Patents by Inventor Adam Sartiel
Adam Sartiel has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 11940411Abstract: The invention provides a dry electroblotting system for dry blotting gels, in which the system includes an electroblotting transfer stack that comprises an analysis gel and a blotting membrane, an anode, a body of anodic gel matrix juxtaposed with the anode between the anode and the transfer stack, a cathode, and a body of cathodic gel matrix juxtaposed with the cathode between the cathode and the transfer stack, in which the anodic gel matrix and the cathodic gel matrix each comprise an ion source for electrophoretic transfer. The dry electroblotting system does not use any liquid buffers that are added to the system just before electroblotting (such as when the transfer stack is being assembled). The anode, the cathode, or both can be separate from a power supply and provided as part of a disposable electrode assembly that also includes a body of gel matrix that includes ions for electrophoretic transfer.Type: GrantFiled: August 27, 2020Date of Patent: March 26, 2024Assignee: THERMO FISHER ISRAEL LTD.Inventors: Ilana Margalit, Uri Yogev, Itay Sela, Yuri Katz, Adam Sartiel, Timothy Updyke
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Publication number: 20210063346Abstract: The invention provides a dry electroblotting system for dry blotting gels, in which the system includes an electroblotting transfer stack that comprises an analysis gel and a blotting membrane, an anode, a body of anodic gel matrix juxtaposed with the anode between the anode and the transfer stack, a cathode, and a body of cathodic gel matrix juxtaposed with the cathode between the cathode and the transfer stack, in which the anodic gel matrix and the cathodic gel matrix each comprise an ion source for electrophoretic transfer. The dry electroblotting system does not use any liquid buffers that are added to the system just before electroblotting (such as when the transfer stack is being assembled). The anode, the cathode, or both can be separate from a power supply and provided as part of a disposable electrode assembly that also includes a body of gel matrix that includes ions for electrophoretic transfer.Type: ApplicationFiled: August 27, 2020Publication date: March 4, 2021Inventors: Ilana MARGALIT, Uri YOGEV, Itay SELA, Yuri KATZ, Adam SARTIEL, Timothy UPDYKE
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Patent number: 10761055Abstract: The invention provides a dry electroblotting system for dry blotting gels, in which the system includes an electroblotting transfer stack that comprises an analysis gel and a blotting membrane, an anode, a body of anodic gel matrix juxtaposed with the anode between the anode and the transfer stack, a cathode, and a body of cathodic gel matrix juxtaposed with the cathode between the cathode and the transfer stack, in which the anodic gel matrix and the cathodic gel matrix each comprise an ion source for electrophoretic transfer. The dry electroblotting system does not use any liquid buffers that are added to the system just before electroblotting (such as when the transfer stack is being assembled). The anode, the cathode, or both can be separate from a power supply and provided as part of a disposable electrode assembly that also includes a body of gel matrix that includes ions for electrophoretic transfer.Type: GrantFiled: July 7, 2017Date of Patent: September 1, 2020Assignee: LIFE TECHNOLOGIES (ISRAEL) LTD.Inventors: Ilana Margalit, Uri Yogev, Itay Sela, Yuri Katz, Adam Sartiel, Timothy Updyke
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Publication number: 20180017523Abstract: The invention provides a dry electroblotting system for dry blotting gels, in which the system includes an electroblotting transfer stack that comprises an analysis gel and a blotting membrane, an anode, a body of anodic gel matrix juxtaposed with the anode between the anode and the transfer stack, a cathode, and a body of cathodic gel matrix juxtaposed with the cathode between the cathode and the transfer stack, in which the anodic gel matrix and the cathodic gel matrix each comprise an ion source for electrophoretic transfer. The dry electroblotting system does not use any liquid buffers that are added to the system just before electroblotting (such as when the transfer stack is being assembled). The anode, the cathode, or both can be separate from a power supply and provided as part of a disposable electrode assembly that also includes a body of gel matrix that includes ions for electrophoretic transfer.Type: ApplicationFiled: July 7, 2017Publication date: January 18, 2018Inventors: Ilana MARGALIT, Uri YOGEV, Itay SELA, Yuri KATZ, Adam SARTIEL, Timothy UPDYKE
