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    • 3. 发明申请
    • BIOLOGICAL MATERIAL PREPARATION CHIP AND PREPARATION CHIP SYSTEM
    • 生物材料制备芯片和制备芯片系统
    • US20080312104A1
    • 2008-12-18
    • US11763471
    • 2007-06-15
    • Yasuhiko SasakiToru InabaHiroshi KishidaMasaomi Uchida
    • Yasuhiko SasakiToru InabaHiroshi KishidaMasaomi Uchida
    • C40B50/00C40B60/14
    • B01L3/502746B01L2200/0621B01L2300/0816B01L2300/0867B01L2300/0874B01L2400/0487B01L2400/084
    • The present invention is directed to provide a preparation chip system having a simpler configuration and improved reliability while addressing the case where a plurality of reagents have to be fed as in a preparation of extracting DNA from a sample solution. The preparation chip system includes a sample chamber, a dissolving solution chamber, a cleaning solution chamber, an eluting solution chamber, a mixing passage connected to the sample chamber and the dissolving solution chamber and mixing the sample and the dissolving solution with each other, a carrier part connected to the mixing passage, a waste chamber connected to the carrier part via a holding passage, a collection chamber holding the eluting solution passed through the carrier part, and a plurality of resistive materials forming a passage resistor disposed in a first passage connecting the cleaning solution chamber with both the mixing passage and the carrier part. The eluting solution is passed through the carrier part by pressure from a pressure source.
    • 本发明旨在提供一种制备芯片系统,其具有更简单的结构和改善的可靠性,同时解决了在从样品溶液中提取DNA的制备中必须进料多种试剂的情况。 制剂芯片系统包括样品室,溶解溶液室,清洗溶液室,洗脱溶液室,连接到样品室的混合通道和溶解溶液室,并将样品和溶解溶液彼此混合, 连接到混合通道的载体部分,经由保持通道连接到载体部分的废物室,保持通过载体部分的洗脱溶液的收集室,以及形成通道电阻器的多个电阻材料,设置在第一通道中,连接 所述清洁溶液室具有所述混合通道和所述载体部分。 洗脱溶液通过压力源通过载体部分。
    • 4. 发明申请
    • Apparatus and method for reading fluorescence from bead arrays
    • 从珠阵列中读取荧光的装置和方法
    • US20060275891A1
    • 2006-12-07
    • US11440082
    • 2006-05-25
    • Hiroshi KishidaMasaomi Uchida
    • Hiroshi KishidaMasaomi Uchida
    • C12M1/34G01J3/42
    • G01N21/6458G01N21/55G01N21/6452G01N2021/174G01N2021/6439G01N2021/646G01N2021/6471G01N2021/6478
    • When detecting fluorescence of a bead chip array, reflected light from a bead is detected at the same time, so as to recognize the bead position. The reflected light can be detected in a similar manner for all beads, regardless of the presence or absence of a fluorescent substance. If the positions of all beads are detected, accurate detection can be achieved by quantifying only the fluorescence at the detected positions. The fluorescence wavelength alone is detected by a first detector using a wavelength selection filter. Other wavelengths are detected by a second detector, thereby obtaining the reflected light. Data on the reflected light is processed into an image for obtaining the bead profile, the bead position is recognized by detecting the center position based on the profile, and the fluorescence is quantified based on the bead position.
    • 当检测珠芯片阵列的荧光时,同时检测来自珠粒的反射光,以便识别珠粒位置。 不管荧光物质的存在或不存在,都可以以类似的方式检测所有珠子的反射光。 如果检测到所有珠粒的位置,则可以通过仅在所检测的位置定量荧光来实现准确的检测。 仅使用波长选择滤光片的第一检测器检测荧光波长。 其他波长由第二检测器检测,从而获得反射光。 将反射光的数据处理成用于获得珠粒轮廓的图像,通过基于轮廓检测中心位置来识别珠粒位置,并且基于珠粒位置来量化荧光。