-
公开(公告)号:US20060024732A1
公开(公告)日:2006-02-02
申请号:US11230411
申请日:2005-09-20
申请人: Mingxian Huang , Lei Wu , Xiaobo Wang , Junquan Xu , Guo Liang Tao , David Rothwarf
发明人: Mingxian Huang , Lei Wu , Xiaobo Wang , Junquan Xu , Guo Liang Tao , David Rothwarf
IPC分类号: C12Q1/68
CPC分类号: C40B40/12 , B01J19/0046 , B01J2219/00457 , B01J2219/00468 , B01J2219/00497 , B01J2219/005 , B01J2219/00502 , B01J2219/0054 , B01J2219/00542 , B01J2219/00547 , B01J2219/00549 , B01J2219/00556 , B01J2219/00576 , B01J2219/00585 , B01J2219/0059 , B01J2219/00592 , B01J2219/00596 , B01J2219/00655 , B01J2219/00659 , B01J2219/00702 , B01J2219/00707 , B01J2219/0072 , B01J2219/00722 , B01J2219/00725 , B01J2219/00729 , B01J2219/00731 , B01J2219/00734 , B01J2219/0074 , B01J2219/00743 , B01L3/5027 , B01L3/50273 , B01L3/502761 , B01L2200/0647 , B01L2300/0819 , B01L2400/0415 , B01L2400/043 , B03C5/028 , B82Y5/00 , B82Y10/00 , B82Y30/00 , C07B2200/11 , C07K1/047 , C40B40/06 , C40B40/10 , G01N33/54366 , G01N33/54386 , G06K19/06009 , G06K19/06046 , G06K19/06196 , Y10T428/24917
摘要: This invention relates generally to the field of moiety or molecule isolation, detection and manipulation and library synthesis. In particular, the invention provides a microdevice, which microdevice comprises: a) a magnetizable substance; and b) a photorecognizable coding pattern, wherein said microdevice has a preferential axis of magnetization. Systems and methods for isolating, detecting and manipulating moieties and synthesizing libraries using the microdevices are also provided.
-
2.发明申请公开(公告)号:US20080286750A1
公开(公告)日:2008-11-20
申请号:US11841985
申请日:2007-08-20
申请人: Jia XU , Antonio Guia , Xiaobo Wang , Lei Wu , Junquan Xu , Mingxian Huang , David Rothwarf
发明人: Jia XU , Antonio Guia , Xiaobo Wang , Lei Wu , Junquan Xu , Mingxian Huang , David Rothwarf
IPC分类号: C12Q1/00
CPC分类号: G01N33/48728
摘要: The present invention recognizes that the determination of ion transport function or properties using direct detection methods, such as whole cell recording or single channel recording, are preferable to methods that utilize indirect detection methods, such as FRET based detection system. The present invention provides biochips and other fluidic components and methods of use that allow for the direct analysis of ion transport function or properties using microfabricated structures that can allow for automated detection of ion transport function or properties. These biochips and fluidic components and methods of use thereof are particularly appropriate for automating the detection of ion transport function or properties, particularly for screening purposes.
摘要翻译: 本发明认识到,使用诸如全细胞记录或单通道记录之类的直接检测方法的离子转运功能或性质的确定优于使用间接检测方法的方法,例如基于FRET的检测系统。 本发明提供生物芯片和其他流体组分和使用方法,其允许使用可允许自动检测离子迁移功能或性质的微结构的直接分析离子转运功能或性质。 这些生物芯片和流体组分及其使用方法特别适用于自动化离子迁移功能或性质的检测,特别是用于筛选目的。
-
3.发明申请公开(公告)号:US20050009004A1
公开(公告)日:2005-01-13
申请号:US10760886
申请日:2004-01-20
申请人: Jia Xu , Antonio Guia , Xiaobo Wang , Lei Wu , Junquan Xu , Mingxian Huang , David Rothwarf
发明人: Jia Xu , Antonio Guia , Xiaobo Wang , Lei Wu , Junquan Xu , Mingxian Huang , David Rothwarf
IPC分类号: C12M1/34 , C12Q1/00 , G01N33/487
CPC分类号: G01N33/48728
摘要: The present invention recognizes that the determination of ion transport function or properties using direct detection methods, such as whole cell recording or single channel recording, are preferable to methods that utilize indirect detection methods, such as FRET based detection system. The present invention provides biochips and other fluidic components and methods of use that allow for the direct analysis of ion transport function or properties using microfabricated structures that can allow for automated detection of ion transport function or properties. These biochips and fluidic components and methods of use thereof are particularly appropriate for automating the detection of ion transport function or properties, particularly for screening purposes.
