Patents by Inventor PATRIK STAHL
PATRIK STAHL 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: 20220298560Abstract: A method for spatially tagging nucleic acids of a biological specimen, including steps of (a) providing a solid support comprising different nucleic acid probes that are randomly located on the solid support, wherein the different nucleic acid probes each includes a barcode sequence that differs from the barcode sequence of other randomly located probes on the solid support; (b) performing a nucleic acid detection reaction on the solid support to locate the barcode sequences on the solid support; (c) contacting a biological specimen with the solid support that has the randomly located probes; (d) hybridizing the randomly located probes to target nucleic acids from portions of the biological specimen; and (e) modifying the randomly located probes that are hybridized to the target nucleic acids, thereby producing modified probes that include the barcode sequences and a target specific modification, thereby spatially tagging the nucleic acids of the biological specimen.Type: ApplicationFiled: June 7, 2022Publication date: September 22, 2022Applicants: Spatial Transcriptomics AB, Illumina, Inc.Inventors: Jonas Frisen, Patrik Stahl, Joakim Lundeberg, Gordon M. Cann, Leila Bazargan, Alex Aravanis
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Patent number: 11390912Abstract: A method for spatially tagging nucleic acids of a biological specimen, including steps of (a) providing a solid support comprising different nucleic acid probes that are randomly located on the solid support, wherein the different nucleic acid probes each includes a barcode sequence that differs from the barcode sequence of other randomly located probes on the solid support; (b) performing a nucleic acid detection reaction on the solid support to locate the barcode sequences on the solid support; (c) contacting a biological specimen with the solid support that has the randomly located probes; (d) hybridizing the randomly located probes to target nucleic acids from portions of the biological specimen; and (e) modifying the randomly located probes that are hybridized to the target nucleic acids, thereby producing modified probes that include the barcode sequences and a target specific modification, thereby spatially tagging the nucleic acids of the biological specimen.Type: GrantFiled: March 11, 2022Date of Patent: July 19, 2022Assignees: Spatial Transcriptomics AB, Illumina, Inc.Inventors: Jonas Frisen, Patrik Stahl, Joakim Lundeberg, Gordon M. Cann, Leila Bazargan, Alex Aravanis
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Publication number: 20220213526Abstract: Localized detection of RNA in a tissue sample that includes cells is accomplished on an array. The array include a number of features on a substrate. Each feature includes a different capture probe immobilized such that the capture probe has a free 3? end. Each feature occupies a distinct position on the array and has an area of less than about 1 mm2. Each capture probe is a nucleic acid molecule, which includes a positional domain including a nucleotide sequence unique to a particular feature, and a capture domain including a nucleotide sequence complementary to the RNA to be detected. The capture domain can be at a position 3? of the positional domain.Type: ApplicationFiled: March 25, 2022Publication date: July 7, 2022Applicant: Spatial Transcriptomics ABInventors: Jonas Frisen, Patrik Stahl, Joakim Lundeberg
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Publication number: 20220195505Abstract: A method for spatially tagging nucleic acids of a biological specimen, including steps of (a) providing a solid support comprising different nucleic acid probes that are randomly located on the solid support, wherein the different nucleic acid probes each includes a barcode sequence that differs from the barcode sequence of other randomly located probes on the solid support; (b) performing a nucleic acid detection reaction on the solid support to locate the barcode sequences on the solid support; (c) contacting a biological specimen with the solid support that has the randomly located probes; (d) hybridizing the randomly located probes to target nucleic acids from portions of the biological specimen; and (e) modifying the randomly located probes that are hybridized to the target nucleic acids, thereby producing modified probes that include the barcode sequences and a target specific modification, thereby spatially tagging the nucleic acids of the biological specimen.Type: ApplicationFiled: March 11, 2022Publication date: June 23, 2022Applicants: Spatial Transcriptomics AB, Illumina, Inc.Inventors: Jonas Frisen, Patrik Stahl, Joakim Lundeberg, Gordon M. Cann, Leila Bazargan, Alex Aravanis
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Patent number: 11352659Abstract: Localized detection of RNA in a tissue sample that includes cells is accomplished on an array. The array include a number of features on a substrate. Each feature includes a different capture probe immobilized such that the capture probe has a free 3? end. Each feature occupies a distinct position on the array and has an area of less than about 1 mm2. Each capture probe is a nucleic acid molecule, which includes a positional domain including a nucleotide sequence unique to a particular feature, and a capture domain including a nucleotide sequence complementary to the RNA to be detected. The capture domain can be at a position 3? of the positional domain.Type: GrantFiled: September 14, 2021Date of Patent: June 7, 2022Assignee: Spatial Transcriptomics ABInventors: Jonas Frisen, Patrik Stahl, Joakim Lundeberg
