Patents by Inventor Cheng-Yao Chen
Cheng-Yao Chen 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: 9765310Abstract: Provided herein are compositions and systems for use in polymerase-dependent, nucleotide transient-binding methods. The methods are useful for deducing the sequence of a template nucleic acid molecule and single nucleotide polymorphism (SNP) analyses. The methods rely on the fact that the polymerase transient-binding time for a complementary nucleotide is longer compared to that of a non-complementary nucleotide. The labeled nucleotides transiently-binds the polymerase in a template-dependent manner, but does not incorporate. The methods are conducted under any reaction condition that permits transient binding of a complementary or non-complementary nucleotide to a polymerase, and inhibits nucleotide incorporation.Type: GrantFiled: January 8, 2016Date of Patent: September 19, 2017Assignee: Life Technologies CorporationInventors: Peter Vander Horn, Cheng-Yao Chen, Guobin Luo, Michael Previte, Jamshid Temirov, Theo Nikiforov, Zhaohui Zhou, Hongye Sun, Yufang Wang, Stefanie Yukiko Nishimura, Hongyi Wang, Marian Peris, Barnett Rosenblum, Michael Phelan
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Patent number: 9765309Abstract: Presented herein are polymerase enzymes for improved incorporation of nucleotide analogs, in particular nucleotides which are modified at the 3? sugar hydroxyl, as well as methods and kits using the same.Type: GrantFiled: June 25, 2015Date of Patent: September 19, 2017Assignee: ILLUMINA, INC.Inventors: Cheng-Yao Chen, Erin Bomati, Molly He
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Publication number: 20170191126Abstract: A method for synthesizing a nucleic acid includes synthesizing one or more nucleic acid fragments on a substrate. The synthesized one or more nucleic acid fragments may be amplified on the substrate. The method also includes sequencing the synthesized or amplified one or more nucleic acid fragments on the substrate. The sequencing may provide feedback to designs of the one or more nucleic acid fragments. The method further includes harvesting the synthesized or amplified one or more nucleic acid fragments based on sequencing. The synthesized or amplified one or more nucleic acid fragments may be assembled to generate a target nucleic acid.Type: ApplicationFiled: May 14, 2015Publication date: July 6, 2017Inventors: Mostafa RONAGHI, Molly HE, Cheng-yao CHEN, Michael PREVITE, M. Shane BOWEN
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Patent number: 9695471Abstract: Provided herein are systems and methods for nucleotide incorporation reactions. The systems comprise polymerases having altered nucleotide incorporation kinetics and are linked to an energy transfer donor moiety, and nucleotide molecules linked with at least one energy transfer acceptor moiety. The donor and acceptor moieties undergo energy transfer when the polymerase and nucleotide are proximal to each other during nucleotide binding and/or nucleotide incorporation. As the donor and acceptor moieties undergo energy transfer, they generate an energy transfer signal which can be associated with nucleotide binding or incorporation. Detecting a time sequence of the generated signals, or the change in the signals, can be used to determine the order of the incorporated nucleotides, and can therefore be used to deduce the sequence of the target molecule.Type: GrantFiled: December 29, 2014Date of Patent: July 4, 2017Assignee: Life Technologies CorporationInventors: Joseph Beechem, Theo Nikiforov, Vi-En Choong, Xinzhan Peng, Guobin Luo, Cheng-Yao Chen, Michael Previte
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Patent number: 9677057Abstract: Presented herein are polymerase enzymes for improved incorporation of nucleotide analogs, in particular nucleotides which are modified at the 3? sugar hydroxyl, as well as methods and kits using the same.Type: GrantFiled: September 29, 2015Date of Patent: June 13, 2017Assignee: ILLUMINA, INC.Inventors: Erin Bomati, Michael Previte, Matthew William Kellinger, Cheng-Yao Chen, Molly He
