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    • 3. 发明授权
    • Method of measuring target object in a sample using mass spectrometry
    • 使用质谱法测定样品中的目标物体的方法
    • US07956321B2
    • 2011-06-07
    • US12239344
    • 2008-09-26
    • Yohei MurayamaManabu KomatsuHiroyuki Hashimoto
    • Yohei MurayamaManabu KomatsuHiroyuki Hashimoto
    • H01J49/00
    • H01J49/40H01J49/0004Y10T436/24
    • In-plane distribution of a target object contained in a sample is measured. The sample dispersedly placed on a substrate is treated to promote ionization of the target object. Then, the mass and flying amount of an ion containing the target object or a component thereof is determined by irradiating an ion beam to the sample and performing time-of-flight secondary ion mass spectrometry of the ion that flies from a portion in the sample where the ion beam is irradiated, and the in-plane distribution of the target object is determined from the mass and flying amount data obtained at plural portions by scanning the beam on the sample plane. The step of treating the sample to promote ionization of the target object includes contacting an aqueous solution of an acid that does not crystallize at ordinary temperature with the sample. A high spatial resolution two-dimensional image can be obtained.
    • 测量包含在样本中的目标对象的平面内分布。 处理分散放置在基板上的样品,以促进目标物体的电离。 然后,通过向样品照射离子束并进行从样品的一部分飞出的离子的飞行时间二次离子质谱法来确定含有目标物体或其成分的离子的质量和飞散量 其中照射离子束,并且通过在样品平面上扫描光束从多个部分获得的质量和飞行量数据确定目标物体的面内分布。 处理样品以促进目标物体的电离的步骤包括使常温下不结晶的酸的水溶液与样品接触。 可以获得高空间分辨率的二维图像。
    • 5. 发明授权
    • In-plane distribution measurement method
    • 平面内分布测量方法
    • US07446309B2
    • 2008-11-04
    • US11283912
    • 2005-11-22
    • Yohei MurayamaManabu KomatsuHiroyuki Hashimoto
    • Yohei MurayamaManabu KomatsuHiroyuki Hashimoto
    • H01J49/00
    • H01J49/40H01J49/0004Y10T436/24
    • In plane distribution of a target object contained in a sample is measured. The sample dispersedly placed on a substrate is treated to promote ionization of the target object. Then, the mass and flying amount of an ion containing the target object or a component thereof is determined by irradiating an ion beam to the sample and performing time-of-flight secondary ion mass spectrometry of the ion that flies from a portion in the sample where the ion beam is irradiated, and the in-plane distribution of the target object is determined from the mass and flying amount data obtained at plural portions by scanning the beam on the sample plane. The step of treating the sample to promote ionization of the target object includes contacting an aqueous solution of an acid that does not crystallize at ordinary temperature with the sample. A high spatial resolution two-dimensional image can be obtained.
    • 测量样品中包含的目标物体的平面分布。 处理分散放置在基板上的样品,以促进目标物体的电离。 然后,通过向样品照射离子束并进行从样品的一部分飞出的离子的飞行时间二次离子质谱法来确定含有目标物体或其成分的离子的质量和飞散量 其中照射离子束,并且通过在样品平面上扫描光束从多个部分获得的质量和飞行量数据确定目标物体的面内分布。 处理样品以促进目标物体的电离的步骤包括使常温下不结晶的酸的水溶液与样品接触。 可以获得高空间分辨率的二维图像。
    • 6. 发明授权
    • Method for treating living samples and analyzing the same
    • 处理活体样本并进行分析的方法
    • US09086404B2
    • 2015-07-21
    • US11867276
    • 2007-10-04
    • Manabu KomatsuHiroyuki HashimotoKazuhiro BanYohei Murayama
    • Manabu KomatsuHiroyuki HashimotoKazuhiro BanYohei Murayama
    • G01N33/50G01N35/10
    • G01N33/5082G01N35/1002G01N2035/1041
    • A method is provided by which a reagent is provided to a living sample, including contacting a thin-film containing a porous body with a living sample containing cells or tissues, and discharging a solution containing at least one or more reagents to a non-contact side of the thin-film by ink-jet to provide the solution to the specific area of the living sample through pores on the thin-film, wherein the smaller diameter of the pores on the porous body relative to the diameter of cells in the living sample enables the reagent to be provided to each individual cell separately. According to this method, the reagent and the reaction product can be fixed while maintaining positioning information of the target substance in the living sample, as a pretreatment for analyzing with high positioning accuracy the target substance in each individual cell in the living sample.
