Patents by Inventor Jacob BALE
Jacob BALE 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: 12545903Abstract: The application discloses multimeric assemblies including multiple oligomeric substructures, where each oligomeric substructure includes multiple proteins that self-interact around at least one axis of rotational symmetry, where each protein includes one or more polypeptide-polypeptide interface (“O interface”); and one or more polypeptide domain that is capable of effecting membrane scission and release of an enveloped multimeric assembly from a cell by recruiting the ESCRT machinery to the site of budding by binding to one or more proteins in the eukaryotic ESCRT complex (“L domain”); and where the multimeric assembly includes one or more subunits comprising one or more polypeptide domain that is capable of interacting with a lipid bilayer (“M domain”), as well as membrane-enveloped versions of the multimeric assemblies.Type: GrantFiled: June 2, 2021Date of Patent: February 10, 2026Assignees: UNIVERSITY OF WASHINGTON, UNIVERSITY OF UTAH RESEARCH FOUNDATIONInventors: Neil King, Wesley Sundquist, Joerg Votteler, Yang Hsia, David Baker, Jacob Bale, Marc Lajoie, Gabriel Butterfield, Elizabeth Gray, Daniel Stetson
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Publication number: 20250304941Abstract: The application discloses multimeric assemblies including multiple oligomeric substructures, where each oligomeric substructure includes multiple proteins that self-interact around at least one axis of rotational symmetry, where each protein includes one or more polypeptide-polypeptide interface (“O interface”); and one or more polypeptide domain that is capable of effecting membrane scission and release of an enveloped multimeric assembly from a cell by recruiting the ESCRT machinery to the site of budding by binding to one or more proteins in the eukaryotic ESCRT complex (“L domain”); and where the multimeric assembly includes one or more subunits comprising one or more polypeptide domain that is capable of interacting with a lipid bilayer (“M domain”), as well as membrane-enveloped versions of the multimeric assemblies.Type: ApplicationFiled: June 13, 2025Publication date: October 2, 2025Inventors: Neil KING, Wesley SUNDQUIST, Joerg VOTTELER, Yang HSIA, David BAKER, Jacob BALE, Marc LAJOIE, Gabriel BUTTERFIELD, Elizabeth GRAY, Daniel STETSON
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Publication number: 20240038331Abstract: Synthetic nanostructures, proteins that are useful, for example, in making synthetic nanostructures, and methods for designing such synthetic nanostructures are disclosed herein.Type: ApplicationFiled: September 1, 2023Publication date: February 1, 2024Inventors: David BAKER, Neil KING, Jacob BALE, William SHEFFLER
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Publication number: 20230313167Abstract: The application discloses multimeric assemblies including multiple oligomeric substructures, where each oligomeric substructure includes multiple proteins that self-interact around at least one axis of rotational symmetry, where each protein includes one or more polypeptide-polypeptide interface (“O interface”); and one or more polypeptide domain that is capable of effecting membrane scission and release of an enveloped multimeric assembly from a cell by recruiting the ESCRT machinery to the site of budding by binding to one or more proteins in the eukaryotic ESCRT complex (“L domain”); and where the multimeric assembly includes one or more subunits comprising one or more polypeptide domain that is capable of interacting with a lipid bilayer (“M domain”), as well as membrane-enveloped versions of the multimeric assemblies.Type: ApplicationFiled: February 24, 2023Publication date: October 5, 2023Inventors: Neil King, Wesley Sundquist, Joerg Votteler, Yang Hsia, David Baker, Jacob Bale, Marc Lajoie, Gabriel Butterfield, Elizabeth Gray, Daniel Stetson
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Publication number: 20210340519Abstract: The application discloses multimeric assemblies including multiple oligomeric substructures, where each oligomeric substructure includes multiple proteins that self-interact around at least one axis of rotational symmetry, where each protein includes one or more polypeptide-polypeptide interface (“O interface”); and one or more polypeptide domain that is capable of effecting membrane scission and release of an enveloped multimeric assembly from a cell by recruiting the ESCRT machinery to the site of budding by binding to one or more proteins in the eukaryotic ESCRT complex (“L domain”); and where the multimeric assembly includes one or more subunits comprising one or more polypeptide domain that is capable of interacting with a lipid bilayer (“M domain”), as well as membrane-enveloped versions of the multimeric assemblies.Type: ApplicationFiled: June 2, 2021Publication date: November 4, 2021Inventors: Neil KING, Wesley SUNDQUIST, Joerg VOTTELER, Yang HSIA, David BAKER, Jacob BALE, Marc LAJOIE, Gabriel BUTTERFIELD, Elizabeth GRAY, Daniel STETSON