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Publication number: 20160298186Abstract: This disclosure provides a method of determining a sequence of nucleotides for a nucleic acid template. The method can include the steps of contacting the nucleic acid template with a conformationally labeled polymerase and at least four different nucleotide species under conditions wherein the conformationally labeled polymerase catalyzes sequential addition of the nucleotide species to form a nucleic acid complement of the nucleic acid template, wherein the sequential addition of each different nucleotide species produces a conformational signal change from the conformationally labeled polymerase and wherein the rate or time duration for the conformational signal change is distinguishable for each different nucleotide species; detecting a series of changes in the signal from the conformationally labeled polymerase under the conditions; and determining the rates or time durations for the changes in the signal, thereby determining the sequence of nucleotides for the nucleic acid template.Type: ApplicationFiled: April 19, 2016Publication date: October 13, 2016Applicant: Illumina, Inc.Inventors: MOLLY HE, CHENG-YAO CHEN, ERIC KOOL, MOSTAFA RONAGHI, MICHAEL PREVITE, RIGO PANTOJA
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Publication number: 20160265045Abstract: Disclosed herein are modified polymerase compositions exhibiting altered polymerase activity, which can be useful in a variety of biological applications. Also disclosed herein are methods of making and using such compositions. In some embodiments, the compositions exhibit altered properties that can enhance their utility in a variety of biological applications. Such altered properties, can include, for example, altered nucleotide binding affinities, altered nucleotide incorporation kinetics, altered photostability and/or altered nanoparticle tolerance, as well as a range of other properties as disclosed herein.Type: ApplicationFiled: June 1, 2016Publication date: September 15, 2016Inventors: Stephen P. HENDRICKS, Michael PHELAN, Marian PERIS, Cheng-Yao CHEN, Daniel MAZUR, Xinzhan PENG, Amy CASTILLO
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Publication number: 20160208318Abstract: Provided herein are compositions and systems for use in polymerase-dependent, nucleotide transient-binding methods. The methods are useful for deducing the sequence of a template nucleic acid molecule and single nucleotide polymorphism (SNP) analyses. The methods rely on the fact that the polymerase transient-binding time for a complementary nucleotide is longer compared to that of a non-complementary nucleotide. The labeled nucleotides transiently-binds the polymerase in a template-dependent manner, but does not incorporate. The methods are conducted under any reaction condition that permits transient binding of a complementary or non-complementary nucleotide to a polymerase, and inhibits nucleotide incorporation.Type: ApplicationFiled: January 8, 2016Publication date: July 21, 2016Inventors: Peter Vander Horn, Cheng-Yao Chen, Guobin Luo, Michael Previte, Jamshid Temirov, Theo Nikiforov, Zhaohui Zhou, Hongye Sun, Yufang Wang, Stefanie Yukiko Nishimura, Hongyi Wang, Marian Peris, Barnett Rosenblum, Michael Phelan
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Publication number: 20160168633Abstract: A system for determining nucleic acid sequences, including (a) an array of nucleic acid features; (b) a fluidic apparatus configured to deliver sequencing reagents, including polymerases and nucleotides, to the array; (c) a detector configured to obtain pre-equilibrium kinetic measurements from the array at a resolution that distinguishes individual nucleic acid features; (d) a control module having instructions for (i) directing the fluidic apparatus to deliver the sequencing reagents to the array, and (ii) directing the detection apparatus to obtain the kinetic measurements; and (e) an analysis module having instructions for (i) processing the kinetic measurements to determine binding of the polymerase molecules to the nucleic acid features at several pre-equilibrium time points, thereby determining a transient state of the polymerase molecules at the nucleic acid features, and (ii) identifying nucleic acid features that correctly incorporate the nucleotide molecules based on the transient state of the polyType: ApplicationFiled: January 28, 2016Publication date: June 16, 2016Applicant: Illumina, Inc.Inventors: Michael Previte, Molly He, Rigo Pantoja, Cheng-Yao Chen, Chunhong Zhou
