units for dispensing and/or collecting fluids as part of a closed analytical system. The plurality of transfer units are capable of functioning independently and/or collectively when assembled in a unitary array format. Methods of making and using the fluid handling system are also disclosed. The fluid handling system allows a sub-array of transfer units to shift in a vertical direction independent from a position of another sub-array of transfer units that are assembled within the same fluid head. Therefore, the fluid handling system facilitates multi-port fluid delivery and collection in an array format. Further, the fluid handling system aligned with a sensing surface enables label-free detection assays to be performed in an analytical system.
    • 公开了一种用于输送流体的流体处理系统。 流体处理系统包括用于分配和/或收集流体作为封闭分析系统的一部分的多个转运单元。 当以单一阵列格式组装时,多个传送单元能够独立地和/或共同地起作用。 还公开了制造和使用流体处理系统的方法。 流体处理系统允许传送单元的子阵列在垂直方向上移动,独立于组装在同一流体头内的另一传送单元子阵列的位置。 因此,流体处理系统便于以端口流体输送和以阵列格式收集。 此外,与感测表面对准的流体处理系统使得能够在分析系统中进行无标记检测分析。
    • 7. 发明申请
    • SYSTEM AND METHOD FOR PERFORMING G PROTEIN COUPLED RECEPTOR (GPCR) CELL ASSAYS USING WAVEGUIDE-GRATING SENSORS
    • 使用波导传感器执行G蛋白偶联受体(GPCR)细胞测定的系统和方法
    • WO2006107506A3
    • 2006-11-16
    • PCT/US2006008582
    • 2006-03-10
    • CORNING INCFANG YEFERRIE ANN MFONTAINE NORMAN HYUEN PO KILAHIRI JOYDEEP
    • FANG YEFERRIE ANN MFONTAINE NORMAN HYUEN PO KILAHIRI JOYDEEP
    • G01N33/543G01N21/77G01N33/68
    • G01N33/5041G01N21/4788G01N21/553G01N2333/726G01N2500/10
    • The present invention includes a system and method that uses optical LID biosensors to monitor in real time agonist-induced GPCR signaling events within living cells. Particularly, the present invention includes a system and method for using an optical LID biosensor to screen compounds against a target GPCR within living cells based on the mass redistribution due to agonist-induced GPCR activation. In an extended embodiment, the present invention discloses different ways for self-referencing the optical LID biosensor to eliminate unwanted sensitivity to ambient temperature, pressure fluctuations, and other environmental changes. In yet another extended embodiment, the present invention discloses different ways for screening multiple GPCRs in a single type of cell or multiple GPCRs in multiple types of cells within a single medium solution. In still yet another extended embodiment, the present invention discloses different ways to confirm the physiological or pharmacological effect of a compound against a specific GPCR within living cells.
    • 本发明包括使用光学LID生物传感器实时监测活细胞内激动剂诱导的GPCR信号事件的系统和方法。 特别地,本发明包括使用光学LID生物传感器基于由于激动剂诱导的GPCR活化导致的质量再分布来筛选活细胞内的靶GPCR的化合物的系统和方法。 在扩展实施例中,本发明公开了用于自参考光学LID生物传感器以消除对环境温度,压力波动和其他环境变化的不期望的灵敏度的不同方式。 在又一个扩展的实施方案中,本发明公开了在单一培养基溶液中的多种类型的细胞中单种类型细胞或多种GPCR筛选多种GPCR的不同方式。 在又一个延伸的实施方案中,本发明公开了确定化合物对活细胞内特异性GPCR的生理或药理作用的不同方式。