Patents by Inventor James Francis Pelletier

James Francis Pelletier 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).

  • Publication number: 20220169995
    Abstract: A trans-disciplinary system for cell-free biosynthesis includes a cell-free transcription-translation (TX-TL) tool and modular, generalizable microfluidic architectures. Both components of the system are independently functional and are combinable into a cell-free biosynthesis platform. In the first component, modular plasmid libraries are used to program bacterial cell-free TX-TL systems. Each plasmid holds one gene or operon, and all the genes are controlled by the same promoter, so that the stoichiometry of enzyme synthesis is determined by the stoichiometry of plasmids in the reaction. In the second part, in order to facilitate high throughput mixing and matching of gene units from the modular plasmid libraries, a modular, reconfigurable, flexible, and scalable microfluidic architecture is employed.
    Type: Application
    Filed: October 6, 2021
    Publication date: June 2, 2022
    Applicants: Massachusetts Institute of Technology, Regents of the University of Minnesota
    Inventors: Andreas Mershin, Vincent Noireaux, James Francis Pelletier, Neil A. Gershenfeld
  • Publication number: 20190225949
    Abstract: A trans-disciplinary system for cell-free biosynthesis includes a cell-free transcription-translation (TX-TL) tool and modular, generalizable microfluidic architectures. Both components of the system are independently functional and are combinable into a cell-free biosynthesis platform. In the first component, modular plasmid libraries are used to program bacterial cell-free TX-TL systems. Each plasmid holds one gene or operon, and all the genes are controlled by the same promoter, so that the stoichiometry of enzyme synthesis is determined by the stoichiometry of plasmids in the reaction. In the second part, in order to facilitate high throughput mixing and matching of gene units from the modular plasmid libraries, a modular, reconfigurable, flexible, and scalable microfluidic architecture is employed.
    Type: Application
    Filed: September 20, 2018
    Publication date: July 25, 2019
    Applicants: Massachusetts Institute of Technology, Regents of the University of Minnesota
    Inventors: Andreas Mershin, Vincent Noireaux, James Francis Pelletier, Neil A. Gershenfeld
  • Publication number: 20160002611
    Abstract: A trans-disciplinary system for cell-free biosynthesis includes a cell-free transcription-translation (TX-TL) tool and modular, generalizable microfluidic architectures. Both components of the system are independently functional and are combinable into a cell-free biosynthesis platform. In the first component, modular plasmid libraries are used to program bacterial cell-free TX-TL systems. Each plasmid holds one gene or operon, and all the genes are controlled by the same promoter, so that the stoichiometry of enzyme synthesis is determined by the stoichiometry of plasmids in the reaction. In the second part, in order to facilitate high throughput mixing and matching of gene units from the modular plasmid libraries, a modular, reconfigurable, flexible, and scalable microfluidic architecture is employed.
    Type: Application
    Filed: June 9, 2015
    Publication date: January 7, 2016
    Applicants: REGENTS OF THE UNIVERSITY OF MINNESOTA, MASSACHUSETTS INSTITUTE OF TECHNOLOGY
    Inventors: Andreas Mershin, Vincent Noireaux, James Francis Pelletier, Neil A. Gershenfeld