Patents by Inventor Matthew Kellinger
Matthew Kellinger 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: 20220403463Abstract: The present disclosure provides compositions and methods that employ the compositions for conducting pairwise sequencing and for generating concatemer template molecules for pairwise sequencing. The concatemers can be generated using a rolling circle amplification reaction which is conducted either on-support, or conducted in-solution and then distributed onto a support. The rolling circle amplification reaction generates concatemers containing tandem copies of a sequence of interest and at least one universal adaptor sequence. An increase in the number of tandem copies in a given concatemer increases the number of sites along the concatemer for hybridizing to multiple sequencing primers which serve as multiple initiation sites for polymerase-catalyzed sequencing reactions. When the sequencing reaction employs detectably labeled nucleotides and/or detectably labeled multivalent molecules (e.g.Type: ApplicationFiled: July 15, 2021Publication date: December 22, 2022Inventors: Sinan ARSLAN, Junhua ZHAO, Molly HE, Samantha SNOW, William LIGHT, Matthew KELLINGER, Michael PREVITE, Michael KIM, Hua YU, Yu-Hsien HWANG-FU, Marco TJIOE, Andrew BODDICKER
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Publication number: 20220403352Abstract: Provided herein are engineered variants of archaeal, prokaryotic, and eukaryotic polymerases that exhibit enhanced thermostability, enhanced incorporation of 3? modified nucleotides, and improved uracil-tolerance, in polymerase-catalyzed nucleotide extension reactions relative to wild type polymerase enzymes. Also provided are uses of the engineered polymerases for forming complexed polymerases, forming binding complexes and forming ternary complexes, and uses for conducting nucleic acid sequencing reactions.Type: ApplicationFiled: March 25, 2022Publication date: December 22, 2022Inventors: Mark Ambroso, Tyler Lopez, Michael Klein, Virginia Saade, Matthew Kellinger
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Publication number: 20220403353Abstract: Provided herein are engineered variants of archaeal, prokaryotic, and eukaryotic polymerases that exhibit enhanced thermostability, enhanced incorporation of 3? modified nucleotides, and improved uracil-tolerance, in polymerase-catalyzed nucleotide extension reactions relative to wild type polymerase enzymes. Also provided are uses of the engineered polymerases for forming complexed polymerases, forming binding complexes and forming ternary complexes, and uses for conducting nucleic acid sequencing reactions.Type: ApplicationFiled: March 25, 2022Publication date: December 22, 2022Inventors: Mark Ambroso, Tyler Lopez, Michael Klein, Virginia Saade, Matthew Kellinger
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Publication number: 20220403351Abstract: Provided herein are engineered variants of archaeal, prokaryotic, and eukaryotic polymerases that exhibit enhanced thermostability, enhanced incorporation of 3? modified nucleotides, and improved uracil-tolerance, in polymerase-catalyzed nucleotide extension reactions relative to wild type polymerase enzymes. Also provided are uses of the engineered polymerases for forming complexed polymerases, forming binding complexes and forming ternary complexes, and uses for conducting nucleic acid sequencing reactions.Type: ApplicationFiled: March 25, 2022Publication date: December 22, 2022Inventors: Mark Ambroso, Tyler Lopez, Michael Klein, Virginia Saade, Matthew Kellinger
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Patent number: 11426732Abstract: Flow cell devices, cartridges, and systems are described that provide reduced manufacturing complexity, lowered consumable costs, and flexible system throughput for nucleic acid sequencing and other chemical or biological analysis applications. The flow cell device can include a capillary flow cell device or a microfluidic flow cell device.Type: GrantFiled: October 28, 2020Date of Patent: August 30, 2022Assignee: ELEMENT BIOSCIENCES, INC.Inventors: Minghao Guo, Leon Zilun Zhang, Chunhong Zhou, Matthew Kellinger, Michael Previte
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Patent number: 11427855Abstract: The present disclosure provides compositions and methods that employ the compositions for conducting pairwise sequencing and for generating concatemer template molecules for pairwise sequencing. The concatemers can be generated using a rolling circle amplification reaction which is conducted either on-support, or conducted in-solution and then distributed onto a support. The rolling circle amplification reaction generates concatemers containing tandem copies of a sequence of interest and at least one universal adaptor sequence. An increase in the number of tandem copies in a given concatemer increases the number of sites along the concatemer for hybridizing to multiple sequencing primers which serve as multiple initiation sites for polymerase-catalyzed sequencing reactions. When the sequencing reaction employs detectably labeled nucleotides and/or detectably labeled multivalent molecules (e.g.Type: GrantFiled: July 15, 2021Date of Patent: August 30, 2022Assignee: Element Biosciences, Inc.Inventors: Sinan Arslan, Junhua Zhao, Molly He, Samantha Snow, William Light, Matthew Kellinger, Michael Previte, Michael Kim, Hua Yu, Yu-Hsien Hwang-Fu, Marco Tjioe, Andrew Boddicker
