Patents by Inventor Nanda Singh
Nanda Singh 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: 9617316Abstract: Described are mutant Nav1.7 sodium channel alpha-subunits and nucleic acid sequences encoding such mutants. Further described are methods for characterizing a nucleic acid sequence that encodes a Nav1.7 sodium channel alpha-subunit, methods for determining a Nav1.7 haplotype, methods for determining a subject's predisposition to a neurologic disorder associated with a sodium channel mutation, and methods of identifying a compound that modulates mutant Nav1.7 sodium channels. Other materials, compositions, articles, devices, and methods relating to mutant Nav1.7 sodium channels are also described herein.Type: GrantFiled: August 14, 2013Date of Patent: April 11, 2017Assignee: University of Utah Research FoundationInventors: Mark F. Leppert, Nanda A. Singh
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Patent number: 9523127Abstract: Generalized idiopathic epilepsies (IGE) cause 40% of all seizures and commonly have a genetic basis. One type of IGE is Benign Familial Neonatal Convulsions (BFNC), a dominantly inherited disorder of newborns. A submicroscopic deletion of chromosome 20q13.3 which co-segregates with seizures in a BFNC family has been identified. Characterization of cDNAs spanning the deleted region identified a novel voltage-gated potassium channel, KCNQ2, which belongs to a new KCNQ1-like class of potassium channels. Nine other BFNC probands were shown to have KCNQ2 mutations including three missense mutations, three frameshifts, two nonsense mutations, and one splice site mutation. A second gene, KCNQ3, was found in a separate BFNC family in which the mutation had been localized to chromosome 8. A missense mutation was found in this gene in perfect cosegregation with the BFNC phenotype in this latter family. This demonstrates that defects in potassium channels can cause epilepsy.Type: GrantFiled: February 5, 2007Date of Patent: December 20, 2016Assignee: THE UNIVERSITY OF UTAH RESEARCH FOUNDATIONInventors: Nanda A. Singh, Mark F. Leppert, Carole Charlier
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Publication number: 20140165219Abstract: Described are mutant Nav1.7 sodium channel alpha-subunits and nucleic acid sequences encoding such mutants. Further described are methods for characterizing a nucleic acid sequence that encodes a Nav1.7 sodium channel alpha-subunit, methods for determining a Nav1.7 haplotype, methods for determining a subject's predisposition to a neurologic disorder associated with a sodium channel mutation, and methods of identifying a compound that modulates mutant Nav1.7 sodium channels. Other materials, compositions, articles, devices, and methods relating to mutant Nav1.7 sodium channels are also described herein.Type: ApplicationFiled: August 14, 2013Publication date: June 12, 2014Applicant: UNIVERSITY OF UTAH RESEARCH FOUNDATIONInventors: Mark F. Leppert, Nanda A. Singh
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Patent number: 8129353Abstract: The present invention provides nucleic acid and amino acid sequences of an ATP binding cassette transporter and mutated sequences thereof associated with macular degeneration. Methods of detecting agents that modify ATP-binding cassette transporter comprising combining purified ATP binding cassette transporter and at least one agent suspected of modifying the ATP binding cassette transporter an observing a change in at least one characteristic associated with ATP binding cassette transporter. Methods of detecting macular degeneration is also embodied by the present invention.Type: GrantFiled: December 11, 2006Date of Patent: March 6, 2012Assignees: Baylor College of Medicine, John Hopkins University, The United States of America as represented by the Secretary, Department of Health and Human Services, University of Utah Research FoundationInventors: Rando Allikmets, Kent L. Anderson, Michael Dean, Mark Leppert, Richard A. Lewis, Yixin Li, James R. Lupski, Jeremy Nathans, Amir Rattner, Noah F. Shroyer, Nanda Singh, Philip Smallwood, Hui Sun
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Publication number: 20120040456Abstract: The present invention provides nucleic acid and amino acid sequences of an ATP binding cassette transporter and mutated sequences thereof associated with macular degeneration. Methods of detecting agents that modify ATP-binding cassette transporter comprising combining purified ATP binding cassette transporter and at least one agent suspected of modifying the ATP binding cassette transporter an observing a change in at least one characteristic associated with ATP binding cassette transporter. Methods of detecting macular degeneration is also embodied by the present invention.Type: ApplicationFiled: June 2, 2011Publication date: February 16, 2012Applicant: Baylor College of MedicineInventors: Rando Allikmets, Kent L. Anderson, Michael Dean, Mark Leppert, Richard A. Lewis, Yixin Li, James R. Lupski, Jeremy Nathans, Amir Rattner, Noah F. Shroyer, Nanda Singh, Philip Smallwood, Hui Sun