摘要翻译: 本发明认识到,使用诸如全细胞记录或单通道记录之类的直接检测方法的离子转运功能或性质的确定优于使用间接检测方法的方法,例如基于FRET的检测系统。 本发明提供生物芯片和其他流体组分和使用方法,其允许使用可允许自动检测离子迁移功能或性质的微结构的直接分析离子转运功能或性质。 这些生物芯片和流体组分及其使用方法特别适用于自动化离子迁移功能或性质的检测,特别是用于筛选目的。
-
4.发明申请公开(公告)号:US20050266478A1
公开(公告)日:2005-12-01
申请号:US11153825
申请日:2005-06-15
申请人: Mingxian Huang , David Rothwarf , Jia Xu , Xiaobo Wang , Lei Wu , Antonio Guia
发明人: Mingxian Huang , David Rothwarf , Jia Xu , Xiaobo Wang , Lei Wu , Antonio Guia
IPC分类号: B01L3/00 , B03C5/02 , B81B1/00 , C12M1/34 , C12Q1/68 , G01N15/10 , G01N33/487 , G01N33/50 , H01L21/00
CPC分类号: B01L3/502792 , B01L3/50273 , B01L3/502761 , B01L3/5088 , B01L2200/027 , B01L2200/0668 , B01L2300/0627 , B01L2300/0645 , B01L2300/0819 , B01L2300/089 , B01L2400/0415 , B01L2400/0418 , B01L2400/0421 , B01L2400/043 , B01L2400/0436 , B01L2400/0457 , B01L2400/049 , G01N33/48728
摘要: The present invention recognizes that the determination of an ion transport function or property using direct detection methods, such as patch-clamps, whole cell recording or single channel recording, are preferable to methods that utilize indirect detection methods, such as FRET based detection system. The present invention provides biochips and methods of use that allow for the direct analysis of ion transport functions or properties using microfabricated structures that can allow for automated detection of one or more ion transport functions or properties. These biochips and methods of use thereof are particularly appropriate for automating the detection of ion transport functions or properties, particularly for screening purposes.
摘要翻译: 本发明认识到使用直接检测方法(例如贴片钳,全细胞记录或单通道记录)的离子转运功能或性质的确定优于使用间接检测方法的方法,例如基于FRET的检测系统。 本发明提供生物芯片和使用方法,其允许使用可以允许自动检测一种或多种离子转运功能或性质的微结构的离子转运功能或性质的直接分析。 这些生物芯片及其使用方法特别适用于自动化离子迁移功能或性质的检测,特别是用于筛选目的。
-
5.发明授权公开(公告)号:US07723029B2
公开(公告)日:2010-05-25
申请号:US11153825
申请日:2005-06-15
申请人: Mingxian Huang , David Rothwarf , Jia Xu , Xiaobo Wang , Lei Wu , Antonio Guia
发明人: Mingxian Huang , David Rothwarf , Jia Xu , Xiaobo Wang , Lei Wu , Antonio Guia
IPC分类号: C12Q1/68
CPC分类号: B01L3/502792 , B01L3/50273 , B01L3/502761 , B01L3/5088 , B01L2200/027 , B01L2200/0668 , B01L2300/0627 , B01L2300/0645 , B01L2300/0819 , B01L2300/089 , B01L2400/0415 , B01L2400/0418 , B01L2400/0421 , B01L2400/043 , B01L2400/0436 , B01L2400/0457 , B01L2400/049 , G01N33/48728
摘要: The present invention recognizes that the determination of an ion transport function or property using direct detection methods, such as patch-clamps, whole cell recording or single channel recording, are preferable to methods that utilize indirect detection methods, such as FRET based detection system. The present invention provides biochips and methods of use that allow for the direct analysis of ion transport functions or properties using microfabricated structures that can allow for automated detection of one or more ion transport functions or properties. These biochips and methods of use thereof are particularly appropriate for automating the detection of ion transport functions or properties, particularly for screening purposes.
摘要翻译: 本发明认识到使用直接检测方法(例如贴片钳,全细胞记录或单通道记录)的离子转运功能或性质的确定优于使用间接检测方法的方法,例如基于FRET的检测系统。 本发明提供生物芯片和使用方法,其允许使用可以允许自动检测一种或多种离子转运功能或性质的微结构的离子转运功能或性质的直接分析。 这些生物芯片及其使用方法特别适用于自动化离子迁移功能或性质的检测,特别是用于筛选目的。
-
公开(公告)号:US09152905B2
公开(公告)日:2015-10-06
申请号:US12018319
申请日:2008-01-23
CPC分类号: B01J19/0046 , B01J2219/00497 , B01J2219/00549 , B01J2219/00563 , B01J2219/00585 , B01J2219/00655 , B01J2219/00709 , C40B40/00 , C40B50/00 , G01N33/54326 , G01N33/54366 , G06K19/06187
摘要: Microdevices containing a predetermined preferential axis of magnetization are disposed in an array having discreet regions. Under influence of a magnetic field, the microdevices can have at least twelve discrete orientations, and can advantageously be flipped upside down in place. Microdevices can be coded in a manner that supports a coding space of at least 102, 103, 106 or even 1010 or more choices, and can include one or more chemically reactive sites. The regions can be defined by long and short bars, in which microdevices span gaps between the longer bars, and the shorter bars measure less than 60% of such gaps. Preferred embodiments are also provided to produce microfabricated microdevices for magnetic assembly-based arraying.