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Publication number: 20220127659Abstract: Localized detection of RNA in a tissue sample that includes cells is accomplished on an array. The array include a number of features on a substrate. Each feature includes a different capture probe immobilized such that the capture probe has a free 3? end. Each feature occupies a distinct position on the array and has an area of less than about 1 mm2. Each capture probe is a nucleic acid molecule, which includes a positional domain including a nucleotide sequence unique to a particular feature, and a capture domain including a nucleotide sequence complementary to the RNA to be detected. The capture domain can be at a position 3? of the positional domain.Type: ApplicationFiled: September 14, 2021Publication date: April 28, 2022Applicant: Spatial Transcriptomics ABInventors: Jonas Frisen, Patrik Stahl, Joakim Lundeberg
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Patent number: 11299774Abstract: A method for spatially tagging nucleic acids of a biological specimen, including steps of (a) providing a solid support comprising different nucleic acid probes that are randomly located on the solid support, wherein the different nucleic acid probes each includes a barcode sequence that differs from the barcode sequence of other randomly located probes on the solid support; (b) performing a nucleic acid detection reaction on the solid support to locate the barcode sequences on the solid support; (c) contacting a biological specimen with the solid support that has the randomly located probes; (d) hybridizing the randomly located probes to target nucleic acids from portions of the biological specimen; and (e) modifying the randomly located probes that are hybridized to the target nucleic acids, thereby producing modified probes that include the barcode sequences and a target specific modification, thereby spatially tagging the nucleic acids of the biological specimen.Type: GrantFiled: September 20, 2021Date of Patent: April 12, 2022Assignees: Spatial Transcriptomics AB, Illumina IncInventors: Jonas Frisen, Patrik Stahl, Joakim Lundeberg, Gordon M. Cann, Leila Bazargan, Alex Aravanis
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Publication number: 20220090058Abstract: Localized detection of RNA in a tissue sample that includes cells is accomplished on an array. The array include a number of features on a substrate. Each feature includes a different capture probe immobilized such that the capture probe has a free 3? end. Each feature occupies a distinct position on the array and has an area of less than about 1 mm2. Each capture probe is a nucleic acid molecule, which includes a positional domain including a nucleotide sequence unique to a particular feature, and a capture domain including a nucleotide sequence complementary to the RNA to be detected. The capture domain can be at a position 3? of the positional domain.Type: ApplicationFiled: September 14, 2021Publication date: March 24, 2022Applicant: Spatial Transcriptomics ABInventors: Jonas Frisen, Patrik Stahl, Joakim Lundeberg
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Publication number: 20220002791Abstract: A method for spatially tagging nucleic acids of a biological specimen, including steps of (a) providing a solid support comprising different nucleic acid probes that are randomly located on the solid support, wherein the different nucleic acid probes each includes a barcode sequence that differs from the barcode sequence of other randomly located probes on the solid support; (b) performing a nucleic acid detection reaction on the solid support to locate the barcode sequences on the solid support; (c) contacting a biological specimen with the solid support that has the randomly located probes; (d) hybridizing the randomly located probes to target nucleic acids from portions of the biological specimen; and (e) modifying the randomly located probes that are hybridized to the target nucleic acids, thereby producing modified probes that include the barcode sequences and a target specific modification, thereby spatially tagging the nucleic acids of the biological specimen.Type: ApplicationFiled: September 20, 2021Publication date: January 6, 2022Applicants: Spatial Transcriptomics AB, Illumina, Inc.Inventors: Jonas Frisen, Patrik Stahl, Joakim Lundeberg, Gordon M. Cann, Leila Bazargan, Alex Aravanis