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Publication number: 20110104665Abstract: Described are mutant Nav1.7 sodium channel alpha-subunits and nucleic acid sequences encoding such mutants. Further described are methods for characterizing a nucleic acid sequence that encodes a Nav1 sodium channel alpha-subunit, methods for determining a Nav1.7 haplotype, methods for determining a subject's predisposition to a neurologic disorder associated with a sodium channel mutation, and methods of identifying a compound that modulates mutant Nav1.7 sodium channels. Other materials, compositions, articles, devices, and methods relating to mutant Nav1.7 sodium channels are also described herein.Type: ApplicationFiled: August 5, 2009Publication date: May 5, 2011Inventors: Mark F. Leppert, Nanda A. Singh
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Patent number: 7670771Abstract: Described are mutant Nav1.7 sodium channel alpha-subunits and nucleic acid sequences encoding such mutants. Further described are methods for characterizing a nucleic acid sequence that encodes a Nav1 sodium channel alpha-subunit, methods for determining a Nav1.7 haplotype, methods for determining a subject's predisposition to a neurologic disorder associated with a sodium channel mutation, and methods of identifying a compound that modulates mutant Nav1.7 sodium channels. Other materials, compositions, articles, devices, and methods relating to mutant Nav1.7 sodium channels are also described herein.Type: GrantFiled: January 21, 2005Date of Patent: March 2, 2010Assignee: University of Utah Research FoundationInventors: Mark F. Leppert, Nanda A. Singh
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Publication number: 20090029930Abstract: The present invention provides nucleic acid and amino acid sequences of an ATP binding cassette transporter and mutated sequences thereof associated with macular degeneration. Methods of detecting agents that modify ATP-binding cassette transporter comprising combining purified ATP binding cassette transporter and at least one agent suspected of modifying the ATP binding cassette transporter an observing a change in at least one characteristic associated with ATP binding cassette transporter. Methods of detecting macular degeneration is also embodied by the present invention.Type: ApplicationFiled: December 11, 2006Publication date: January 29, 2009Applicants: Utah, University of, Research Foundation, Johns Hopkins University, Baylor College of Medicine, United States of America Department of Health and Human ServicesInventors: Rando Allikmets, Kent L. Anderson, Michael Dean, Mark Leppert, Richard A. Lewis, Yixin Li, James R. Lupski, Jeremy Nathans, Amir Rattner, Noah F. Shroyer, Nanda Singh, Philip Smallwood, Hui Sun
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Publication number: 20070275384Abstract: Described are mutant Nav1.7 sodium channel alpha-subunits and nucleic acid sequences encoding such mutants. Further described are methods for characterizing a nucleic acid sequence that encodes a Nav1 sodium channel alpha-subunit, methods for determining a Nav 1.7 haplotype, methods for determining a subject's predisposition to a neurologic disorder associated with a sodium channel mutation, and methods of identifying a compound that modulates mutant Nav1.7 sodium channels. Other materials, compositions, articles, devices, and methods relating to mutant Nav1.7 sodium channels are also described herein.Type: ApplicationFiled: January 21, 2005Publication date: November 29, 2007Applicant: UNIVERSITY OF UTAH RESEARCH FOUNDATIONInventors: Mark Leppert, Nanda Singh
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Publication number: 20070254297Abstract: Generalized idiopathic epilepsies (IGE) cause 40% of all seizures and commonly have a genetic basis. One type of IGE is Benign Familial Neonatal Convulsions (BFNC), a dominantly inherited disorder of newborns. A submicroscopic deletion of chromosome 20q13.3 which co-segregates with seizures in a BFNC family has been identified. Characterization of cDNAs spanning the deleted region identified a novel voltage-gated potassium channel, KCNQ2, which belongs to a new KCNQ1-like class of potassium channels. Nine other BFNC probands were shown to have KCNQ2 mutations including three missense mutations, three frameshifts, two nonsense mutations, and one splice site mutation. A second gene, KCNQ3, was found in a separate BFNC family in which the mutation had been localized to chromosome 8. A missense mutation was found in this gene in perfect cosegregation with the BFNC phenotype in this latter family. This demonstrates that defects in potassium channels can cause epilepsy.Type: ApplicationFiled: February 5, 2007Publication date: November 1, 2007Inventors: Nanda Singh, Mark Leppert, Carole Charlier