摘要翻译: 包含预定的磁化优选轴的微器件设置在具有谨慎区域的阵列中。 在磁场的影响下,微器件可以具有至少十二个离散取向,并且可以有利地在适当位置上翻翻。 可以以支持至少102,103,106甚至1010或更多选择的编码空间的方式对微器件进行编码,并且可以包括一个或多个化学反应位点。 这些区域可以由长条和短条定义,其中微型设备跨越长条之间的间隙,较短的条测量小于这种间隙的60%。 还提供了优选实施例以产生用于基于磁性组件的排列的微加工微型器件。
-
公开(公告)号:US20080176762A1
公开(公告)日:2008-07-24
申请号:US12018319
申请日:2008-01-23
CPC分类号: B01J19/0046 , B01J2219/00497 , B01J2219/00549 , B01J2219/00563 , B01J2219/00585 , B01J2219/00655 , B01J2219/00709 , C40B40/00 , C40B50/00 , G01N33/54326 , G01N33/54366 , G06K19/06187
摘要: Microdevices containing a predetermined preferential axis of magnetization are disposed in an array having discreet regions. Under influence of a magnetic field, the microdevices can have at least twelve discrete orientations, and can advantageously be flipped upside down in place. Microdevices can be coded in a manner that supports a coding space of at least 102, 103, 106 or even 1010 or more choices, and can include one or more chemically reactive sites. The regions can be defined by long and short bars, in which microdevices span gaps between the longer bars, and the shorter bars measure less than 60% of such gaps. Preferred embodiments are also provided to produce microfabricated microdevices for magnetic assembly-based arraying.
摘要翻译: 包含预定的磁化优选轴的微器件设置在具有谨慎区域的阵列中。 在磁场的影响下,微器件可以具有至少十二个离散取向,并且可以有利地在适当位置上翻翻。 可以以支持至少10个,10个,10个,6个,甚至10个以上的编码空间的方式对微器件进行编码。 10个或更多个选择,并且可以包括一个或多个化学反应位点。 这些区域可以由长条和短条定义,其中微型设备跨越长条之间的间隙,较短的条测量小于这种间隙的60%。 还提供了优选实施例以产生用于基于磁性组件的排列的微加工微型器件。
-
公开(公告)号:US20080176765A1
公开(公告)日:2008-07-24
申请号:US12018439
申请日:2008-01-23
申请人: David Rothwarf
发明人: David Rothwarf
CPC分类号: B01J19/0046 , B01J2219/00497 , B01J2219/00549 , B01J2219/00563 , B01J2219/00585 , B01J2219/00655 , B01J2219/00709 , C40B40/00 , C40B50/00 , G01N33/54326 , G01N33/54366 , G06K19/06187
摘要: Particles or other microdevices are disposed in an array having discreet regions (e.g. magnetic bars), oriented within a magnetic field, and then sorted through application of a removing force under conditions that remove a proper subset of the microdevices from the array as a function of differing orientations of the microdevices. Methods are also contemplated for using magnetic patterns to sort collections of microdevices by magnetic complementarity. Preferred methods use a capture and release process to sort microdevices (microdevices), and unlike conventional sorters, do not require high particle flow rates. Also contemplated are microdevice libraries in which microdevices have mutually distinct magnetic codes, and a region with a mutually distinct polymeric or other chemical moiety.
摘要翻译: 颗粒或其他微型设备被布置成具有定向在磁场内的离散区域(例如磁棒)的阵列中,然后在将阵列中的微型设备的适当子集从数组中移除的条件下通过施加去除力进行排序,作为 微器件的不同取向。 也考虑使用磁图案通过磁互补来分类微器件的集合的方法。 优选的方法使用捕获和释放过程来排序微型设备(微型设备),并且与传统的分选机不同,不需要高的颗粒流速。 还考虑了微器件库,其中微器件具有相互不同的磁性代码,以及具有相互不同的聚合物或其它化学部分的区域。
-
公开(公告)号:US20070166812A1
公开(公告)日:2007-07-19
申请号:US11716086
申请日:2007-03-09
申请人: Michael Karin , David Rothwarf , Ebrahim Zandi
发明人: Michael Karin , David Rothwarf , Ebrahim Zandi
IPC分类号: C12N9/12
CPC分类号: C12N9/1205
摘要: The present invention provides a novel essential regulatory subunit of the IκB kinase (IKK) complex, IKK-γ. The isolated IKK-γ subunit of the invention has substantially the same amino acid sequence as SEQ ID NO: 2 shown in FIG. 2.
摘要翻译: 本发明提供IkappaB激酶(IKK)复合物IKK-γ的新型必需调节亚基。 本发明的分离的IKK-γ亚基具有与图1所示的SEQ ID NO:2基本相同的氨基酸序列。 2。
-
-
-
-
-
-
-
-
搜索结果
9 条记录 (耗时 0.043 秒)