Patents by Inventor William Banyai

William Banyai 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).

  • DEVICES AND METHODS FOR OLIGONUCLEIC ACID LIBRARY SYNTHESIS
    Publication number: 20230338913
    Abstract: Devices and methods for de novo synthesis of large and highly accurate libraries of oligonucleic acids are provided herein. Devices include structures having a main channel and microchannels, where the microchannels have a high surface area to volume ratio. Devices disclosed herein provide for de novo synthesis of oligonucleic acids having a low error rate.
    Type: Application
    Filed: May 17, 2023
    Publication date: October 26, 2023
    Inventors: William BANYAI, Bill James PECK, Andres FERNANDEZ, Siyuan CHEN, Pierre INDERMUHLE, Eugene P. MARSH
  • METHODS AND DEVICES FOR DE NOVO OLIGONUCLEIC ACID ASSEMBLY
    Publication number: 20230331765
    Abstract: Methods and devices are provided herein for surfaces for de novo nucleic acid synthesis which provide for low error rates. In addition, methods and devices are provided herein for increased nucleic acid mass yield resulting from de novo nucleic acid synthesis.
    Type: Application
    Filed: May 17, 2023
    Publication date: October 19, 2023
    Inventors: Pierre F. INDERMUHLE, Eugene P. MARSH, Andres FERNANDEZ, William BANYAI, Bill J. PECK
  • Methods and devices for de novo oligonucleic acid assembly
    Patent number: 11697668
    Abstract: Methods and devices are provided herein for surfaces for de novo nucleic acid synthesis which provide for low error rates. In addition, methods and devices are provided herein for increased nucleic acid mass yield resulting from de novo nucleic acid synthesis.
    Type: Grant
    Filed: April 21, 2020
    Date of Patent: July 11, 2023
    Inventors: Pierre F. Indermuhle, Eugene P. Marsh, Andres Fernandez, William Banyai, Bill J. Peck
  • DE NOVO SYNTHESIZED GENE LIBRARIES
    Publication number: 20230211308
    Abstract: De novo synthesized large libraries of nucleic acids are provided herein with low error rates. Further, devices for the manufacturing of high-quality building blocks, such as oligonucleotides, are described herein. Longer nucleic acids can be synthesized in parallel using microfluidic assemblies. Further, methods herein allow for the fast construction of large libraries of long, high-quality genes. Devices for the manufacturing of large libraries of long and high-quality nucleic acids are further described herein.
    Type: Application
    Filed: December 16, 2022
    Publication date: July 6, 2023
    Inventors: William BANYAI, Bill James PECK, Andres FERNANDEZ, Siyuan CHEN, Pierre INDERMUHLE
  • Devices and methods for oligonucleic acid library synthesis
    Patent number: 11691118
    Abstract: Devices and methods for de novo synthesis of large and highly accurate libraries of oligonucleic acids are provided herein. Devices include structures having a main channel and microchannels, where the microchannels have a high surface area to volume ratio. Devices disclosed herein provide for de novo synthesis of oligonucleic acids having a low error rate.
    Type: Grant
    Filed: July 6, 2020
    Date of Patent: July 4, 2023
    Assignee: TWIST BIOSCIENCE CORPORATION
    Inventors: William Banyai, Bill James Peck, Andres Fernandez, Siyuan Chen, Pierre Indermuhle, Eugene P. Marsh
  • METHODS AND COMPOSITIONS RELATING TO CONTINUOUS SEQUENCING
    Publication number: 20230127969
    Abstract: Provided herein are compositions, devices, systems and methods for polynucleotide sequencing. Further provided are devices comprising surfaces for continuous sequencing. The compositions, devices, systems and methods described herein provide improved storage, density, and retrieval of biomolecule-based information.
    Type: Application
    Filed: October 17, 2022
    Publication date: April 27, 2023
    Inventors: Jeremy LACKEY, William BANYAI
  • DE NOVO SYNTHESIZED GENE LIBRARIES
    Publication number: 20230086062
    Abstract: De novo synthesized large libraries of nucleic acids are provided herein with low error rates. Further, devices for the manufacturing of high-quality building blocks, such as oligonucleotides, are described herein. Longer nucleic acids can be synthesized in parallel using microfluidic assemblies. Further, methods herein allow for the fast construction of large libraries of long, high-quality genes. Devices for the manufacturing of large libraries of long and high-quality nucleic acids are further described herein.
