Patents by Inventor Shaun Bailey
Shaun Bailey 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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Publication number: 20240052001Abstract: Disclosed herein are mutant photosynthetic microorgnaisms having an attenuated SGI1 gene. The mutants have reduced chlorophyll and increased productivity with respect to wild type cells. Also disclosed are methods of using such mutants for producing biomass or bioproducts, and methods of screening for such mutants.Type: ApplicationFiled: September 27, 2023Publication date: February 15, 2024Inventors: Eric R. Moellering, Nicholas Bauman, Randor R. Radakovits, Roberto Spreafico, Fedor Kuzminov, Imad Ajjawi, Saheed Imam, Andrew Schultz, Kathleen Kwok, Moena Aqui, Jennifer Nominati, John Verruto, Shaun Bailey
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Patent number: 11787843Abstract: Disclosed herein are mutant photosynthetic microorganisms having an attenuated SGI1 gene. The mutants have reduced chlorophyll and increased productivity with respect to wild type cells. Also disclosed are methods of using such mutants for producing biomass or bioproducts, and methods of screening for such mutants.Type: GrantFiled: February 17, 2021Date of Patent: October 17, 2023Assignee: Viridos, Inc.Inventors: Eric R. Moellering, Nicholas Bauman, Randor R. Radakovits, Roberto Spreafico, Fedor Kuzminov, Imad Ajjawi, Saheed Imam, Andrew Schultz, Kathleen Kwok, Moena Aqui, Jennifer Nominati, John Verruto, Shaun Bailey
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Publication number: 20210188924Abstract: Disclosed herein are mutant photosynthetic microorganisms having an attenuated SGI1 gene. The mutants have reduced chlorophyll and increased productivity with respect to wild type cells. Also disclosed are methods of using such mutants for producing biomass or bioproducts, and methods of screening for such mutants.Type: ApplicationFiled: February 17, 2021Publication date: June 24, 2021Inventors: Eric R. Moellering, Nicholas Bauman, Randor R. Radakovits, Roberto Spreafico, Fedor Kuzminov, Imad Ajjawi, Saheed Imam, Andrew Schultz, Kathleen Kwok, Moena Aqui, Jennifer Nominati, John Verruto, Shaun Bailey
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Patent number: 10968259Abstract: Disclosed herein are mutant photosynthetic microorgnaisms having an attenuated SGI1 gene. The mutants have reduced chlorophyll and increased productivity with respect to wild type cells. Also disclosed are methods of using such mutants for producing biomass or bioproducts, and methods of screening for such mutants.Type: GrantFiled: December 29, 2017Date of Patent: April 6, 2021Assignee: Synthetic Genomics, Inc.Inventors: Eric R. Moellering, Nicholas Bauman, Randor R. Radakovits, Roberto Spreafico, Fedor Kuzminov, Imad Ajjawi, Saheed Imam, Andrew Schultz, Kathleen Kwok, Moena Aqui, Jennifer Nominati, John Verruto, Shaun Bailey
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Patent number: 10174087Abstract: Mutant photosynthetic algae having increased biomass productivity are provided. The mutants have attenuated expression of violaxanthin chlorophyll a binding proteins (VCP) or fucoxanthin chlorophyll a/c binding proteins (FCP), reduced chlorophyll, higher apparent ETR(II), little to no reduction in Pmax per cell, and decreased NPQ over a wide range of light intensities. Provided herein are constructs for attenuating or disrupting VCP or FCP genes. Also provided are methods of culturing VCP or FCP mutants for the production of biomass or other products.Type: GrantFiled: October 20, 2016Date of Patent: January 8, 2019Assignee: Synthetic Genomics, Inc.Inventors: Jonathan E. Meuser, Christen G. DiPetrillo, Jay McCarren, Shaun Bailey
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Publication number: 20180186842Abstract: Disclosed herein are mutant photosynthetic microorgnaisms having an attenuated SGI1 gene. The mutants have reduced chlorophyll and increased productivity with respect to wild type cells. Also disclosed are methods of using such mutants for producing biomass or bioproducts, and methods of screening for such mutants.Type: ApplicationFiled: December 29, 2017Publication date: July 5, 2018Inventors: Eric R. Moellering, Nicholas Bauman, Randor R. Radakovits, Roberto Spreafico, Fedor Kuzminov, Imad Ajjawi, Saheed Imam, Andrew Schultz, Kathleen Kwok, Moena Aqui, Jennifer Nominati, John Verruto, Shaun Bailey
