Patent application number | Description | Published |
20080311040 | METHODS AND COMPOSITIONS FOR IMPROVED THERAPEUTIC EFFECTS WITH siRNA - The present invention relates to chemically modified, linked double-stranded (ds)RNA compositions comprising two or more double-stranded (ds) oligoribonucleotides linked by at least one linking moiety and methods of formulating and delivering such compositions to modulate gene expression through target-specific RNA co-interference (RNAco-i). The compositions of the invention may optionally comprise a conjugation or a complex with one or more small molecule drugs, protein therapeutics, or other dsRNA molecules. The present invention is directed at the methods of production for, methods of use of, and therapeutic utilities for RNAi co-interference therapy utilizing the compositions of the invention. | 12-18-2008 |
20090191599 | ENGINEERED LIGHT-HARVESTING ORGANISMS - The present disclosure identifies pathways and mechanisms to confer photoautotrophic properties to a heterotrophic organism. The resultant engineered cell or organism will uniquely enable efficient conversion of carbon dioxide and light into biomass and carbon-based products of interest. | 07-30-2009 |
20090203070 | HYPERPHOTOSYNTHETIC ORGANISMS - The present disclosure identifies pathways and mechanisms to confer improved industrial fitness on engineered organisms. It also discloses engineered organisms having improved industrial fitness. Synthetic biologic engineering modules are disclosed that provide for light capture, carbon dioxide fixation, NADH production, NADPH production, thermotolerance, pH tolerance, flue gas tolerance, salt tolerance, nutrient independence and near infrared absorbance. The disclosed engineered organisms can include one or more of these modules. Also provided are methods of using the engineered organism to produce carbon-based products of interest, biomass or pharmaceutical agents. | 08-13-2009 |
20100330155 | METHODS AND COMPOSITIONS FOR IMPROVED THERAPEUTIC EFFECTS WITH siRNA - The present invention relates to chemically modified, linked double-stranded (ds)RNA compositions comprising two or more double-stranded (ds) oligoribonucleotides linked by at least one linking moiety and methods of formulating and delivering such compositions to modulate gene expression through target-specific RNA co-interference (RNAco-i). The compositions of the invention may optionally comprise a conjugation or a complex with one or more small molecule drugs, protein therapeutics, or other dsRNA molecules. The present invention is directed at the methods of production for, methods of use of, and therapeutic utilities for RNAi co-interference therapy utilizing the compositions of the invention. | 12-30-2010 |
20110111470 | Methods and Compositions for the Recombinant Biosynthesis of Fatty Acids and Esters - The present disclosure identifies methods and compositions for modifying photoautotrophic organisms, such that the organisms efficiently convert carbon dioxide and light into compounds such as esters and fatty acids. In certain embodiments, the compounds produced are secreted into the medium used to culture the organisms. | 05-12-2011 |
20110124073 | Hyperphotosynthetic Organisms - The present disclosure identifies pathways and mechanisms to confer improved industrial fitness on engineered organisms. It also discloses engineered organisms having improved industrial fitness. Synthetic biologic engineering modules are disclosed that provide for light capture, carbon dioxide fixation, NADH production, NADPH production, thermotolerance, pH tolerance, flue gas tolerance, salt tolerance, nutrient independence and near infrared absorbance. The disclosed engineered organisms can include one or more of these modules. Also provided are methods of using the engineered organism to produce carbon-based products of interest, biomass or pharmaceutical agents. | 05-26-2011 |
20120009636 | Methods and Compositions for the Recombinant Biosynthesis of Fatty Acids and Esters - The present disclosure identifies methods and compositions for modifying photoautotrophic organisms, such that the organisms efficiently convert carbon dioxide and light into compounds such as esters and fatty acids. In certain embodiments, the compounds produced are secreted into the medium used to culture the organisms. | 01-12-2012 |
20130143306 | Methods and Compositions for the Recombinant Biosynthesis of Fatty Acids and Esters - The present disclosure identifies methods and compositions for modifying photoautotrophic organisms, such that the organisms efficiently convert carbon dioxide and light into compounds such as esters and fatty acids. In certain embodiments, the compounds produced are secreted into the medium used to culture the organisms. | 06-06-2013 |