    • 提供了一种将试剂提供给活体样品的方法,包括使含有多孔体的薄膜与含有细胞或组织的活体样品接触,并将含有至少一种或多种试剂的溶液排出至非接触 通过喷墨使薄膜的一侧通过薄膜上的孔提供到活体样品的特定区域的溶液,其中多孔体上的孔的直径相对于活体中细胞的直径较小 样品使得可以分别向每个单独的细胞提供试剂。 根据该方法,可以在维持活体样品中的目标物质的定位信息的同时固定试剂和反应产物,作为用于以高定位精度分析活体样品中各个细胞中的目标物质的预处理。
    • 7. 发明申请
    • INFORMATION ACQUISITION METHOD
    • 信息获取方法
    • US20140087408A1
    • 2014-03-27
    • US13995645
    • 2011-11-28
    • Yohei MurayamaHiroyuki HashimotoManabu Komatsu
    • Yohei MurayamaHiroyuki HashimotoManabu Komatsu
    • G01N33/574
    • G01N33/57415C07K14/4756G01N33/6848G01N2333/4756
    • The present invention relates to an information acquisition method of acquiring information of distribution of a protein or peptide in a sample based on mass information obtained by mass spectrometry of the protein or peptide. The method includes mass spectrometry of a definite region of the sample after limited proteolysis of the protein or peptide and acquisition of information relating to distribution using an ion peak that has a two-dimensional intensity distribution having a Pearson product-moment correlation coefficient of 0.5 to more and 1.0 or less in the definite region against the two-dimensional intensity distribution of the parent ion of the protein or the peptide subjected to the limited proteolysis and has a peak intensity ratio of larger than 1.0 against the peak intensity of the integrated spectrum of the parent ion in the definite region, wherein the m/z of the ion peak is greater than 500.
    • 本发明涉及基于通过蛋白质或肽的质谱法获得的质量信息获取样品中蛋白质或肽的分布信息的信息获取方法。 该方法包括在蛋白质或肽的有限蛋白水解之后样品的确定区域的质谱,并且使用具有Pearson积矩相关系数为0.5的二维强度分布的离子峰获取与分布有关的信息 相对于蛋白质或经受有限蛋白水解的肽的母离子的二维强度分布,确定区域中的1.0和更小,并且具有大于1.0的峰强度比与峰积分的峰强度比 该定子区域中的母离子,其中离子峰的m / z大于500。
    • 9. 发明授权
    • Method for obtaining information and device therefor
    • 获取信息的方法及其设备
    • US07851749B2
    • 2010-12-14
    • US12017584
    • 2008-01-22
    • Manabu KomatsuHiroyuki HashimotoYohei MurayamaKazuhiro Ban
    • Manabu KomatsuHiroyuki HashimotoYohei MurayamaKazuhiro Ban
    • H01J49/00
    • H01J49/142
    • A method for obtaining information on a mass of an object by time-of-flight mass spectrometry. This method includes placing colloidal metal particles for promoting ionization of the object inside the object at a depth ranging from 0.1 nm to 100 nm in opposition to a primary beam for the ionization; irradiating the object with the primary beam selected from the group of ions, neutral particles, and electrons, which can be focused, pulsed, and are capable of scanning, and laser beams, which can be focused, pulsed, and are capable of scanning to ionize a constituent of the object and to allow the ionized constituent to fly out of the object; and obtaining information on the mass of the flying constituent of the object by time-of-flight mass spectrometry.
    • 一种通过飞行时间质谱法获得物体质量信息的方法。 该方法包括将胶体金属颗粒放置在与离子化的主光束相反的0.1nm至100nm范围内的物体内部物体的离子化; 用可以被聚焦,脉冲和能够扫描的离子,中性粒子和电子组中选择的主要束照射物体,以及可以被聚焦,脉冲且能够扫描的激光束 电离物体的成分并使离子化成分从物体飞出; 并通过飞行时间质谱法获得关于物体飞行成分质量的信息。
    • 10. 发明授权
    • Information obtaining method
    • 信息获取方法
    • US07795579B2
    • 2010-09-14
    • US12120512
    • 2008-05-14
    • Manabu KomatsuHiroyuki HashimotoYohei MurayamaKazuhiro Ban
    • Manabu KomatsuHiroyuki HashimotoYohei MurayamaKazuhiro Ban
    • B01D59/44
    • H01J49/145
    • An information obtaining method for obtaining information about a mass of a component of an analyte using a time of flight mass spectrometer and obtaining information about a distribution state of the component based on the obtained information about the mass includes the step of: (1) adding a self-reactive substance to the analyte on a base to facilitate ionization of the component; (2) irradiating the analyte with a primary beam in the presence of the self-reactive substance, thereby ionizing the components and allowing resulting ions to fly; (3) obtaining information about mass of the flying ions using the time of flight mass spectrometer; and (4) obtaining information about the distribution state of the component on the base based on the information about the mass.
    • 使用飞行时间质谱仪获取关于分析物的成分的质量的信息的信息获取方法,基于获得的关于质量的信息获得关于部件的分布状态的信息,包括以下步骤:(1)添加 对基底上的分析物的自反应物质,以促进组分的离子化; (2)在存在自反应物质的情况下用主光束照射分析物,从而电离成分并允许所得离子飞行; (3)使用飞行时间质谱仪获取关于飞行离子质量的信息; 和(4)基于关于质量的信息获得关于组件在基础上的分布状态的信息。