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Patent number: 9709528Abstract: The invention provides a dry electroblotting system for dry blotting gels, in which the system includes an electroblotting transfer stack that comprises an analysis gel and a blotting membrane, an anode, a body of anodic gel matrix juxtaposed with the anode between the anode and the transfer stack, a cathode, and a body of cathodic gel matrix juxtaposed with the cathode between the cathode and the transfer stack, in which the anodic gel matrix and the cathodic gel matrix each comprise an ion source for electrophoretic transfer. The dry electroblotting system does not use any liquid buffers that are added to the system just before electroblotting (such as when the transfer stack is being assembled). The anode, the cathode, or both can be separate from a power supply and provided as part of a disposable electrode assembly that also includes a body of gel matrix that includes ions for electrophoretic transfer.Type: GrantFiled: January 17, 2014Date of Patent: July 18, 2017Assignee: LIFE TECHNOLOGIES ISREAL, LTD.Inventors: Ilana Margalit, Uri Yogev, Itay Sela, Yuri Katz, Adam Sartiel, Timothy Updyke
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Publication number: 20140131205Abstract: The invention provides a dry electroblotting system for dry blotting gels, in which the system includes an electroblotting transfer stack that comprises an analysis gel and a blotting membrane, an anode, a body of anodic gel matrix juxtaposed with the anode between the anode and the transfer stack, a cathode, and a body of cathodic gel matrix juxtaposed with the cathode between the cathode and the transfer stack, in which the anodic gel matrix and the cathodic gel matrix each comprise an ion source for electrophoretic transfer. The dry electroblotting system does not use any liquid buffers that are added to the system just before electroblotting (such as when the transfer stack is being assembled). The anode, the cathode, or both can be separate from a power supply and provided as part of a disposable electrode assembly that also includes a body of gel matrix that includes ions for electrophoretic transfer.Type: ApplicationFiled: January 17, 2014Publication date: May 15, 2014Applicant: LIFE TECHNOLOGIES ISRAEL, LTD.Inventors: Ilana MARGALIT, Uri YOGEV, Itay SELA, Yuri KATZ, Adam SARTIEL, Timothy UPDYKE
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Patent number: 8608930Abstract: The invention provides an electroblotting system for blotting gels, in which the system includes an electroblotting transfer stack that comprises an analysis gel and a blotting membrane, an anode, an ion source juxtaposed with the anode between the anode and the transfer stack, a cathode, and another ion source juxtaposed with the cathode between the cathode and the transfer stack, in which the each ion source is sufficient for electrophoretic transfer. The anode, the cathode, or both can be separate from a power supply and provided as part of a disposable electrode assembly that also includes a body of gel matrix that includes ions for electrophoretic transfer.Type: GrantFiled: February 15, 2012Date of Patent: December 17, 2013Assignee: Life Technologies CorporationInventors: Ilana Margalit, Uri Yogev, Itay Sela, Yuri Katz, Adam Sartiel
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Patent number: 8394250Abstract: The invention provides a dry electroblotting system for dry blotting gels, in which the system includes an electroblotting transfer stack that comprises an analysis gel and a blotting membrane, an anode, a body of anodic gel matrix juxtaposed with the anode between the anode and the transfer stack, a cathode, and a body of cathodic gel matrix juxtaposed with the cathode between the cathode and the transfer stack, in which the anodic gel matrix and the cathodic gel matrix each comprise an ion source for electrophoretic transfer. The dry electroblotting system does not use any liquid buffers that are added to the system just before electroblotting (such as when the transfer stack is being assembled). The anode, the cathode, or both can be separate from a power supply and provided as part of a disposable electrode assembly that also includes a body of gel matrix that includes ions for electrophoretic transfer.Type: GrantFiled: February 10, 2012Date of Patent: March 12, 2013Assignee: Life Technologies CorporationInventors: Ilana Margalit, Uri Yogev, Itay Sela, Yuri Katz, Adam Sartiel