    Type: Application
    Filed: August 9, 2022
    Publication date: March 23, 2023
    Inventors: William BANYAI, Bill James PECK, Andres FERNANDEZ, Siyuan CHEN, Pierre INDERMUHLE
  • De novo synthesized gene libraries
    Patent number: 11559778
    Abstract: De novo synthesized large libraries of nucleic acids are provided herein with low error rates. Further, devices for the manufacturing of high-quality building blocks, such as oligonucleotides, are described herein. Longer nucleic acids can be synthesized in parallel using microfluidic assemblies. Further, methods herein allow for the fast construction of large libraries of long, high-quality genes. Devices for the manufacturing of large libraries of long and high-quality nucleic acids are further described herein.
    Type: Grant
    Filed: July 18, 2018
    Date of Patent: January 24, 2023
    Assignee: Twist Bioscience Corporation
    Inventors: William Banyai, Bill James Peck, Andres Fernandez, Siyuan Chen, Pierre Indermuhle
  • CELL FREE CLONING OF NUCLEIC ACIDS
    Publication number: 20220325276
    Abstract: Methods and devices for cell-free sorting and cloning of nucleic acid libraries are provided herein.
    Type: Application
    Filed: May 16, 2016
    Publication date: October 13, 2022
    Inventors: William BANYAI, Bill James PECK, Andres FERNANDEZ, Siyuan CHEN, Pierre INDERMUHLE, Cheng-Hsien WU, Esteban TORO
  • De novo synthesized gene libraries
    Patent number: 11452980
    Abstract: De novo synthesized large libraries of nucleic acids are provided herein with low error rates. Further, devices for the manufacturing of high-quality building blocks, such as oligonucleotides, are described herein. Longer nucleic acids can be synthesized in parallel using microfluidic assemblies. Further, methods herein allow for the fast construction of large libraries of long, high-quality genes. Devices for the manufacturing of large libraries of long and high-quality nucleic acids are further described herein.
    Type: Grant
    Filed: January 8, 2020
    Date of Patent: September 27, 2022
    Assignee: Twist Bioscience Corporation
    Inventors: William Banyai, Bill James Peck, Andres Fernandez, Siyuan Chen, Pierre Indermuhle
  • De novo synthesized gene libraries
    Patent number: 11185837
    Abstract: De novo synthesized large libraries of nucleic acids are provided herein with low error rates. Further, devices for the manufacturing of high-quality building blocks, such as oligonucleotides, are described herein. Longer nucleic acids can be synthesized in parallel using microfluidic assemblies. Further, methods herein allow for the fast construction of large libraries of long, high-quality genes. Devices for the manufacturing of large libraries of long and high-quality nucleic acids are further described herein.
    Type: Grant
    Filed: August 8, 2019
    Date of Patent: November 30, 2021
    Assignee: Twist Bioscience Corporation
    Inventors: William Banyai, Bill James Peck, Andres Fernandez, Siyuan Chen, Pierre Indermuhle
  • DEVICES AND METHODS FOR OLIGONUCLEIC ACID LIBRARY SYNTHESIS
    Publication number: 20200330953
    Abstract: Devices and methods for de novo synthesis of large and highly accurate libraries of oligonucleic acids are provided herein. Devices include structures having a main channel and microchannels, where the microchannels have a high surface area to volume ratio. Devices disclosed herein provide for de novo synthesis of oligonucleic acids having a low error rate.
    Type: Application
    Filed: July 6, 2020
    Publication date: October 22, 2020
    Inventors: William BANYAI, Bill James PECK, Andres FERNANDEZ, Siyuan CHEN, Pierre INDERMUHLE, Eugene P. MARSH
  • METHODS AND DEVICES FOR DE NOVO OLIGONUCLEIC ACID ASSEMBLY
    Publication number: 20200299322
    Abstract: Methods and devices are provided herein for surfaces for de novo nucleic acid synthesis which provide for low error rates. In addition, methods and devices are provided herein for increased nucleic acid mass yield resulting from de novo nucleic acid synthesis.
    Type: Application
    Filed: April 21, 2020
    Publication date: September 24, 2020
    Inventors: Pierre F. Indermuhle, Eugene P. Marsh, Andres Fernandez, William Banyai, Bill J. Peck
  • De novo synthesized gene libraries
    Patent number: 10773232
    Abstract: De novo synthesized large libraries of nucleic acids are provided herein with low error rates. Further, devices for the manufacturing of high-quality building blocks, such as oligonucleotides, are described herein. Longer nucleic acids can be synthesized in parallel using microfluidic assemblies. Further, methods herein allow for the fast construction of large libraries of long, high-quality genes. Devices for the manufacturing of large libraries of long and high-quality nucleic acids are further described herein.
