Patents by Inventor Michael Lindenbaum
Michael Lindenbaum 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: 11889850Abstract: A process to remove the glucosinolates of oilseed meals, such as Brassica carinata oilseed meals, is provided. In one embodiment, exogenous myrosinase is used to convert the glucosinolates to volatile isothiocyanate compounds, which can then be removed under conditions of mild heat and negative pressure. In another embodiment, heat and pressure are used to remove glucosinolates from Brassica carinata oilseed. The processed meals may contain less than 80% of their starting levels of glucosinolates and may be suitable for use in various applications, including as animal feeds.Type: GrantFiled: April 29, 2021Date of Patent: February 6, 2024Assignee: AGRISOMA BIOSCIENCES INC.Inventors: Mark Hetherington, Travis Hoffman, Michael Lindenbaum
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Patent number: 11825863Abstract: A process to remove the glucosinolates of oilseed meals, such as Brassica carinata oilseed meals, is provided. In one embodiment, exogenous myrosinase is used to convert the glucosinolates to volatile isothiocyanate compounds, which can then be removed under conditions of mild heat and negative pressure. In another embodiment, heat and pressure are used to remove glucosinolates from Brassica carinata oilseed. The processed meals may contain less than 80% of their starting levels of glucosinolates and may be suitable for use in various applications, including as animal feeds.Type: GrantFiled: November 29, 2016Date of Patent: November 28, 2023Assignees: AGRISOMA BIOSCIENCES INC., NUSEED GLOBAL INNOVATION LTD.Inventors: Mark Hetherington, Travis Hoffman, Michael Lindenbaum
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Publication number: 20220015389Abstract: A process to remove the glucosinolates of oilseed meals, such as Brassica carinata oilseed meals, is provided. In one embodiment, exogenous myrosinase is used to convert the glucosinolates to volatile isothiocyanate compounds, which can then be removed under conditions of mild heat and negative pressure. In another embodiment, heat and pressure are used to remove glucosinolates from Brassica carinata oilseed. The processed meals may contain less than 80% of their starting levels of glucosinolates and may be suitable for use in various applications, including as animal feeds.Type: ApplicationFiled: April 29, 2021Publication date: January 20, 2022Applicant: AGRISOMA BIOSCIENCES INC.Inventors: Mark HETHERINGTON, Travis HOFFMAN, Michael LINDENBAUM
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Publication number: 20200275617Abstract: The present invention relates to agricultural practices for maximizing carbon sequestration, enhanced productivity, sustainable farming and minimizing greenhouse gas emissions. In one embodiment, there is provided a method comprising: planting a Brassica carinata variety as a second crop in rotation with a first crop or to replace fallow; implementing land management practices to reduce the use of fossil fuel inputs and to maximize the capture of atmospheric carbon by the plant material of Brassica carinata; harvesting of the Brassica carinata variety to obtain the grain; and returning about 70% to about 90% of all plant material from the Brassica carinata variety aside from the grain to the soil. As a result, the overall greenhouse gas emissions associated with agriculture are reduced. In some embodiments, the method further comprises producing grain for use in the production of a plant-based feedstock for producing low carbon intensity fuels; for adding carbon in soil; and/or acquiring a carbon credit.Type: ApplicationFiled: September 10, 2018Publication date: September 3, 2020Applicant: NUSEED GLOBAL INNOVATION LTD.Inventors: Steven FABIJANSKI, Michael LINDENBAUM, Mejda BENALI
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Production of modified fatty acids in plants through rDNA targeted integration of heterologous genes
Patent number: 10081815Abstract: The present invention relates to transgenic plants comprising a plurality of nucleic acids heterologous to said plant, each of said nucleic acid comprising a coding sequence operably linked to one or more regulatory elements for directing expression of said coding sequence in said plant, said nucleic acid being stably integrated at or adjacent to rDNA sequences, or a seed, organ, tissue, part or cell thereof, or a descendant of said plant, seed, organ, tissue, part or cell; methods of producing the transgenic plants; and methods of producing oil using the transgenic plants.Type: GrantFiled: September 2, 2016Date of Patent: September 25, 2018Assignee: Agrisoma Biosciences Inc.Inventors: Steven Fabijanski, Michael Lindenbaum, Ping Fu, Elizabeth-France Marillia -
Publication number: 20180042266Abstract: A process to remove the glucosinolates of oilseed meals, such as Brassica carinata oilseed meals, is provided. In one embodiment, exogenous myrosinase is used to convert the glucosinolates to volatile isothiocyanate compounds, which can then be removed under conditions of mild heat and negative pressure. In another embodiment, heat and pressure are used to remove glucosinolates from Brassica carinata oilseed. The processed meals may contain less than 80% of their starting levels of glucosinolates and may be suitable for use in various applications, including as animal feeds.Type: ApplicationFiled: November 29, 2016Publication date: February 15, 2018Inventors: Mark HETHERINGTON, Travis HOFFMAN, Michael LINDENBAUM
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PRODUCTION OF MODIFIED FATTY ACIDS IN PLANTS THROUGH rDNA TARGETED INTEGRATION OF HETEROLOGOUS GENES
