Patents by Inventor Kyrylo ZAGOROVSKY
Kyrylo ZAGOROVSKY 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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Publication number: 20240192221Abstract: The invention describes methods and reagents useful for sequencing polypeptide molecules. The method comprises affixing a polypeptide to a substrate and contacting the polypeptide with a plurality of probes that selectively bind to a terminal amino acid or a terminal amino acid derivative. Probes bound to the polypeptide molecule are then identified before cleaving the terminal amino acid or terminal amino acid derivative of the polypeptide. Also provided are probe compositions comprising (a) a ClpS variant comprising at least 80% sequence identity to SEQ ID NO: 1, wherein the ClpS variant binds to an N-terminal amino acid or a N-terminal amino acid derivative with a different selectivity than a wild-type ClpS; and (b) a detectable label.Type: ApplicationFiled: September 22, 2023Publication date: June 13, 2024Applicant: The Governing Council of the University of TorontoInventors: Andrew Emili, Megan McLaughlin, Kyrylo Zagorovsky, Jonathan Buchanan Olsen, Warren C.W. Chan, Sachdev S. Sidhu
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Patent number: 11802878Abstract: The invention describes methods and reagents useful for sequencing polypeptide molecules. The method comprises affixing a polypeptide to a substrate and contacting the polypeptide with a plurality of probes. Each probe selectively binds to an N-terminal amino acid or an N-terminal amino acid derivative. Probes bound to the polypeptide molecule are then identified before cleaving the N-terminal amino acid or N-terminal amino acid derivative of the polypeptide. Also provided are methods for the sequencing a plurality of polypeptide molecules in a sample and probes specific for N-terminal amino acids or N-terminal amino acid derivatives.Type: GrantFiled: November 18, 2019Date of Patent: October 31, 2023Assignee: The Governing Council of the University of TorontoInventors: Andrew Emili, Megan McLaughlin, Kyrylo Zagorovsky, Jonathan Buchanan Olsen, Warren C. W. Chan, Sachdev S. Sidhu
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Patent number: 11248255Abstract: An automated multiplex detector system includes: (a) a nucleic acid amplification compartment for amplifying nucleic acid of one or more targets in a sample, and (b) an analysis compartment in fluid communication with the amplification compartment, the analysis compartment housing a nanoparticle-based multiplex detector capable of using the amplified nucleic acid of the amplification compartment and producing a signal that correlates with the presence of the one or more targets in the sample.Type: GrantFiled: June 17, 2016Date of Patent: February 15, 2022Assignee: The Governing Council of the University of TorontoInventors: Warren C. W. Chan, Jisung Kim, Kyrylo Zagorovsky
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Publication number: 20200141944Abstract: The invention describes methods and reagents useful for sequencing polypeptide molecules. The method comprises affixing a polypeptide to a substrate and contacting the polypeptide with a plurality of probes. Each probe selectively binds to an N-terminal amino acid or an N-terminal amino acid derivative. Probes bound to the polypeptide molecule are then identified before cleaving the N-terminal amino acid or N-terminal amino acid derivative of the polypeptide. Also provided are methods for the sequencing a plurality of polypeptide molecules in a sample and probes specific for N-terminal amino acids or N-terminal amino acid derivatives.Type: ApplicationFiled: November 18, 2019Publication date: May 7, 2020Inventors: Andrew Emili, Megan McLaughlin, Kyrylo Zagorovsky, Jonathan Buchanan Olsen, Warren C.W. Chan, Sachdev S. Sidhu
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Patent number: 10481162Abstract: The invention describes methods and reagents useful for sequencing polypeptide molecules. The method comprises affixing a polypeptide to a substrate and contacting the polypeptide with a plurality of probes. Each probe selectively binds to an N-terminal amino acid or an N-terminal amino acid derivative. Probes bound to the polypeptide molecule are then identified before cleaving the N-terminal amino acid or N-terminal amino acid derivative of the polypeptide. Also provided are methods for the sequencing a plurality of polypeptide molecules in a sample and probes specific for N-terminal amino acids or N-terminal amino acid derivatives.Type: GrantFiled: September 5, 2018Date of Patent: November 19, 2019Assignee: The Governing Council of the University of TorontoInventors: Andrew Emili, Megan McLaughlin, Kyrylo Zagorovsky, Jonathan Buchanan Olsen, Warren C. W. Chan, Sachdev S. Sidhu