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Patent number: 7214483Abstract: Generalized idiopathic epilepsies (IGE) cause 40% of all seizures and commonly have a genetic basis. One type of IGE is Benign Familial Neonatal Convulsions (BFNC), a dominantly inherited disorder of newborns. A submicroscopic deletion of chromosome 20q13.3 which co-segregates with seizures in a BFNC family has been identified. Characterization of cDNAs spanning the deleted region identified a novel voltage-gated potassium channel, KCNQ2, which belongs to a new KCNQ1-like class of potassium channels. Nine other BFNC probands were shown to have KCNQ2 mutations including three missense mutations, three frameshifts, two nonsense mutations, and one splice site mutation. A second gene, KCNQ3, was found in a separate BFNC family in which the mutation had been localized to chromosome 8. A missense mutation was found in this gene in perfect cosegregation with the BFNC phenotype in this latter family. This demonstrates that defects in potassium channels can cause epilepsy.Type: GrantFiled: March 14, 2002Date of Patent: May 8, 2007Assignee: University of Utah Research FoundationInventors: Nanda A. Singh, Mark F. Leppert, Carole Charlier
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Patent number: 7192579Abstract: The present invention provides nucleic acid and amino acid sequences of an ATP binding cassette transporter and mutated sequences thereof associated with macular degeneration. Methods of detecting agents that modify ATP-binding cassette transporter comprising combining purified ATP binding cassette transporter and at least one agent suspected of modifying the ATP binding cassette transporter an observing a change in at least one characteristic associated with ATP binding cassette transporter. Methods of detecting macular degeneration is also embodied by the present invention.Type: GrantFiled: January 3, 2003Date of Patent: March 20, 2007Assignees: Baylor College of Medicine, Johns Hopkins University, University of Utah Research Foundation, United States of America, Represented by the Secretary, Department of Health and Human Services, c/o National Institute of HealthInventors: Rando Allikmets, Kent L. Anderson, Michael Dean, Mark Leppert, Richard A. Lewis, Yixin Li, James R. Lupski, Jeremy Nathans, Amir Rattner, Noah F. Shroyer, Nanda Singh, Philip Smallwood, Hui Sun
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Patent number: 7189511Abstract: The present invention provides nucleic acid and amino acid sequences of an ATP binding cassette transporter and mutated sequences thereof associated with macular degeneration. Methods of detecting agents that modify ATP-binding cassette transporter comprising combining purified ATP binding cassette transporter and at least one agent suspected of modifying the ATP binding cassette transporter an observing a change in at least one characteristic associated with ATP binding cassette transporter. Methods of detecting macular degeneration is also embodied by the present invention.Type: GrantFiled: January 3, 2003Date of Patent: March 13, 2007Assignees: Baylor College of Medicine, The United States of America as represented by the Department of Health and Human Services, University of Utah Research Foundation, John Hopkins UniversityInventors: Rando Allikmets, Kent L. Anderson, Michael Dean, Mark Leppert, Richard A. Lewis, Yixin Li, James R. Lupski, Jeremy Nathans, Amir Rattner, Noah F. Shroyer, Nanda Singh, Philip Smallwood, Hui Sun
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Patent number: 7141420Abstract: The present invention provides nucleic acid and amino acid sequences of an ATP binding cassette transporter and mutated sequences thereof associated with macular degeneration. Methods of detecting agents that modify ATP-binding cassette transporter comprising combining purified ATP binding cassette transporter and at least one agent suspected of modifying the ATP binding cassette transporter an observing a change in at least one characteristic associated with ATP binding cassette transporter. Methods of detecting macular degeneration is also embodied by the present invention.Type: GrantFiled: January 10, 2003Date of Patent: November 28, 2006Assignees: University of Utah Research Foundation, Baylor College of Medicine, John Hopkins University, The United States of America as represented by the Department of Health and Human ServicesInventors: Rando Allikmets, Kent L. Anderson, Michael Dean, Mark Leppert, Richard A. Lewis, Yixin Li, James R. Lupski, Jeremy Nathans, Amir Rattner, Noah F. Shroyer, Nanda Singh, Philip Smallwood, Hui Sun
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Patent number: 6713300Abstract: The present invention provides nucleic acid and amino acid sequences of an ATP binding cassette transporter and mutated sequences thereof associated with macular degeneration. Methods of detecting agents that modify ATP-binding cassette transporter comprising combining purified ATP binding cassette transporter and at least one agent suspected of modifying the ATP binding cassette transporter an observing a change in at least one characteristic associated with ATP binding cassette transporter. Methods of detecting macular degeneration is also embodied by the present invention.Type: GrantFiled: February 27, 1998Date of Patent: March 30, 2004Assignees: University of Utah Research Foundation, Baylor College of Medicine, Johns Hopkins University, The United States of America as represented by the Department of Health and Human ServicesInventors: Rando Allikmets, Kent L. Anderson, Michael Dean, Mark Leppert, Richard A. Lewis, Yixin Li, James R. Lupski, Jeremy Nathans, Amir Rattner, Noah F. Shroyer, Nanda Singh, Philip Smallwood, Hui Sun