Publication number: 20170051299Abstract: The present invention relates to transgenic plants comprising a plurality of nucleic acids heterologous to said plant, each of said nucleic acid comprising a coding sequence operably linked to one or more regulatory elements for directing expression of said coding sequence in said plant, said nucleic acid being stably integrated at or adjacent to rDNA sequences, or a seed, organ, tissue, part or cell thereof, or a descendant of said plant, seed, organ, tissue, part or cell; methods of producing the transgenic plants; and methods of producing oil using the transgenic plants.Type: ApplicationFiled: September 2, 2016Publication date: February 23, 2017Applicant: Agrisoma Biosciences Inc.Inventors: Steven Fabijanski, Michael Lindenbaum, Ping Fu, Elizabeth-France Marillia -
PRODUCTION OF MODIFIED FATTY ACIDS IN PLANTS THROUGH rDNA TARGETED INTEGRATION OF HETEROLOGOUS GENES
Publication number: 20140171668Abstract: The present invention relates to transgenic plants comprising a plurality of nucleic acids heterologous to said plant, each of said nucleic acid comprising a coding sequence operably linked to one or more regulatory elements for directing expression of said coding sequence in said plant, said nucleic acid being stably integrated at or adjacent to rDNA sequences, or a seed, organ, tissue, part or cell thereof, or a descendant of said plant, seed, organ, tissue, part or cell; methods of producing the transgenic plants; and methods of producing oil using the transgenic plants.Type: ApplicationFiled: September 11, 2013Publication date: June 19, 2014Applicant: AGRISOMA BIOSCIENCES INC.Inventors: Steven Fabijanski, Michael Lindenbaum, Ping Fu, Elizabeth-France Marillia -
Production of modified fatty acids in plants through rDNA targeted integration of heterologous genes
Patent number: 8546645Abstract: The present invention relates to transgenic plants comprising a plurality of nucleic acids heterologous to said plant, each of said nucleic acid comprising a coding sequence operably linked to one or more regulatory elements for directing expression of said coding sequence in said plant, said nucleic acid being stably integrated at or adjacent to rDNA sequences, or a seed, organ, tissue, part or cell thereof, or a descendant of said plant, seed, organ, tissue, part or cell; methods of producing the transgenic plants; and methods of producing oil using the transgenic plants.Type: GrantFiled: September 30, 2009Date of Patent: October 1, 2013Assignee: Agrisoma Biosciences Inc.Inventors: Steven Fabijanski, Michael Lindenbaum, Ping Fu, Elizabeth-France Marillia -
Publication number: 20120064578Abstract: Artificial chromosomes, including ACes, that have been engineered to contain available sites for site-specific, recombination-directed integration of DNA of interest are provided. These artificial chromosomes provide tractable, efficient and rational engineering of the chromosome for a variety of applications.Type: ApplicationFiled: January 6, 2011Publication date: March 15, 2012Inventors: EDWARD PERKINS, CARL PEREZ, MICHAEL LINDENBAUM, AMY GREENE, JOSEPHINE LEUNG, ELENA FLEMING, SANDRA STEWART, JOAN SHELLARD
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Patent number: 8027513Abstract: System and method for visually tracking a target object silhouette in a plurality of video frames under very general conditions. The tracker does not make any assumption about the object or the scene. The tracker works by approximating, in each frame, a PDF (probability distribution function) of the target's bitmap and then estimating the maximum a posteriori bitmap. The PDF is marginalized over all possible motions per pixel, thus avoiding the stage in which optical flow is determined. This is an advantage over other general-context trackers that do not use the motion cue at all or rely on the error-prone calculation of optical flow. Using a Gibbs distribution with a first order neighborhood system yields a bitmap PDF whose maximization may be transformed into that of a quadratic pseudo-Boolean function, the maximum of which is approximated via a reduction to a maximum-flow problem.Type: GrantFiled: March 23, 2007Date of Patent: September 27, 2011Assignee: Technion Research and Development Foundation Ltd.Inventors: Ido Leichter, Michael Lindenbaum, Ehud Rivlin
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Publication number: 20100186117Abstract: The present invention relates to transgenic plants comprising a plurality of nucleic acids heterologous to said plant, each of said nucleic acid comprising a coding sequence operably linked to one or more regulatory elements for directing expression of said coding sequence in said plant, said nucleic acid being stably integrated at or adjacent to rDNA sequences, or a seed, organ, tissue, part or cell thereof, or a descendant of said plant, seed, organ, tissue, part or cell; methods of producing the transgenic plants; and methods of producing oil using the transgenic plants.Type: ApplicationFiled: September 30, 2009Publication date: July 22, 2010Applicant: AGRISOMA BIOSCIENCES INC.Inventors: Steven Fabijanski, Michael Lindenbaum, Ping Fu, Elizabeth-France Marillia