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Publication number: 20180372752Abstract: The invention describes methods and reagents useful for sequencing polypeptide molecules. The method comprises affixing a polypeptide to a substrate and contacting the polypeptide with a plurality of probes. Each probe selectively binds to an N-terminal amino acid or an N-terminal amino acid derivative. Probes bound to the polypeptide molecule are then identified before cleaving the N-terminal amino acid or N-terminal amino acid derivative of the polypeptide. Also provided are methods for the sequencing a plurality of polypeptide molecules in a sample and probes specific for N-terminal amino acids or N-terminal amino acid derivatives.Type: ApplicationFiled: September 5, 2018Publication date: December 27, 2018Inventors: Andrew Emili, Megan McLaughlin, Kyrylo Zagorovsky, Jonathan Buchanan Olsen, Warren C.W. Chan, Sachdev S. Sidhu
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Patent number: 10036056Abstract: The present invention relates to catalytic nucleic acid molecule signal amplification combined with surface plasmon properties of gold nanoparticles to achieve simple and sensitive colorimetric detection of biological targets. The assays of the present invention have about 50 pM sensitivity without the need for purification steps, can detect multiple targets in parallel, and is easily adaptable to new targets. The methods of the present invention are capable of rapid detection of genetic targets for gonorrhea, syphilis, malaria, and hepatitis B infections.Type: GrantFiled: June 12, 2013Date of Patent: July 31, 2018Assignee: THE GOVERNING COUNCIL OF THE UNIVERSITY OF TORONTOInventors: Warren Che Wor Chan, Kyrylo Zagorovsky
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Publication number: 20170212126Abstract: The invention describes methods and reagents useful for sequencing polypeptide molecules. The method comprises affixing a polypeptide to a substrate and contacting the polypeptide with a plurality of probes. Each probe selectively binds to an N-terminal amino acid or an N-terminal amino acid derivative. Probes bound to the polypeptide molecule are then identified before cleaving the N-terminal amino acid or N-terminal amino acid derivative of the polypeptide. Also provided are methods for the sequencing a plurality of polypeptide molecules in a sample and probes specific for N-terminal amino acids or N-terminal amino acid derivatives.Type: ApplicationFiled: February 7, 2017Publication date: July 27, 2017Inventors: Andrew Emili, Megan McLaughlin, Kyrylo Zagorovsky, Jonathan Buchanan Olsen, Warren C.W. Chan, Sachdev S. Sidhu
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Patent number: 9566335Abstract: The invention describes methods and reagents useful for sequencing polypeptide molecules. The method comprises affixing a polypeptide to a substrate and contacting the polypeptide with a plurality of probes. Each probe selectively binds to an N-terminal amino acid or an N-terminal amino acid derivative. Probes bound to the polypeptide molecule are then identified before cleaving the N-terminal amino acid or N-terminal amino acid derivative of the polypeptide. Also provided are methods for the sequencing a plurality of polypeptide molecules in a sample and probes specific for N-terminal amino acids or N-terminal amino acid derivatives.Type: GrantFiled: September 27, 2010Date of Patent: February 14, 2017Assignee: The Governing Council of the University of TorontoInventors: Andrew Emili, Megan McLaughlin, Kyrylo Zagorovsky, Jonathan Buchanan Olsen, Warren C. W. Chan, Sachdev S. Sidhu
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Publication number: 20170022547Abstract: An automated multiplex detector system includes: (a) a nucleic acid amplification compartment for amplifying nucleic acid of one or more targets in a sample, and (b) an analysis compartment in fluid communication with the amplification compartment, the analysis compartment housing a nanoparticle-based multiplex detector capable of using the amplified nucleic acid of the amplification compartment and producing a signal that correlates with the presence of the one or more targets in the sample.Type: ApplicationFiled: June 17, 2016Publication date: January 26, 2017Inventors: Warren C. W. CHAN, Jisung KIM, Kyrylo ZAGOROVSKY
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Publication number: 20160108465Abstract: The present invention relates to catalytic nucleic acid molecule signal amplification combined with surface plasmon properties of gold nanoparticles to achieve simple and sensitive colorimetric detection of biological targets. The assays of the present invention have about 50 pM sensitivity without the need for purification steps, can detect multiple targets in parallel, and is easily adaptable to new targets. The methods of the present invention are capable of rapid detection of genetic targets for gonorrhea, syphilis, malaria, and hepatitis B infections.Type: ApplicationFiled: June 12, 2013Publication date: April 21, 2016Inventors: Warren Che Wor CHAN, Kyrylo ZAGOROVSKY