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Patent number: 8268149Abstract: The invention provides a dry electroblotting system for dry blotting gels, in which the system includes an electroblotting transfer stack that comprises an analysis gel and a blotting membrane, an anode, a body of anodic gel matrix juxtaposed with the anode between the anode and the transfer stack, a cathode, and a body of cathodic gel matrix juxtaposed with the cathode between the cathode and the transfer stack, in which the anodic gel matrix and the cathodic gel matrix each comprise an ion source for electrophoretic transfer. The dry electroblotting system does not use any liquid buffers that are added to the system just before electroblotting (such as when the transfer stack is being assembled). The anode, the cathode, or both can be separate from a power supply and provided as part of a disposable electrode assembly that also includes a body of gel matrix that includes ions for electrophoretic transfer.Type: GrantFiled: August 21, 2006Date of Patent: September 18, 2012Assignee: Life Technologies CorporationInventors: Ilana Margalit, Uri Yogev, Itay Sela, Yuri Katz, Adam Sartiel
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Publication number: 20120211364Abstract: The invention provides an electroblotting system for blotting gels, in which the system includes an electroblotting transfer stack that comprises an analysis gel and a blotting membrane, an anode, an ion source juxtaposed with the anode between the anode and the transfer stack, a cathode, and another ion source juxtaposed with the cathode between the cathode and the transfer stack, in which the each ion source is sufficient for electrophoretic transfer. The anode, the cathode, or both can be separate from a power supply and provided as part of a disposable electrode assembly that also includes a body of gel matrix that includes ions for electrophoretic transfer.Type: ApplicationFiled: February 15, 2012Publication date: August 23, 2012Applicant: LIFE TECHNOLOGIES CORPORATIONInventors: Ilana Margalit, Uri Yogev, Itay Sela, Yuri Katz, Adam Sartiel
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Publication number: 20120138465Abstract: The invention provides a dry electroblotting system for dry blotting gels, in which the system includes an electroblotting transfer stack that comprises an analysis gel and a blotting membrane, an anode, a body of anodic gel matrix juxtaposed with the anode between the anode and the transfer stack, a cathode, and a body of cathodic gel matrix juxtaposed with the cathode between the cathode and the transfer stack, in which the anodic gel matrix and the cathodic gel matrix each comprise an ion source for electrophoretic transfer. The dry electroblotting system does not use any liquid buffers that are added to the system just before electroblotting (such as when the transfer stack is being assembled). The anode, the cathode, or both can be separate from a power supply and provided as part of a disposable electrode assembly that also includes a body of gel matrix that includes ions for electrophoretic transfer.Type: ApplicationFiled: February 10, 2012Publication date: June 7, 2012Applicant: LIFE TECHNOLOGIES CORPORATIONInventors: Ilana MARGALIT, Uri YOGEV, Itay SELA, Yuri KATZ, Adam SARTIEL
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Patent number: 8173002Abstract: The invention provides a dry electroblotting system for dry blotting gels, in which the system includes an electroblotting transfer stack that comprises an analysis gel and a blotting membrane, an anode, a body of anodic gel matrix juxtaposed with the anode between the anode and the transfer stack, a cathode, and a body of cathodic gel matrix juxtaposed with the cathode between the cathode and the transfer stack, in which the anodic gel matrix and the cathodic gel matrix each comprise an ion source for electrophoretic transfer. The dry electroblotting system does not use any liquid buffers that are added to the system just before electroblotting (such as when the transfer stack is being assembled). The anode, the cathode, or both can be separate from a power supply and provided as part of a disposable electrode assembly that also includes a body of gel matrix that includes ions for electrophoretic transfer.Type: GrantFiled: February 21, 2006Date of Patent: May 8, 2012Assignee: Life Technologies CorporationInventors: Ilana Margalit, Uri Yogev, Itay Sela, Yuri Katz, Adam Sartiel
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Publication number: 20120000781Abstract: The invention provides a dry electroblotting system for dry blotting gels, in which the system includes an electroblotting transfer stack that comprises an analysis gel and a blotting membrane, an anode, a body of anodic gel matrix juxtaposed with the anode between the anode and the transfer stack, a cathode, and a body of cathodic gel matrix juxtaposed with the cathode between the cathode and the transfer stack, in which the anodic gel matrix and the cathodic gel matrix each comprise an ion source for electrophoretic transfer. The dry electroblotting system does not use any liquid buffers that are added to the system just before electroblotting (such as when the transfer stack is being assembled). The anode, the cathode, or both can be separate from a power supply and provided as part of a disposable electrode assembly that also includes a body of gel matrix that includes ions for electrophoretic transfer.Type: ApplicationFiled: June 29, 2011Publication date: January 5, 2012Applicant: LITE TECHNOLOGIES CORPORATIONInventors: Ilana MARGALIT, Uri Yogev, Itay Sela, Yuri Katz, Adam Sartiel