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Publication number: 20100184128Abstract: The present invention relates to transgenic plant cell cultures comprising transgenic plant cells comprising a plurality of nucleic acids heterologous to said plant, each of said nucleic acids comprising a coding sequence encoding a pharmaceutical product of interest operably linked to one or more regulatory elements for directing expression of said coding sequence in said plant cell, said nucleic acids being stably integrated at or adjacent to native rDNA of said plant cell; methods of producing the transgenic plant cell culture; and methods of producing a pharmaceutical product of interest using the transgenic plant cell culture.Type: ApplicationFiled: September 30, 2009Publication date: July 22, 2010Applicant: DOW AGROSCIENCES LLCInventors: William M. Ainley, Steven R. Webb, Michael Lindenbaum, Steven Fabijanski, Ping Fu, Elizabeth-France Marillia
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Patent number: 7521240Abstract: Artificial chromosomes, including ACes, that have been engineered to contain available sites for site-specific, recombination-directed integration of DNA of interest are provided. These artificial chromosomes permit tractable, efficient, rational engineering of the chromosome for a variety of applications.Type: GrantFiled: December 6, 2004Date of Patent: April 21, 2009Assignee: SmithKline Beecham CorporationInventors: Edward Perkins, Carl Perez, Michael Lindenbaum, Amy Greene, Josephine Leung, Elena Fleming, Sandra Stewart
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Publication number: 20080232643Abstract: System and method for visually tracking a target object silhouette in a plurality of video frames under very general conditions. The tracker does not make any assumption about the object or the scene. The tracker works by approximating, in each frame, a PDF (probability distribution function) of the target's bitmap and then estimating the maximum a posteriori bitmap. The PDF is marginalized over all possible motions per pixel, thus avoiding the stage in which optical flow is determined. This is an advantage over other general-context trackers that do not use the motion cue at all or rely on the error-prone calculation of optical flow. Using a Gibbs distribution with a first order neighborhood system yields a bitmap PDF whose maximization may be transformed into that of a quadratic pseudo-Boolean function, the maximum of which is approximated via a reduction to a maximum-flow problem.Type: ApplicationFiled: March 23, 2007Publication date: September 25, 2008Applicant: Technion Research & Development Foundation Ltd.Inventors: Ido Leichter, Michael Lindenbaum, Ehud Rivlin
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Publication number: 20070118337Abstract: A method for creating a three dimensional rendering of an architectural structure includes the measuring of spans of the structure using a laser measuring device which is communicatively coupled to a logic device capable of executing instruction embodied in architectural rendering software. The measurement data for the spans is transmitted directly into at least one structural measurement fields associated with the architectural rendering software. A three dimensional rendering of the architectural structure is then displayed by the architectural rendering software using the mapped measurement data.Type: ApplicationFiled: January 19, 2007Publication date: May 24, 2007Inventor: Michael Lindenbaum
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Publication number: 20060246586Abstract: Artificial chromosomes, including ACes, that have been engineered to contain available sites for site-specific, recombination-directed integration of DNA of interest are provided. These artificial chromosomes provide tractable, efficient and rational engineering of the chromosome for a variety of applications.Type: ApplicationFiled: June 29, 2006Publication date: November 2, 2006Inventors: Edward Perkins, Carl Perez, Michael Lindenbaum, Amy Greene, Josephine Leung, Elena Fleming, Sandra Stewart, Joan Shellard
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Publication number: 20060024820Abstract: Artificial chromosomes, including ACes, that have been engineered to contain available sites for site-specific, recombination-directed integration of DNA of interest are provided. These artificial chromosomes permit tractable, efficient, rational engineering of the chromosome for a variety of applications.Type: ApplicationFiled: March 15, 2005Publication date: February 2, 2006Inventors: Edward Perkins, Carl Perez, Michael Lindenbaum, Amy Greene
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Publication number: 20050181506Abstract: Artificial chromosomes, including ACes, that have been engineered to contain available sites for site-specific, recombination-directed integration of DNA of interest are provided. These artificial chromosomes permit tractable, efficient, rational engineering of the chromosome for a variety of applications.Type: ApplicationFiled: December 6, 2004Publication date: August 18, 2005Inventors: Edward Perkins, Carl Perez, Michael Lindenbaum, Amy Greene, Josephine Leung, Elena Fleming, Sandra Stewart, Joan Shellard
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Publication number: 20050091007Abstract: In accordance with the present invention, an apparatus and method for creating a model, including the third dimension (3D), in a CAD program directly from a laser or sonar measuring device. As the measurements of an architectural structure are taken and as numeric codes are entered into the keypad of the laser or sonar measuring device, the invention receives the data on a laptop, PC, or other computing device, interprets the data, and consequently engages commands in the CAD program to create a 3D file reflecting the architectural space being measured by the user.Type: ApplicationFiled: October 22, 2003Publication date: April 28, 2005Inventor: Michael Lindenbaum