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Publication number: 20220186310Abstract: Multivalent binding compositions including a particle-nucleotide conjugate having a plurality of copies of a nucleotide attached to the particle are described. The multivalent binding compositions allow one to localize detectable signals to active regions of biochemical interaction, e.g., sites of protein-protein interaction, protein-nucleic acid interaction, nucleic acid hybridization, or enzymatic reaction, and can be used to identify sites of base incorporation in elongating nucleic acid chains during polymerase reactions and to provide improved base discrimination for sequencing and array based applications.Type: ApplicationFiled: October 26, 2021Publication date: June 16, 2022Inventors: Sinan Arslan, Molly Min HE, Matthew KELLINGER, Jake LEVIEUX, Michael PREVITE, Junhua ZHAO, Su ZHANG, Tyler LOPEZ
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Publication number: 20220170919Abstract: Multivalent binding compositions including a particle-nucleotide conjugate having a plurality of copies of a nucleotide attached to the particle are described. The multivalent binding compositions allow one to localize detectable signals to active regions of biochemical interaction, e.g., sites of protein-protein interaction, protein-nucleic acid interaction, nucleic acid hybridization, or enzymatic reaction, and can be used to identify sites of base incorporation in elongating nucleic acid chains during polymerase reactions and to provide improved base discrimination for sequencing and array based applications.Type: ApplicationFiled: February 18, 2022Publication date: June 2, 2022Inventors: Michael PREVITE, Molly HE, Junhua ZHAO, Hui Zhen MAH, Chunhong ZHOU, Sinan ARSLAN, Matthew KELLINGER, Lorenzo BERTI, Steve Xiangling CHEN
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Patent number: 11287422Abstract: Multivalent binding compositions including a particle-nucleotide conjugate having a plurality of copies of a nucleotide attached to the particle are described. The multivalent binding compositions allow one to localize detectable signals to active regions of biochemical interaction, e.g., sites of protein-protein interaction, protein-nucleic acid interaction, nucleic acid hybridization, or enzymatic reaction, and can be used to identify sites of base incorporation in elongating nucleic acid chains during polymerase reactions and to provide improved base discrimination for sequencing and array based applications.Type: GrantFiled: June 24, 2021Date of Patent: March 29, 2022Assignee: ELEMENT BIOSCIENCES, INC.Inventors: Michael Previte, Molly Min He, Junhua Zhao, Hui Zhen Mah, Chunhong Zhou, Sinan Arslan, Matthew Kellinger, Lorenzo Berti, Steve Xiangling Chen
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Publication number: 20220056424Abstract: Presented herein are altered polymerase enzymes for improved incorporation of nucleotides and nucleotide analogues, in particular altered polymerases that maintain high fidelity under reduced incorporation times, as well as methods and kits using the same.Type: ApplicationFiled: August 9, 2021Publication date: February 24, 2022Applicants: Illumina, Inc., Illumina Singapore Pte. Ltd.Inventors: Misha Golynskiy, Seth McDonald, Saurabh Nirantar, Matthew Kellinger, Michael Previte, Sergio Peisajovich, Molly He
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Patent number: 11236388Abstract: The present disclosure provides compositions and methods that employ the compositions for conducting pairwise sequencing and for generating concatemer template molecules for pairwise sequencing. The concatemers can be generated using a rolling circle amplification reaction which is conducted either on-support, or conducted in-solution and then distributed onto a support. The rolling circle amplification reaction generates concatemers containing tandem copies of a sequence of interest and at least one universal adaptor sequence. An increase in the number of tandem copies in a given concatemer increases the number of sites along the concatemer for hybridizing to multiple sequencing primers which serve as multiple initiation sites for polymerase-catalyzed sequencing reactions. When the sequencing reaction employs detectably labeled nucleotides and/or detectably labeled multivalent molecules (e.g.Type: GrantFiled: July 15, 2021Date of Patent: February 1, 2022Assignee: Element Biosciences, Inc.Inventors: Sinan Arslan, Junhua Zhao, Molly He, Samantha Snow, William Light, Matthew Kellinger, Michael Previte
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Patent number: 11220707Abstract: The present disclosure provides compositions and methods that employ the compositions for conducting pairwise sequencing and for generating concatemer template molecules for pairwise sequencing. The concatemers can be generated using a rolling circle amplification reaction which is conducted either on-support, or conducted in-solution and then distributed onto a support. The rolling circle amplification reaction generates concatemers containing tandem copies of a sequence of interest and at least one universal adaptor sequence. An increase in the number of tandem copies in a given concatemer increases the number of sites along the concatemer for hybridizing to multiple sequencing primers which serve as multiple initiation sites for polymerase-catalyzed sequencing reactions. When the sequencing reaction employs detectably labeled nucleotides and/or detectably labeled multivalent molecules (e.g.Type: GrantFiled: July 15, 2021Date of Patent: January 11, 2022Assignee: Element Biosciences, Inc.Inventors: Sinan Arslan, Junhua Zhao, Molly He, Samantha Snow, William Light, Matthew Kellinger, Michael Previte