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Patent number: 9365839Abstract: Disclosed herein are modified polymerase compositions exhibiting altered polymerase activity, which can be useful in a variety of biological applications. Also disclosed herein are methods of making and using such compositions. In some embodiments, the compositions exhibit altered properties that can enhance their utility in a variety of biological applications. Such altered properties, can include, for example, altered nucleotide binding affinities, altered nucleotide incorporation kinetics, altered photostability and/or altered nanoparticle tolerance, as well as a range of other properties as disclosed herein.Type: GrantFiled: May 12, 2015Date of Patent: June 14, 2016Assignee: Life Technologies CorporationInventors: Stephen P. Hendricks, Michael Phelan, Marian Peris, Cheng-Yao Chen, Daniel Mazur, Xinzhan Peng, Amy Castillo
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Patent number: 9353412Abstract: This disclosure provides a method of determining a sequence of nucleotides for a nucleic acid template. The method can include the steps of contacting the nucleic acid template with a conformationally labeled polymerase and at least four different nucleotide species under conditions wherein the conformationally labeled polymerase catalyzes sequential addition of the nucleotide species to form a nucleic acid complement of the nucleic acid template, wherein the sequential addition of each different nucleotide species produces a conformational signal change from the conformationally labeled polymerase and wherein the rate or time duration for the conformational signal change is distinguishable for each different nucleotide species; detecting a series of changes in the signal from the conformationally labeled polymerase under the conditions; and determining the rates or time durations for the changes in the signal, thereby determining the sequence of nucleotides for the nucleic acid template.Type: GrantFiled: June 16, 2011Date of Patent: May 31, 2016Assignee: Illumina, Inc.Inventors: Molly He, Cheng-Yao Chen, Eric Kool, Mostafa Ronaghi, Michael Previte, Rigo Pantoja
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Publication number: 20160090579Abstract: Presented herein are polymerase enzymes for improved incorporation of nucleotide analogues, in particular nucleotides which are modified at the 3? sugar hydroxyl, as well as methods and kits using the same.Type: ApplicationFiled: September 29, 2015Publication date: March 31, 2016Applicant: ILLUMINA, INC.Inventors: Erin Bomati, Michael Previte, Matthew William Kellinger, Cheng-Yao Chen, Molly He
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Patent number: 9279154Abstract: A method of distinguishing nucleotide sequences for different nucleic acid molecules including the steps of (a) mixing a plurality of different nucleic acid molecules with polymerase molecules and nucleotide molecules, wherein the different nucleic acid molecules are attached to a surface in the form of an array of nucleic acid features; (b) determining a transient state of the polymerase molecules at the nucleic acid features; and (c) identifying a subset of nucleic acid features that correctly incorporate the nucleotide molecules based on the transient state of the polymerase molecules at the nucleic acid features, thereby distinguishing the nucleotide sequences for the different nucleic acid molecules.Type: GrantFiled: December 20, 2012Date of Patent: March 8, 2016Assignee: Illumina, Inc.Inventors: Michael Previte, Molly He, Rigo Pantoja, Cheng-Yao Chen, Chunhong Zhou
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Patent number: 9255258Abstract: Provided herein are compositions and systems for use in polymerase-dependent, nucleotide transient-binding methods. The methods are useful for deducing the sequence of a template nucleic acid molecule and single nucleotide polymorphism (SNP) analyses. The methods rely on the fact that the polymerase transient-binding time for a complementary nucleotide is longer compared to that of a non-complementary nucleotide. The labeled nucleotides transiently-binds the polymerase in a template-dependent manner, but does not incorporate. The methods are conducted under any reaction condition that permits transient binding of a complementary or non-complementary nucleotide to a polymerase, and inhibits nucleotide incorporation.Type: GrantFiled: December 16, 2013Date of Patent: February 9, 2016Assignee: Life Technologies CorporationInventors: Peter Vander Horn, Cheng-Yao Chen, Guobin Luo, Michael Previte, Jamshid Temirov, Theo Nikiforov, Zhaohui Zhou, Hongye Sun, Yufang Wang, Stefanie Yukiko Nishimura, Hongyi Wang, Marian Peris, Barnett Rosenblum, Michael Phelan