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Patent number: 9982272Abstract: Mutant photosynthetic microorganisms having reduced chlorophyll and increased photosynthetic efficiency are provided. The mutants have a locked in high light-acclimated phenotype, in which many of the photosynthetic parameters characteristic of high light acclimated wild type cells are found in the LIHLA mutants when acclimated to low light, such as reduced chlorophyll, reduced NPQ, higher qP, higher Ek, higher Pmax per unit chlorophyll with little to no reduction in Pmax per cell, and higher rates of electron transport through photosystem II over a wide range of light intensities. Provided herein are constructs for attenuating or disrupting genes are provided for generating mutants having the LIHLA phenotype. Also provided are methods of culturing LIHLA mutants for the production of biomass or other products.Type: GrantFiled: December 6, 2013Date of Patent: May 29, 2018Assignee: Synthetic Genomics, Inc.Inventors: Shaun Bailey, Jay McCarren, Soyan Leung Lieberman, Jonathan E. Meuser, Anna E. Romano, Daniel Yee, Leah Soriaga, Robert C. Brown, Ariel S. Schwartz
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Publication number: 20170114107Abstract: Mutant photosynthetic algae having increased biomass productivity are provided. The mutants have attenuated expression of violaxanthin chlorophyll a binding proteins (VCP) or fucoxanthin chlorophyll a/c binding proteins (FCP), reduced chlorophyll, higher apparent ETR(II), little to no reduction in Pmax per cell, and decreased NPQ over a wide range of light intensities. Provided herein are constructs for attenuating or disrupting VCP or FCP genes. Also provided are methods of culturing VCP or FCP mutants for the production of biomass or other products.Type: ApplicationFiled: October 20, 2016Publication date: April 27, 2017Inventors: Jonathan E. Meuser, Christen G. DiPetrillo, Jay McCarren, Shaun Bailey
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Patent number: 9187778Abstract: Various aspects provide for genetically modifying photosynthetic cells. In some cases, an integrated light harvesting efficiency of photosynthetic cells may be increased by reducing the amount of incident light that is absorbed but not used for photosynthesis. In some cases, an increased transparency may be associated with an increased light harvesting efficiency when absorption due to non-photosynthetic processes is reduced. A reduced capacity of various light-harvesting antenna apparatus may increase transparency. In some cases, a capacity of an organism to adapt to varying light levels may be reduced, and in certain cases, a modified organism may have a reduced ability to acclimate to a low light irradiance.Type: GrantFiled: February 11, 2010Date of Patent: November 17, 2015Assignee: Aurora Algae, Inc.Inventors: Shaun Bailey, Yuen Yee Tam, Bertrand Vick
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Publication number: 20140220638Abstract: Mutant photosynthetic microorganisms having reduced chlorophyll and increased photosynthetic efficiency are provided. The mutants have a locked in high light-acclimated phenotype, in which many of the photosynthetic parameters characteristic of high light acclimated wild type cells are found in the LIHLA mutants when acclimated to low light, such as reduced chlorophyll, reduced NPQ, higher qP, higher Ek, higher Pmax per unit chlorophyll with little to no reduction in Pmax per cell, and higher rates of electron transport through photosystem II over a wide range of light intensities. Provided herein are constructs for attenuating or disrupting genes are provided for generating mutants having the LIHLA phenotype. Also provided are methods of culturing LIHLA mutants for the production of biomass or other products.Type: ApplicationFiled: December 6, 2013Publication date: August 7, 2014Applicant: Synthetic Genomics, Inc.Inventors: Shaun Bailey, Jay McCarren, Soyan Leung Lieberman, Jonathan E. Meuser, Anna E. Romano, Daniel Yee, Leah Soriaga, Robert C. Brown, Joseph C. Weissman, Roger C. Prince, Robert D. Nielsen, Ariel S. Schwartz
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Patent number: 8709765Abstract: Exemplary methods for increasing TAG production in an algal cell during imbalanced growth conditions are provided. Some methods comprise knocking out an AOX gene, wherein the AOX gene produces an amino acid sequence having substantial similarity to the amino acid sequence of SEQ. ID. NO. 2. In further methods, the algal cell may be of genus Nannochloropsis. The AOX gene may be replaced by a construct having a nucleotide sequence having substantial similarity to SEQ ID. NOS. 3 through 5 (inclusive), wherein each of the sequences are next to or in close proximity to one another in a linear fashion. In some methods, the AOX gene may be replaced via homologous recombination. As a result, lipid production by the selected recombinant algal cell may be increased over that produced by a wild-type algal cell.Type: GrantFiled: July 20, 2010Date of Patent: April 29, 2014Assignee: Aurora Algae, Inc.Inventors: Shaun Bailey, Bertrand Vick, Jeff Moseley