    Type: Grant
    Filed: August 8, 2019
    Date of Patent: September 15, 2020
    Assignee: Twist Bioscience Corporation
    Inventors: William Banyai, Bill James Peck, Andres Fernandez, Siyuan Chen, Pierre Indermuhle
  • Devices and methods for oligonucleic acid library synthesis
    Patent number: 10744477
    Abstract: Devices and methods for de novo synthesis of large and highly accurate libraries of oligonucleic acids are provided herein. Devices include structures having a main channel and microchannels, where the microchannels have a high surface area to volume ratio. Devices disclosed herein provide for de novo synthesis of oligonucleic acids having a low error rate.
    Type: Grant
    Filed: April 23, 2018
    Date of Patent: August 18, 2020
    Assignee: TWIST BIOSCIENCE CORPORATION
    Inventors: William Banyai, Bill James Peck, Andres Fernandez, Siyuan Chen, Pierre Indermuhle, Eugene P. Marsh
  • Methods and devices for de novo oligonucleic acid assembly
    Patent number: 10669304
    Abstract: Methods and devices are provided herein for surfaces for de novo nucleic acid synthesis which provide for low error rates. In addition, methods and devices are provided herein for increased nucleic acid mass yield resulting from de novo nucleic acid synthesis.
    Type: Grant
    Filed: February 3, 2016
    Date of Patent: June 2, 2020
    Assignee: TWIST BIOSCIENCE CORPORATION
    Inventors: Pierre F. Indermuhle, Eugene P. Marsh, Andres Fernandez, William Banyai, Bill J. Peck
  • DE NOVO SYNTHESIZED GENE LIBRARIES
    Publication number: 20200156037
    Abstract: De novo synthesized large libraries of nucleic acids are provided herein with low error rates. Further, devices for the manufacturing of high-quality building blocks, such as oligonucleotides, are described herein. Longer nucleic acids can be synthesized in parallel using microfluidic assemblies. Further, methods herein allow for the fast construction of large libraries of long, high-quality genes. Devices for the manufacturing of large libraries of long and high-quality nucleic acids are further described herein.
    Type: Application
    Filed: January 8, 2020
    Publication date: May 21, 2020
    Inventors: William BANYAI, Bill James PECK, Andres FERNANDEZ, Siyuan CHEN, Pierre INDERMUHLE
  • De novo synthesized gene libraries
    Patent number: 10639609
    Abstract: De novo synthesized large libraries of nucleic acids are provided herein with low error rates. Further, devices for the manufacturing of high-quality building blocks, such as oligonucleotides, are described herein. Longer nucleic acids can be synthesized in parallel using microfluidic assemblies. Further, methods herein allow for the fast construction of large libraries of long, high-quality genes. Devices for the manufacturing of large libraries of long and high-quality nucleic acids are further described herein.
    Type: Grant
    Filed: October 10, 2017
    Date of Patent: May 5, 2020
    Assignee: TWIST BIOSCIENCE CORPORATION
    Inventors: William Banyai, Bill James Peck, Andres Fernandez, Siyuan Chen, Pierre Indermuhle
  • De novo synthesized gene libraries
    Patent number: 10632445
    Abstract: De novo synthesized large libraries of nucleic acids are provided herein with low error rates. Further, devices for the manufacturing of high-quality building blocks, such as oligonucleotides, are described herein. Longer nucleic acids can be synthesized in parallel using microfluidic assemblies. Further, methods herein allow for the fast construction of large libraries of long, high-quality genes. Devices for the manufacturing of large libraries of long and high-quality nucleic acids are further described herein.
    Type: Grant
    Filed: June 20, 2016
    Date of Patent: April 28, 2020
    Assignee: TWIST BIOSCIENCE CORPORATION
    Inventors: William Banyai, Bill James Peck, Andres Fernandez, Siyuan Chen, Pierre Indermuhle
  • De novo synthesized gene libraries
    Patent number: 10618024
    Abstract: De novo synthesized large libraries of nucleic acids are provided herein with low error rates. Further, devices for the manufacturing of high-quality building blocks, such as oligonucleotides, are described herein. Longer nucleic acids can be synthesized in parallel using microfluidic assemblies. Further, methods herein allow for the fast construction of large libraries of long, high-quality genes. Devices for the manufacturing of large libraries of long and high-quality nucleic acids are further described herein.
    Type: Grant
    Filed: May 23, 2017
    Date of Patent: April 14, 2020
    Assignee: TWIST BIOSCIENCE CORPORATION
    Inventors: William Banyai, Bill James Peck, Andres Fernandez, Siyuan Chen, Pierre Indermuhle