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Publication number: 20090026079Abstract: The invention provides a dry electroblotting system for dry blotting gels, in which the system includes an electroblotting transfer stack that comprises an analysis gel and a blotting membrane, an anode, a body of anodic gel matrix juxtaposed with the anode between the anode and the transfer stack, a cathode, and a body of cathodic gel matrix juxtaposed with the cathode between the cathode and the transfer stack, in which the anodic gel matrix and the cathodic gel matrix each comprise an ion source for electrophoretic transfer. The dry electroblotting system does not use any liquid buffers that are added to the system just before electroblotting (such as when the transfer stack is being assembled). The anode, the cathode, or both can be separate from a power supply and provided as part of a disposable electrode assembly that also includes a body of gel matrix that includes ions for electrophoretic transfer.Type: ApplicationFiled: July 11, 2008Publication date: January 29, 2009Applicant: INVITROGEN CORPORATIONInventors: Ilana MARGALIT, Uri Yogev, Itay Sela, Yuri Katz, Adam Sartiel, Timothy Updyke
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Publication number: 20060278531Abstract: The invention provides a dry electroblotting system for dry blotting gels, in which the system includes an electroblotting transfer stack that comprises an analysis gel and a blotting membrane, an anode, a body of anodic gel matrix juxtaposed with the anode between the anode and the transfer stack, a cathode, and a body of cathodic gel matrix juxtaposed with the cathode between the cathode and the transfer stack, in which the anodic gel matrix and the cathodic gel matrix each comprise an ion source for electrophoretic transfer. The dry electroblotting system does not use any liquid buffers that are added to the system just before electroblotting (such as when the transfer stack is being assembled). The anode, the cathode, or both can be separate from a power supply and provided as part of a disposable electrode assembly that also includes a body of gel matrix that includes ions for electrophoretic transfer.Type: ApplicationFiled: August 21, 2006Publication date: December 14, 2006Inventors: Ilana Margalit, Uri Yogev, Itay Sela, Yuri Katz, Adam Sartiel
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Publication number: 20060272946Abstract: The invention provides a dry electroblotting system for dry blotting gels, in which the system includes an electroblotting transfer stack that comprises an analysis gel and a blotting membrane, an anode, a body of anodic gel matrix juxtaposed with the anode between the anode and the transfer stack, a cathode, and a body of cathodic gel matrix juxtaposed with the cathode between the cathode and the transfer stack, in which the anodic gel matrix and the cathodic gel matrix each comprise an ion source for electrophoretic transfer. The dry electroblotting system does not use any liquid buffers that are added to the system just before electroblotting (such as when the transfer stack is being assembled). The anode, the cathode, or both can be separate from a power supply and provided as part of a disposable electrode assembly that also includes a body of gel matrix that includes ions for electrophoretic transfer.Type: ApplicationFiled: February 21, 2006Publication date: December 7, 2006Inventors: Ilana Margalit, Uri Yogev, Itay Sela, Yuri Katz, Adam Sartiel
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Publication number: 20010039539Abstract: A method for performing an experiment is provided, which method comprises providing or selecting experiment tools, performing the experiment with the aid of said tools and analyzing the results. A data-containing site on a computer network is communicated through the network to extract therefrom experiment-specific data This data is utilized for either designing or selecting the tools, defining parameters or manner of performing the experiment, predicting the outcome of one or more subsequent steps of the experiment and/or analyzing the results or data obtained in the experiment.Type: ApplicationFiled: December 11, 2000Publication date: November 8, 2001Inventors: Adam Sartiel, Lior Ma'Ayan