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Publication number: 20030170852Abstract: The present invention provides nucleic acid and amino acid sequences of an ATP binding cassette transporter and mutated sequences thereof associated with macular degeneration. Methods of detecting agents that modify ATP-binding cassette transporter comprising combining purified ATP binding cassette transporter and at least one agent suspected of modifying the ATP binding cassette transporter an observing a change in at least one characteristic associated with ATP binding cassette transporter. Methods of detecting macular degeneration is also embodied by the present invention.Type: ApplicationFiled: January 3, 2003Publication date: September 11, 2003Inventors: Rando Allikmets, Kent L. Anderson, Michael Dean, Mark Leppert, Richard A. Lewis, Yixin Li, James R. Lupski, Jeremy Nathans, Amir Rattner, Noah F. Shroyer, Nanda Singh, Philip Smallwood, Hui Sun
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Publication number: 20030170853Abstract: The present invention provides nucleic acid and amino acid sequences of an ATP binding cassette transporter and mutated sequences thereof associated with macular degeneration. Methods of detecting agents that modify ATP-binding cassette transporter comprising combining purified ATP binding cassette transporter and at least one agent suspected of modifying the ATP binding cassette transporter an observing a change in at least one characteristic associated with ATP binding cassette transporter. Methods of detecting macular degeneration is also embodied by the present invention.Type: ApplicationFiled: January 3, 2003Publication date: September 11, 2003Inventors: Rando Allikmets, Kent L. Anderson, Michael Dean, Mark Leppert, Richard A. Lewis, Yixin Li, James R. Lupski, Jeremy Nathans, Amir Rattner, Noah F. Shroyer, Nanda Singh, Philip Smallwood, Hui Sun
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Publication number: 20030165874Abstract: Generalized idiopathic epilepsies (IGE) cause 40% of all seizures and commonly have a genetic basis. One type of IGE is Benign Familial Neonatal Convulsions (BFNC), a dominantly inherited disorder of newborns. A submicroscopic deletion of chromosome 20q13.3 which co-segregates with seizures in a BFNC family has been identified. Characterization of cDNAs spanning the deleted region identified a novel voltage-gated potassium channel, KCNQ2, which belongs to a new KCNQ1-like class of potassium channels. Nine other BFNC probands were shown to have KCNQ2 mutations including three missense mutations, three frameshifts, two nonsense mutations, and one splice site mutation. A second gene, KCNQ3, was found in a separate BFNC family in which the mutation had been localized to chromosome 8. A missense mutation was found in this gene in perfect cosegregation with the BFNC phenotype in this latter family. This demonstrates that defects in potassium channels can cause epilepsy.Type: ApplicationFiled: March 14, 2002Publication date: September 4, 2003Applicant: University of Utah Research FoundationInventors: Nanda A. Singh, Mark F. Leppert, Carole Charlier
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Publication number: 20030162276Abstract: The present invention provides nucleic acid and amino acid sequences of an ATP binding cassette transporter and mutated sequences thereof associated with macular degeneration. Methods of detecting agents that modify ATP-binding cassette transporter comprising combining purified ATP binding cassette transporter and at least one agent suspected of modifying the ATP binding cassette transporter an observing a change in at least one characteristic associated with ATP binding cassette transporter. Methods of detecting macular degeneration is also embodied by the present invention.Type: ApplicationFiled: January 10, 2003Publication date: August 28, 2003Inventors: Rando Allikmets, Kent L. Anderson, Michael Dean, Mark Leppert, Richard A. Lewis, Yixin Li, James R. Lupski, Jeremy Nathans, Amir Rattner, Noah F. Shroyer, Nanda Singh, Philip Smallwood, Hui Sun
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Patent number: 6413719Abstract: Generalized idiopathic epilepsies (IGE) cause 40% of all seizures and commonly have a genetic basis. One type of IGE is Benign Familial Neonatal Convulsions (BFNC), a dominantly inherited disorder of newborns. A submicroscopic deletion of chromosome 20q13.3 which co-segregates with seizures in a BFNC family has been identified. Characterization of cDNAs spanning the deleted region identified a novel voltage-gated potassium channel, KCNQ2, which belongs to a new KCNQ1-like class of potassium channels. Nine other BFNC probands were shown to have KCNQ2 mutations including three missense mutations, three frameshifts, two nonsense mutations, and one splice site mutation. A second gene, KCNQ3, was found in a separate BFNC family in which the mutation had been localized to chromosome 8. A missense mutation was found in this gene in perfect cosegregation with the BFNC phenotype in this latter family. This demonstrates that defects in potassium channels can cause epilepsy.Type: GrantFiled: October 23, 1998Date of Patent: July 2, 2002Assignee: University of Utah Research FoundationInventors: Nanda A. Singh, Mark F. Leppert, Carole Charlier