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Patent number: 11028383Abstract: The application discloses multimeric assemblies including multiple oligomeric substructures, where each oligomeric substructure includes multiple proteins that self-interact around at least one axis of rotational symmetry, where each protein includes one or more polypeptide-polypeptide interface (“O interface”); and one or more polypeptide domain that is capable of effecting membrane scission and release of an enveloped multimeric assembly from a cell by recruiting the ESCRT machinery to the site of budding by binding to one or more proteins in the eukaryotic ESCRT complex (“L domain”); and where the multimeric assembly includes one or more subunits comprising one or more polypeptide domain that is capable of interacting with a lipid bilayer (“M domain”), as well as membrane-enveloped versions of the multimeric assemblies.Type: GrantFiled: November 6, 2019Date of Patent: June 8, 2021Assignees: University of Washington, University of Utah Research FoundationInventors: Neil King, Wesley Sundquist, Joerg Votteler, Yang Hsia, David Baker, Jacob Bale, Marc Lajoie, Gabriel Butterfield, Elizabeth Gray, Daniel Stetson
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Publication number: 20200224186Abstract: The application discloses multimeric assemblies including multiple oligomeric substructures, where each oligomeric substructure includes multiple proteins that self-interact around at least one axis of rotational symmetry, where each protein includes one or more polypeptide-polypeptide interface (“O interface”); and one or more polypeptide domain that is capable of effecting membrane scission and release of an enveloped multimeric assembly from a cell by recruiting the ESCRT machinery to the site of budding by binding to one or more proteins in the eukaryotic ESCRT complex (“L domain”); and where the multimeric assembly includes one or more subunits comprising one or more polypeptide domain that is capable of interacting with a lipid bilayer (“M domain”), as well as membrane-enveloped versions of the multimeric assemblies.Type: ApplicationFiled: November 6, 2019Publication date: July 16, 2020Inventors: Neil KING, Wesley SUNDQUIST, Joerg VOTTELER, Yang HSIA, David BAKER, Jacob BALE, Marc LAJOIE, Gabriel BUTTERFIELD, Elizabeth GRAY, Daniel STETSON
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Patent number: 10501733Abstract: The application discloses multimeric assemblies including multiple oligomeric substructures, where each oligomeric substructure includes multiple proteins that self-interact around at least one axis of rotational symmetry, where each protein includes one or more polypeptide-polypeptide interface (“O interface”); and one or more polypeptide domain that is capable of effecting membrane scission and release of an enveloped multimeric assembly from a cell by recruiting the ESCRT machinery to the site of budding by binding to one or more proteins in the eukaryotic ESCRT complex (“L domain”); and where the multimeric assembly includes one or more subunits comprising one or more polypeptide domain that is capable of interacting with a lipid bilayer (“M domain”), as well as membrane-enveloped versions of the multimeric assemblies.Type: GrantFiled: February 29, 2016Date of Patent: December 10, 2019Assignees: University of Washington, University of Utah Research FoundationInventors: Neil King, Wesley Sundquist, Joerg Votteler, Yang Hsia, David Baker, Jacob Bale, Marc Lajoie, Gabriel Butterfield, Elizabeth Gray, Daniel Stetson
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Publication number: 20190341124Abstract: Synthetic nanostructures, proteins that are useful, for example, in making synthetic nanostructures, and methods for designing such synthetic nanostructures are disclosed herein.Type: ApplicationFiled: February 8, 2019Publication date: November 7, 2019Inventors: David BAKER, Neil KING, Jacob BALE, William SHEFFLER
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Patent number: 10248758Abstract: Synthetic nanostructures, proteins that are useful, for example, in making synthetic nanostructures, and methods for designing such synthetic nanostructures are disclosed herein.Type: GrantFiled: February 7, 2014Date of Patent: April 2, 2019Assignee: University of Washington Through its Center for CommercializationInventors: David Baker, Neil King, Jacob Bale, William Sheffler
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Publication number: 20180030429Abstract: The application discloses multimeric assemblies including multiple oligomeric substructures, where each oligomeric substructure includes multiple proteins that self-interact around at least one axis of rotational symmetry, where each protein includes one or more polypeptide-polypeptide interface (“O interface”); and one or more polypeptide domain that is capable of effecting membrane scission and release of an enveloped multimeric assembly from a cell by recruiting the ESCRT machinery to the site of budding by binding to one or more proteins in the eukaryotic ESCRT complex (“L domain”); and where the multimeric assembly includes one or more subunits comprising one or more polypeptide domain that is capable of interacting with a lipid bilayer (“M domain”), as well as membrane-enveloped versions of the multimeric assemblies.Type: ApplicationFiled: February 29, 2016Publication date: February 1, 2018Inventors: Neil KING, Wesley SUNDQUIST, Joerg VOTTELER, Yang HSIA, David BAKER, Jacob BALE, Marc LAJOIE, Gabriel BUTTERFIELD, Elizabeth GRAY, Daniel STETSON
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Publication number: 20150356240Abstract: Synthetic nanostructures, proteins that are useful, for example, in making synthetic nanostructures, and methods for designing such synthetic nanostructures are disclosed herein.Type: ApplicationFiled: February 7, 2014Publication date: December 10, 2015Applicant: University of Washington Through It's Center For CommercializationInventors: David BAKER, Neil KING, Jacob BALE, William SHEFFLER