Patents by Inventor Agnes Radek

Agnes Radek 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).

  • METHODS OF ANALYZING NUCLEIC ACIDS
    Publication number: 20240003055
    Abstract: Presented herein are methods and compositions for analyzing rare nucleic acid species. Some methods presented herein use DNA reassociation kinetics following thermal denaturation to define populations of nucleic acid sequences, e.g., highly abundant (e.g., cDNA from rRNA), moderately abundant, and less abundant or rare sequences (e.g., cDNA from mRNA).
    Type: Application
    Filed: September 6, 2023
    Publication date: January 4, 2024
    Applicant: ILLUMINA, INC.
    Inventors: Scott Kuersten, Agnes Radek, Ramesh Vaidyanathan, Haiying Li Grunenwald
  • Methods of analyzing nucleic acids
    Patent number: 11795578
    Abstract: Presented herein are methods and compositions for analyzing rare nucleic acid species. Some methods presented herein use DNA reassociation kinetics following thermal denaturation to define populations of nucleic acid sequences, e.g., highly abundant (e.g., cDNA from rRNA), moderately abundant, and less abundant or rare sequences (e.g., cDNA from mRNA).
    Type: Grant
    Filed: April 25, 2022
    Date of Patent: October 24, 2023
    Assignee: Illumina, Inc.
    Inventors: Scott Kuersten, Agnes Radek, Ramesh Vaidyanathan, Haiying Li Grunenwald
  • METHODS OF ANALYZING NUCLEIC ACIDS
    Publication number: 20220275428
    Abstract: Presented herein are methods and compositions for analyzing rare nucleic acid species. Some methods presented herein use DNA reassociation kinetics following thermal denaturation to define populations of nucleic acid sequences, e.g., highly abundant (e.g., cDNA from rRNA), moderately abundant, and less abundant or rare sequences (e.g., cDNA from mRNA).
    Type: Application
    Filed: April 25, 2022
    Publication date: September 1, 2022
    Applicant: Epicentre Technologies Corporation
    Inventors: Scott Kuersten, Agnes Radek, Ramesh Vaidyanathan, Haiying Li Grunenwald
  • Methods of analyzing nucleic acids
    Patent number: 11339422
    Abstract: Presented herein are methods and compositions for analyzing rare nucleic acid species. Some methods presented herein use DNA reassociation kinetics following thermal denaturation to define populations of nucleic acid sequences, e.g., highly abundant (e.g., cDNA from rRNA), moderately abundant, and less abundant or rare sequences (e.g., cDNA from mRNA).
    Type: Grant
    Filed: March 26, 2020
    Date of Patent: May 24, 2022
    Assignee: Illumina, Inc.
    Inventors: Scott Kuersten, Agnes Radek, Ramesh Vaidyanathan, Haiying Li Grunenwald
  • METHODS OF ANALYZING NUCLEIC ACIDS
    Publication number: 20200255887
    Abstract: Presented herein are methods and compositions for analyzing rare nucleic acid species. Some methods presented herein use DNA reassociation kinetics following thermal denaturation to define populations of nucleic acid sequences, e.g., highly abundant (e.g., cDNA from rRNA), moderately abundant, and less abundant or rare sequences (e.g., cDNA from mRNA).
    Type: Application
    Filed: March 26, 2020
    Publication date: August 13, 2020
    Applicant: EPICENTRE TECHNOLOGIES CORPORATION
    Inventors: Scott Kuersten, Agnes Radek, Ramesh Vaidyanathan, Haiying Grunenwald
  • Methods of analyzing nucleic acids
    Patent number: 10640809
    Abstract: Presented herein are methods and compositions for analyzing rare nucleic acid species. Some methods presented herein use DNA reassociation kinetics following thermal denaturation to define populations of nucleic acid sequences, e.g., highly abundant (e.g., cDNA from rRNA), moderately abundant, and less abundant or rare sequences (e.g., cDNA from mRNA).
    Type: Grant
    Filed: May 27, 2016
    Date of Patent: May 5, 2020
    Assignee: EPICENTRE TECHNOLOGIES CORPORATION
    Inventors: Scott Kuersten, Agnes Radek, Ramesh Vaidyanathan, Haiying Li Grunenwald
  • METHODS OF ANALYZING NUCLEIC ACIDS
    Publication number: 20180148767
    Abstract: Presented herein are methods and compositions for analyzing rare nucleic acid species. Some methods presented herein use DNA reassociation kinetics following thermal denaturation to define populations of nucleic acid sequences, e.g., highly abundant (e.g., cDNA from rRNA), moderately abundant, and less abundant or rare sequences (e.g., cDNA from mRNA).
    Type: Application
    Filed: May 27, 2016
    Publication date: May 31, 2018
    Applicant: EPICENTRE TECHNOLOGIES CORPORATION
    Inventors: Scott KUERSTEN, Agnes RADEK, Ramesh VAIDYANATHAN, Haiying Li GRUNENWALD
  • Methods for identifying polymerase inhibitors
    Publication number: 20070111216
    Abstract: The present invention relates to methods and compositions for the identification of enzyme inhibitors. In particular, the present invention relates to the identification of nucleic acid polymerase inhibitors.
    Type: Application
    Filed: September 27, 2005
    Publication date: May 17, 2007
    Applicant: Epicentre Technologies
    Inventors: Jerry Jendrisak, Agnes Radek, Gary Dahl
  • Compositions and methods employing 5' phosphate-dependent nucleic acid exonucleases
    Publication number: 20060240451
    Abstract: The present invention relates to compositions and methods employing 5?-phosphate-dependent nucleic acid exonucleases. In particular, the present invention provides kits and methods employing 5?-phosphate-dependent nucleic acid exonucleases for selective enrichment, isolation and amplification of a particular set of desired nucleic acid molecules from samples that also contain undesired nucleic acid molecules for a variety of uses. In preferred embodiments, the desired nucleic acid molecules comprise prokaryotic and/or eukaryotic mRNA.
    Type: Application
    Filed: February 9, 2006
    Publication date: October 26, 2006
    Applicant: Epicentre Technologies
    Inventors: Jerome Jendrisak, Judith Meis, Ronald Meis, Agnes Radek, Gary Dahl