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Publication number: 20130130909Abstract: Provided herein are exemplary methods for controlling a density of algae growing in an aquatic environment. Some exemplary methods include applying an effective amount of 3-(3,4-dichlorophenyl)-1,1-dimethylurea (DCMU) to the density of algae growing in the aquatic environment, wherein the algae includes genus Nannochloropsis. The algae may also include algae of genus Tetraselmis and/or genus Chlorella. Applying the effective amount may result in an approximate concentration of between 100 nanomolar to 1500 nanomolar DCMU in the aquatic environment. Further, the aquatic environment may include seawater, freshwater, or mixtures thereof.Type: ApplicationFiled: June 7, 2012Publication date: May 23, 2013Inventors: Bertrand Vick, Shaun Bailey
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Patent number: 8133107Abstract: Aspects of the present inventions concern methods and devices for operating a Bingo game. Such aspects include: assigning to each of a first set of real or virtual balls a number selected from a group within a predetermined numerical sequence; assigning a non-numerical designation to only a second set of real or virtual balls within the predetermined numerical sequence, wherein the second set of real or virtual balls is a subset of the first set of real or virtual balls; providing each of one or more players with at least one real or virtual player card having a randomly assigned field of spaces each space of which includes a number within the predetermined numerical sequence given for the first set of real or virtual balls, wherein there are fewer spaces than numbers in the predetermined numerical sequence.Type: GrantFiled: December 4, 2007Date of Patent: March 13, 2012Assignee: NP IP Holdings LLCInventors: Shaun Bailey, Weldon L. Russell
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Publication number: 20110197306Abstract: Various aspects provide for genetically modifying photosynthetic cells. In some cases, an integrated light harvesting efficiency of photosynthetic cells may be increased by reducing the amount of incident light that is absorbed but not used for photosynthesis. In some cases, an increased transparency may be associated with an increased light harvesting efficiency when absorption due to non-photosynthetic processes is reduced. A reduced capacity of various light-harvesting antenna apparatus may increase transparency. In some cases, a capacity of an organism to adapt to varying light levels may be reduced, and in certain cases, a modified organism may have a reduced ability to acclimate to a low light irradiance.Type: ApplicationFiled: February 11, 2010Publication date: August 11, 2011Inventors: Shaun Bailey, Yuen Yee Tam, Bertrand Vick
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Publication number: 20110059495Abstract: Exemplary methods for increasing TAG production in an algal cell during imbalanced growth conditions are provided. Some methods comprise knocking out an AOX gene, wherein the AOX gene produces an amino acid sequence having substantial similarity to the amino acid sequence of SEQ. ID. NO. 2. In further methods, the algal cell may be of genus Nannochloropsis. The AOX gene may be replaced by a construct having a nucleotide sequence having substantial similarity to SEQ ID. NOS. 3 through 5 (inclusive), wherein each of the sequences are next to or in close proximity to one another in a linear fashion. In some methods, the AOX gene may be replaced via homologous recombination. As a result, lipid production by the selected recombinant algal cell may be increased over that produced by a wild-type algal cell.Type: ApplicationFiled: July 20, 2010Publication date: March 10, 2011Inventors: SHAUN BAILEY, BERTRAND VICK, JEFF MOSELEY
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Publication number: 20100323387Abstract: Various aspects provide for exposing a substance to light. Certain aspects include exposing a suspension of photosynthetic organisms to sunlight, and may include optimizing exposure to improve photosynthesis conditions. Certain embodiments include controlling an opacity or opacity profile of a suspension of algae and/or diatoms. Optimizing exposure may include maximizing growth rate, maximizing photosynthesis efficiency, maximizing lipid production, minimizing damage, minimizing predator growth, maximizing a capacity to grow in suboptimal media (e.g., polluted water, brackish water, or water having a pH outside of a preferable range), minimizing requirements for nutrients, and other features.Type: ApplicationFiled: June 19, 2009Publication date: December 23, 2010Inventors: Shaun Bailey, Bertrand Vick
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Publication number: 20090143129Abstract: Aspects of the present inventions concern methods and devices for operating a Bingo game.Type: ApplicationFiled: December 4, 2007Publication date: June 4, 2009Inventors: Shaun Bailey, Weldon L. Russell