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Patent number: 11162132Abstract: A method for spatially tagging nucleic acids of a biological specimen, including steps of (a) providing a solid support comprising different nucleic acid probes that are randomly located on the solid support, wherein the different nucleic acid probes each includes a barcode sequence that differs from the barcode sequence of other randomly located probes on the solid support; (b) performing a nucleic acid detection reaction on the solid support to locate the barcode sequences on the solid support; (c) contacting a biological specimen with the solid support that has the randomly located probes; (d) hybridizing the randomly located probes to target nucleic acids from portions of the biological specimen; and (e) modifying the randomly located probes that are hybridized to the target nucleic acids, thereby producing modified probes that include the barcode sequences and a target specific modification, thereby spatially tagging the nucleic acids of the biological specimen.Type: GrantFiled: April 22, 2021Date of Patent: November 2, 2021Assignees: Spatial Transcriptomics AB, Illumina, Inc.Inventors: Jonas Frisen, Patrik Stahl, Joakim Lundeberg, Gordon M. Cann, Leila Bazargan, Alex Aravanis
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Publication number: 20210292748Abstract: A method for spatially tagging nucleic acids of a biological specimen, including steps of (a) providing a solid support comprising different nucleic acid probes that are randomly located on the solid support, wherein the different nucleic acid probes each includes a barcode sequence that differs from the barcode sequence of other randomly located probes on the solid support; (b) performing a nucleic acid detection reaction on the solid support to locate the barcode sequences on the solid support; (c) contacting a biological specimen with the solid support that has the randomly located probes; (d) hybridizing the randomly located probes to target nucleic acids from portions of the biological specimen; and (e) modifying the randomly located probes that are hybridized to the target nucleic acids, thereby producing modified probes that include the barcode sequences and a target specific modification, thereby spatially tagging the nucleic acids of the biological specimen.Type: ApplicationFiled: April 22, 2021Publication date: September 23, 2021Applicants: Spatial Transcriptomics AB, Illumina, Inc.Inventors: Jonas Frisen, Patrik Stahl, Joakim Lundeberg, Gordon M. Cann, Leila Bazargan, Alex Aravanis
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Publication number: 20210292822Abstract: A method for spatially tagging nucleic acids of a biological specimen, including steps of (a) providing a solid support comprising different nucleic acid probes that are randomly located on the solid support, wherein the different nucleic acid probes each includes a barcode sequence that differs from the barcode sequence of other randomly located probes on the solid support; (b) performing a nucleic acid detection reaction on the solid support to locate the barcode sequences on the solid support; (c) contacting a biological specimen with the solid support that has the randomly located probes; (d) hybridizing the randomly located probes to target nucleic acids from portions of the biological specimen; and (e) modifying the randomly located probes that are hybridized to the target nucleic acids, thereby producing modified probes that include the barcode sequences and a target specific modification, thereby spatially tagging the nucleic acids of the biological specimen.Type: ApplicationFiled: April 22, 2021Publication date: September 23, 2021Applicants: Spatial Transcriptomics AB, Illumina, Inc.Inventors: Jonas Frisen, Patrik Stahl, Joakim Lundeberg, Gordon M. Cann, Leila Bazargan, Alex Aravanis
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Publication number: 20210254140Abstract: In some embodiments described herein are methods performed in situ for analyzing chromatin interaction events in a cell or in cells of a sample such as a non-homogenized tissue sample. The methods can comprise the spatial analysis of chromatin interaction events across cell populations in a biological sample. The methods can further comprise obtaining a biological sample, hybridizing probes to target nucleic acid sequences involved in chromatin interaction events and producing a nucleic acid sequence comprising all or part of the target nucleic acid sequences, amplifying the nucleic acid sequence so produced and detecting the amplified nucleic acid sequence in situ.Type: ApplicationFiled: February 17, 2021Publication date: August 19, 2021Inventors: Patrik STÅHL, Pelin SAHLÉN
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Publication number: 20210010070Abstract: The present disclosure relates to materials and methods for spatially analyzing nucleic acids that have been fragmented with a transposase enzyme, alone or in combination with other types of analytes.Type: ApplicationFiled: May 18, 2020Publication date: January 14, 2021Inventors: Michael Schnall-Levin, Michael Ybarra Lucero, Tarjei Sigurd Mikkelsen, Patrik Stahl, Jonas Frisen, Maja Marklund, Enric Llorens
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Publication number: 20200407781Abstract: The present disclosure relates to materials and methods for spatially analyzing nucleic acids that have been fragmented with a transposase enzyme, alone or in combination with other types of analytes.Type: ApplicationFiled: May 18, 2020Publication date: December 31, 2020Inventors: Michael Schnall-Levin, Michael Ybarra Lucero, Tarjei Sigurd Mikkelsen, Patrik Stahl, Jonas Frisen, Maja Marklund, Enric Llorens