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Publication number: 20210387184Abstract: Flow cell devices, cartridges, and systems are described that provide reduced manufacturing complexity, lowered consumable costs, and flexible system throughput for nucleic acid sequencing and other chemical or biological analysis applications. The flow cell device can include a capillary flow cell device or a microfluidic flow cell device.Type: ApplicationFiled: March 30, 2021Publication date: December 16, 2021Inventors: Minghao GUO, Leon Zilun ZHANG, Chunhong ZHOU, Matthew KELLINGER, Michael PREVITE, Sinan ARSLAN, Molly HE, Huizhen MAH, Lei SUN
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Patent number: 11198121Abstract: Flow cell devices, cartridges, and systems are described that provide reduced manufacturing complexity, lowered consumable costs, and flexible system throughput for nucleic acid sequencing and other chemical or biological analysis applications. The flow cell device can include a capillary flow cell device or a microfluidic flow cell device.Type: GrantFiled: March 30, 2021Date of Patent: December 14, 2021Assignee: ELEMENT BIOSCIENCES, INC.Inventors: Minghao Guo, Leon Zilun Zhang, Chunhong Zhou, Matthew Kellinger, Michael Previte, Sinan Arslan, Molly He, Hui Zhen Mah, Lei Sun
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Publication number: 20210373000Abstract: Multivalent binding compositions including a particle-nucleotide conjugate having a plurality of copies of a nucleotide attached to the particle are described. The multivalent binding compositions allow one to localize detectable signals to active regions of biochemical interaction, e.g., sites of protein-protein interaction, protein-nucleic acid interaction, nucleic acid hybridization, or enzymatic reaction, and can be used to identify sites of base incorporation in elongating nucleic acid chains during polymerase reactions and to provide improved base discrimination for sequencing and array based applications.Type: ApplicationFiled: August 10, 2021Publication date: December 2, 2021Inventors: Sinan ARSLAN, Molly HE, Matthew KELLINGER, Jake LEVIEUX, Michael PREVITE, Junhua ZHAO, Su ZHANG, Tyler LOPEZ
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Publication number: 20210318295Abstract: Multivalent binding compositions including a particle-nucleotide conjugate having a plurality of copies of a nucleotide attached to the particle are described. The multivalent binding compositions allow one to localize detectable signals to active regions of biochemical interaction, e.g., sites of protein-protein interaction, protein-nucleic acid interaction, nucleic acid hybridization, or enzymatic reaction, and can be used to identify sites of base incorporation in elongating nucleic acid chains during polymerase reactions and to provide improved base discrimination for sequencing and array based applications.Type: ApplicationFiled: June 25, 2021Publication date: October 14, 2021Inventors: Sinan Arslan, Molly Min HE, Matthew KELLINGER, Jake LEVIEUX, Michael PREVITE, Junhua ZHAO, Su ZHANG
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Publication number: 20210318294Abstract: Multivalent binding compositions including a particle-nucleotide conjugate having a plurality of copies of a nucleotide attached to the particle are described. The multivalent binding compositions allow one to localize detectable signals to active regions of biochemical interaction, e.g., sites of protein-protein interaction, protein-nucleic acid interaction, nucleic acid hybridization, or enzymatic reaction, and can be used to identify sites of base incorporation in elongating nucleic acid chains during polymerase reactions and to provide improved base discrimination for sequencing and array based applications.Type: ApplicationFiled: June 24, 2021Publication date: October 14, 2021Inventors: Michael PREVITE, Molly Min HE, Junhua ZHAO, Hui Zhen MAH, Chunhong ZHOU, Sinan ARSLAN, Matthew KELLINGER, Lorenzo BERTI, Steve Xiangling CHEN
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Publication number: 20210269793Abstract: Provided herein are methods for generating circular nucleic acid molecules and circular nucleic acid libraries. The methods can be used to generate clonal populations of target nucleic acid molecules for downstream applications such as sequencing.Type: ApplicationFiled: May 13, 2021Publication date: September 2, 2021Inventors: Matthew Kellinger, Sinan ARSLAN, Michael PREVITE, Junhua Zhao
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Patent number: 11104888Abstract: Presented herein are altered polymerase enzymes for improved incorporation of nucleotides and nucleotide analogues, in particular altered polymerases that maintain high fidelity under reduced incorporation times, as well as methods and kits using the same.Type: GrantFiled: October 31, 2019Date of Patent: August 31, 2021Assignees: Illumina, Inc., Illumina Singapore Pte. Ltd.Inventors: Misha Golynskiy, Seth McDonald, Saurabh Nirantar, Matthew Kellinger, Michael Previte, Sergio Peisajovich, Molly He
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Publication number: 20210247389Abstract: Multivalent binding compositions including a particle-nucleotide conjugate having a plurality of copies of a nucleotide attached to the particle are described. The multivalent binding compositions allow one to localize detectable signals to active regions of biochemical interaction, e.g., sites of protein-protein interaction, protein-nucleic acid interaction, nucleic acid hybridization, or enzymatic reaction, and can be used to identify sites of base incorporation in elongating nucleic acid chains during polymerase reactions and to provide improved base discrimination for sequencing and array based applications.Type: ApplicationFiled: April 30, 2021Publication date: August 12, 2021Inventors: Sinan Arslan, Molly HE, Matthew KELLINGER, Jake LEVIEUX, Michael PREVITE, Junhua ZHAO, Su ZHANG