20130273613 | Hyperphotosynthetic Organisms - The present disclosure identifies pathways and mechanisms to confer improved industrial fitness on engineered organisms. It also discloses engineered organisms having improved industrial fitness. Synthetic biologic engineering modules are disclosed that provide for light capture, carbon dioxide fixation, NADH production, NADPH production, thermotolerance, pH tolerance, flue gas tolerance, salt tolerance, nutrient independence and near infrared absorbance. The disclosed engineered organisms can include one or more of these modules. Also provided are methods of using the engineered organism to produce carbon-based products of interest, biomass or pharmaceutical agents. | 10-17-2013 |
20130296231 | CHARGED NUTRITIVE PROTEINS AND METHODS - Charged nutritive proteins are provided. In some embodiments the nutritive proteins an aqueous solubility of at least 12.5 g/L at pH 7. In some embodiments the nutritive proteins an aqueous solubility of at least 50 g/L at pH 7. In some embodiments the nutritive proteins an aqueous solubility of at least 100 g/L at pH 7. In some embodiments the nutritive proteins comprise at least one of a level of a) a ratio of branch chain amino acid residues to total amino acid residues present in the nutritive protein equal to or greater than the ratio of branch chain amino acid residues to total amino acid residues present in a benchmark protein; b) a ratio of leucine residues to total amino acid residues present in the nutritive protein equal to or greater than the ratio of leucine residues to total amino acid residues present in a benchmark protein; and c) a ratio of essential amino acid residues to total amino acid residues present in the nutritive protein equal to or greater than the ratio of essential amino acid residues to total amino acid residues present in a benchmark protein. Also provided are nucleic acids encoding the proteins, recombinant microorganisms that make the proteins, methods of making the proteins using recombinant microorganisms, compositions that comprise the proteins, and methods of using the proteins, among other things. | 11-07-2013 |
20140212541 | Charged Nutritive Proteins and Methods - Charged nutritive proteins are provided. In some embodiments the nutritive proteins an aqueous solubility of at least 12.5 g/L at pH 7. In some embodiments the nutritive proteins an aqueous solubility of at least 50 g/L at pH 7. In some embodiments the nutritive proteins an aqueous solubility of at least 100 g/L at pH 7. In some embodiments the nutritive proteins comprise at least one of a level of a) a ratio of branch chain amino acid residues to total amino acid residues present in the nutritive protein equal to or greater than the ratio of branch chain amino acid residues to total amino acid residues present in a benchmark protein; b) a ratio of leucine residues to total amino acid residues present in the nutritive protein equal to or greater than the ratio of leucine residues to total amino acid residues present in a benchmark protein; and c) a ratio of essential amino acid residues to total amino acid residues present in the nutritive protein equal to or greater than the ratio of essential amino acid residues to total amino acid residues present in a benchmark protein. Also provided are nucleic acids encoding the proteins, recombinant microorganisms that make the proteins, methods of making the proteins using recombinant microorganisms, compositions that comprise the proteins, and methods of using the proteins, among other things. | 07-31-2014 |
20140328803 | Compositions and Methods - Disclosed herein are therapeutic compositions containing non-pathogenic, germination-competent bacterial spores, for the prevention, control, and treatment of gastrointestinal diseases, disorders and conditions and for general nutritional health. | 11-06-2014 |
20140342978 | Charged Nutritive Proteins and Methods - Charged nutritive proteins are provided. In some embodiments the nutritive proteins an aqueous solubility of at least 12.5 g/L at pH 7. In some embodiments the nutritive proteins an aqueous solubility of at least 50 g/L at pH 7. In some embodiments the nutritive proteins an aqueous solubility of at least 100 g/L at pH 7. In some embodiments the nutritive proteins comprise at least one of a level of a) a ratio of branch chain amino acid residues to total amino acid residues present in the nutritive protein equal to or greater than the ratio of branch chain amino acid residues to total amino acid residues present in a benchmark protein; b) a ratio of leucine residues to total amino acid residues present in the nutritive protein equal to or greater than the ratio of leucine residues to total amino acid residues present in a benchmark protein; and c) a ratio of essential amino acid residues to total amino acid residues present in the nutritive protein equal to or greater than the ratio of essential amino acid residues to total amino acid residues present in a benchmark protein. Also provided are nucleic acids encoding the proteins, recombinant microorganisms that make the proteins, methods of making the proteins using recombinant microorganisms, compositions that comprise the proteins, and methods of using the proteins, among other things. | 11-20-2014 |