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Publication number: 20200399687Abstract: A method for spatially tagging nucleic acids of a biological specimen, including steps of (a) providing a solid support comprising different nucleic acid probes that are randomly located on the solid support, wherein the different nucleic acid probes each includes a barcode sequence that differs from the barcode sequence of other randomly located probes on the solid support; (b) performing a nucleic acid detection reaction on the solid support to locate the barcode sequences on the solid support; (c) contacting a biological specimen with the solid support that has the randomly located probes; (d) hybridizing the randomly located probes to target nucleic acids from portions of the biological specimen; and (e) modifying the randomly located probes that are hybridized to the target nucleic acids, thereby producing modified probes that include the barcode sequences and a target specific modification, thereby spatially tagging the nucleic acids of the biological specimen.Type: ApplicationFiled: September 3, 2020Publication date: December 24, 2020Inventors: Jonas Frisen, Patrik Stahl, Joakim Lundeberg, Gordon M. Cann, Leila Bazargan, Alex Aravanis
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Patent number: 10774374Abstract: A method for spatially tagging nucleic acids of a biological specimen, including steps of (a) providing a solid support comprising different nucleic acid probes that are randomly located on the solid support, wherein the different nucleic acid probes each includes a barcode sequence that differs from the barcode sequence of other randomly located probes on the solid support; (b) performing a nucleic acid detection reaction on the solid support to locate the barcode sequences on the solid support; (c) contacting a biological specimen with the solid support that has the randomly located probes; (d) hybridizing the randomly located probes to target nucleic acids from portions of the biological specimen; and (e) modifying the randomly located probes that are hybridized to the target nucleic acids, thereby producing modified probes that include the barcode sequences and a target specific modification, thereby spatially tagging the nucleic acids of the biological specimen.Type: GrantFiled: April 4, 2016Date of Patent: September 15, 2020Assignee: Spatial Transcriptomics AB and Illumina, Inc.Inventors: Jonas Frisén, Patrik Ståhl, Joakim Lundeberg, Gordon M. Cann, Leila Bazargan, Alex Aravanis
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Publication number: 20190264268Abstract: Localized detection of RNA in a tissue sample that includes cells is accomplished on an array. The array include a number of features on a substrate. Each feature includes a different capture probe immobilized such that the capture probe has a free 3? end. Each feature occupies a distinct position on the array and has an area of less than about 1 mm2. Each capture probe is a nucleic acid molecule, which includes a positional domain including a nucleotide sequence unique to a particular feature, and a capture domain including a nucleotide sequence complementary to the RNA to be detected. The capture domain can be at a position 3? of the positional domain.Type: ApplicationFiled: January 22, 2019Publication date: August 29, 2019Inventors: Jonas Frisen, Patrik Stahl, Joakim Lundeberg
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Publication number: 20190203275Abstract: A method for spatially tagging nucleic acids of a biological specimen, including steps of (a) providing a solid support comprising different nucleic acid probes that are randomly located on the solid support, wherein the different nucleic acid probes each includes a barcode sequence that differs from the barcode sequence of other randomly located probes on the solid support; (b) performing a nucleic acid detection reaction on the solid support to locate the barcode sequences on the solid support; (c) contacting a biological specimen with the solid support that has the randomly located probes; (d) hybridizing the randomly located probes to target nucleic acids from portions of the biological specimen; and (e) modifying the randomly located probes that are hybridized to the target nucleic acids, thereby producing modified probes that include the barcode sequences and a target specific modification, thereby spatially tagging the nucleic acids of the biological specimen.Type: ApplicationFiled: April 4, 2016Publication date: July 4, 2019Inventors: JONAS FRISÉN, PATRIK STÅHL, JOAKIM LUNDEBERG, GORDON M. CANN, LEILA BAZARGAN, ALEX ARAVANIS
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Publication number: 20190024154Abstract: Localized detection of RNA in a tissue sample that includes cells is accomplished on an array. The array include a number of features on a substrate. Each feature includes a different capture probe immobilized such that the capture probe has a free 3? end. Each feature occupies a distinct position on the array and has an area of less than about 1 mm2. Each capture probe is a nucleic acid molecule, which includes a positional domain including a nucleotide sequence unique to a particular feature, and a capture domain including a nucleotide sequence complementary to the RNA to be detected. The capture domain can be at a position 3? of the positional domain.Type: ApplicationFiled: July 23, 2018Publication date: January 24, 2019Inventors: JONAS FRISEN, PATRIK STÅHL, JOAKIM LUNDEBERG