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Publication number: 20160032377Abstract: Presented herein are polymerase enzymes for improved incorporation of nucleotide analogues, in particular nucleotides which are modified at the 3? sugar hydroxyl, as well as methods and kits using the same.Type: ApplicationFiled: March 14, 2013Publication date: February 4, 2016Applicant: ILLUMINA, INC.Inventors: Cheng-Yao CHEN, Molly HE, Erin BOMATI, Sergio PEISAJOVICH
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Publication number: 20160017416Abstract: A method of nucleic acid sequencing. The method can include the steps of (a) providing a polymerase tethered to a solid support charge sensor; (b) providing one or more nucleotides, whereby the presence of the nucleotide can be detected by the charge sensor; and (c) detecting incorporation of the nucleotide into a nascent strand complementary to a template nucleic acid.Type: ApplicationFiled: July 14, 2015Publication date: January 21, 2016Applicant: ILLUMINA, INCInventors: Boyan BOYANOV, Jeffrey G. MANDELL, Jingwei BAI, Kevin L. GUNDERSON, Cheng-Yao CHEN, Michel Perbost
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Publication number: 20150376582Abstract: Presented herein are polymerase enzymes for improved incorporation of nucleotide analogues, in particular nucleotides which are modified at the 3? sugar hydroxyl, as well as methods and kits using the same.Type: ApplicationFiled: June 25, 2015Publication date: December 31, 2015Applicant: ILLUMINA, INC.Inventors: Cheng-Yao Chen, Erin Bomati, Molly He
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Patent number: 9150896Abstract: Provided herein is a method of amplifying nucleic acids using a plurality of modified nucleotides one or more of the nucleotides comprising a 3? blocking group. Also provided is a method of amplifying nucleic acids using oligonucleotide primers one or both of the primers comprising a 3? blocking group on one or more of the nucleotides of the primers.Type: GrantFiled: March 1, 2013Date of Patent: October 6, 2015Assignee: Illumina, Inc.Inventors: Cheng-Yao Chen, Gothami Padmabandu
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Publication number: 20150247136Abstract: Disclosed herein are modified polymerase compositions exhibiting altered polymerase activity, which can be useful in a variety of biological applications. Also disclosed herein are methods of making and using such compositions. In some embodiments, the compositions exhibit altered properties that can enhance their utility in a variety of biological applications. Such altered properties, can include, for example, altered nucleotide binding affinities, altered nucleotide incorporation kinetics, altered photostability and/or altered nanoparticle tolerance, as well as a range of other properties as disclosed herein.Type: ApplicationFiled: May 12, 2015Publication date: September 3, 2015Inventors: Stephen P. HENDRICKS, Michael PHELAN, Marian PERIS, Cheng-Yao CHEN, Daniel MAZUR, Xinzhan PENG, Amy CASTILLO
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Publication number: 20150118679Abstract: Provided herein are systems and methods for nucleotide incorporation reactions. The systems comprise polymerases having altered nucleotide incorporation kinetics and are linked to an energy transfer donor moiety, and nucleotide molecules linked with at least one energy transfer acceptor moiety. The donor and acceptor moieties undergo energy transfer when the polymerase and nucleotide are proximal to each other during nucleotide binding and/or nucleotide incorporation. As the donor and acceptor moieties undergo energy transfer, they generate an energy transfer signal which can be associated with nucleotide binding or incorporation. Detecting a time sequence of the generated signals, or the change in the signals, can be used to determine the order of the incorporated nucleotides, and can therefore be used to deduce the sequence of the target molecule.Type: ApplicationFiled: December 29, 2014Publication date: April 30, 2015Inventors: Joseph BEECHEM, Theo NIKIFOROV, Vi-En CHOONG, Xinzhan PENG, Guobin LUO, Cheng-Yao CHEN, Michael PREVITE