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    • 4. 发明申请
    • METHODS FOR MINIMIZING SEQUENCE SPECIFIC BIAS
    • 最小化序列特定偏差的方法
    • US20130344540A1
    • 2013-12-26
    • US13980302
    • 2012-01-10
    • Mark T. ReedMark Pratt
    • Mark T. ReedMark Pratt
    • C12P19/34
    • C12P19/34C12Q1/6837C12Q1/6846C12Q2565/501
    • Provided herein are methods of nucleic acid amplification. An exemplary method includes the steps of (a) providing a surface comprising a plurality of patches of primers, (b) providing a plurality of different nucleic acid molecules, (c) contacting the plurality of different nucleic acid molecules with the surface under conditions wherein the nucleic acid molecules bind to primers at only a subset of the patches, (d) amplifying the nucleic acid molecules under conditions to saturate the subset of patches with copies of the nucleic acid molecules, and repeating steps (c) and (d), thereby increasing the number of patches that are saturated with copies of the nucleic acid molecules.
    • 本文提供了核酸扩增的方法。 示例性方法包括以下步骤:(a)提供包含多个引物片的表面,(b)提供多个不同的核酸分子,(c)在多个不同的核酸分子的条件下使多个不同的核酸分子与表面接触, 所述核酸分子仅在片段的一个子集上结合引物,(d)在使所述核酸分子拷贝饱和的条件下扩增核酸分子,并重复步骤(c)和(d), 从而增加用核酸分子拷贝饱和的斑块的数量。
    • 8. 发明授权
    • Multi-well microfiltration apparatus
    • 多孔微滤装置
    • US06338802B1
    • 2002-01-15
    • US09565566
    • 2000-05-04
    • Kevin S. BodnerAlfred P. MaddenJoseph JacksonJason H. HalseyMark T. ReedWard FryeMark F. OldhamStephen E. MoringJon Hoshizaki
    • Kevin S. BodnerAlfred P. MaddenJoseph JacksonJason H. HalseyMark T. ReedWard FryeMark F. OldhamStephen E. MoringJon Hoshizaki
    • B01D6100
    • B01L3/5025B01D61/18B01L3/50255B01L2400/049G01N35/0099G01N35/028G01N35/1074G01N2035/00485G01N2035/102Y10T436/25
    • The present invention provides multi-well plates and column arrays in which samples (e.g., cell lysates containing nucleic acids of interest, such as RNA) can be analyzed and/or processed. In one embodiment, the microfiltration arrangement is a multilayer structure, including (i) a column plate having an array of minicolumns into which samples can be placed, (ii) a discrete filter element disposed in each minicolumn, (iii) a drip-director plate having a corresponding array of drip directors through which filtrate may egress, and (iv) a receiving-well plate having a corresponding array of receiving wells into which filtrate can flow. The invention provides multi-well microfiltration arrangements that are relatively simple to manufacture and that overcome many of the problems associated with the prior arrangements relating to (i) cross-contamination due to wicking across a common filter sheet or (ii) individual filter elements entrapping sample constituents within substantial dead volumes. Further, the invention provides multi-well microfiltration arrangements that adequately support discrete filter elements disposed in the wells without creating substantial preferential flow. Additionally, the invention provides multi-well microfiltration arrangements that avoid cross-contamination due to aerosol formation, pendent drops and/or splattering. Other disclosed features of the invention provide for the automated covering or heat-sealing of filtrate samples separately collected in an array of wells.
    • 本发明提供了多孔板和柱阵列,其中可以分析和/或处理样品(例如,含有目标核酸的细胞裂解物,例如RNA)。 在一个实施方案中,微滤装置是多层结构,包括(i)具有可以放置样品的小柱阵列的柱板,(ii)设置在每个小柱中的离散过滤元件,(iii)滴液导向器 板具有相应的滴液导向器阵列,滤液可以通过其排出;以及(iv)接收孔板,其具有滤液能够流过的相应阵列的接收孔。 本发明提供了相对简单的多孔微量过滤装置,并且克服了许多与先前布置有关的问题,这些问题涉及(i)由于芯毛穿过公共过滤片引起的交叉污染或(ii)截留的单个过滤器元件 大量死体积的样品成分。 此外,本发明提供了多孔微过滤装置,其充分地支撑设置在井中的分立的过滤元件,而不产生实质的优先流动。 此外,本发明提供了多孔微滤装置,其避免了由于气溶胶形成,悬垂滴和/或飞溅而导致的交叉污染。 本发明的其它公开的特征提供了分别收集在孔阵列中的滤液样品的自动覆盖或热封。
    • 10. 发明授权
    • High density plate filler
    • 高密度板填料
    • US07998435B2
    • 2011-08-16
    • US11393061
    • 2006-03-30
    • Mark T. Reed
    • Mark T. Reed
    • B01L3/00
    • G01N35/1074B01L3/0293B01L3/5025B01L3/50851B01L3/50853B01L3/563B01L2200/021B01L2200/025B01L2200/0605B01L2200/0642B01L2200/0684B01L2300/0829B01L2300/0864B01L2300/1805B01L2400/0406B01L2400/0409B01L2400/0487Y10T436/2575
    • A filling apparatus for filling a microplate. The microplate having a plurality of wells each sized to receive an assay. The filling apparatus can comprise an output layer having a plurality of capillaries, wherein a first grouping of the capillaries is separated from a second grouping by a hydrophobic feature. Each of the plurality of capillaries can comprise an inlet and an outlet. A funnel assembly can comprise a funnel member sized to receive the assay. The funnel member can comprise an outlet for delivering a fluid bead of the assay along a top surface of the output layer and in fluid communication with each of the plurality of capillaries such that a portion of the fluid bead can be drawn within at least some of the plurality of capillaries in response to capillary force. The funnel assembly and the output layer can be moveable relative to each other between a first position and a second position to draw the fluid bead across the top surface.
    • 一种用于填充微板的填充装置。 微量培养板具有多个孔,每个孔的大小用于接受测定。 填充设备可以包括具有多个毛细管的输出层,其中毛细管的第一组通过疏水特征与第二组分离。 多个毛细管中的每一个可以包括入口和出口。 漏斗组件可以包括尺寸适于接收测定的漏斗构件。 漏斗构件可以包括用于沿着输出层的顶表面递送测定的流体珠的出口,并且与多个毛细管中的每一个流体连通,使得流体珠的一部分可以在至少一些 多个毛细管响应于毛细管力。 漏斗组件和输出层可以在第一位置和第二位置之间相对于彼此移动,以便在顶表面上拉动流体珠。