20150011482 | Nutritive Fragments, Proteins and Methods - Nutritive proteins are provided. In some embodiments the nutritive proteins comprise a first polypeptide sequence comprising a fragment of a naturally-occurring nutritive protein. In some embodiments the fragment comprises at least one of a) an enhanced ratio of branch chain amino acid residues to total amino acid residues present in the nutritive protein; b) an enhanced ratio of leucine residues to total amino acid residues present in the nutritive protein; and c) an enhanced ratio of essential amino acid residues to total amino acid residues present in the nutritive protein. In some embodiments, the fragment comprises at least one of a) a ratio of branch chain amino acid residues to total amino acid residues present in the nutritive protein; b) a ratio of leucine residues to total amino acid residues present in the nutritive protein; and c) a ratio of essential amino acid residues to total amino acid residues present in the nutritive protein, that is equal to or greater than the corresponding ratio present in a benchmark protein such as whey, egg or soy protein. Also provided are nucleic acids encoding the proteins, recombinant microorganisms that make the proteins, methods of making the proteins using recombinant microorganisms, compositions that comprise the proteins, and methods of using the proteins, among other things. | 01-08-2015 |
20150057352 | Microorganisms, Compositions, and Methods for Producing Fatty Acids - Methods of producing an unsaturated free fatty acid comprising at least 18 carbon atoms are provided. In some embodiments, the methods comprise culturing an engineered microorganism in a culture medium, wherein the engineered microorganism comprises at least one recombinant enzyme selected from acyl-lipid desaturase delta-9 (EC:1.14.19.1), acyl-lipid desaturase delta-12 (EC:1.14.19.6), acyl-lipid desaturase delta-15 (EC:1.14.19.-), and thioesterase (EC:3.1.2.14). Engineered microorganisms comprising at least one of those recombinant enzymes are also provided. The methods and organisms can be used to produce at least one free fatty acid selected from oleic acid, linoleic acid and α-linolenic acid. | 02-26-2015 |
20150080296 | Nutritive Fragments, Proteins and Methods - Nutritive proteins are provided. In some embodiments the nutritive proteins comprise a protein digestibility corrected amino acid score (PDCAAS) that exceeds a benchmark protein. Also provided are nucleic acids encoding the proteins, recombinant microorganisms that make the proteins, methods of making the proteins using recombinant microorganisms, compositions that comprise the proteins, and methods of using the proteins, among other things. | 03-19-2015 |
20150082691 | Methods and Compositions for the Recombinant Biosynthesis of Fatty Acids and Esters - The present disclosure identifies methods and compositions for modifying photoautotrophic organisms, such that the organisms efficiently convert carbon dioxide and light into compounds such as esters and fatty acids. In certain embodiments, the compounds produced are secreted into the medium used to culture the organisms. | 03-26-2015 |
20150087602 | Nutritive Proteins and Methods - Nutritive proteins are provided. In some embodiments the nutritive proteins comprise at least one of a level of a) a ratio of branch chain amino acid residues to total amino acid residues present in the nutritive protein equal to or greater than the ratio of branch chain amino acid residues to total amino acid residues present in whey protein; b) a ratio of leucine residues to total amino acid residues present in the nutritive protein equal to or greater than the ratio of leucine residues to total amino acid residues present in whey protein; and c) a ratio of essential amino acid residues to total amino acid residues present in the nutritive protein equal to or greater than the ratio of essential amino acid residues to total amino acid residues present in whey protein. Also provided are nucleic acids encoding the proteins, recombinant microorganisms that make the proteins, methods of making the proteins using recombinant microorganisms, compositions that comprise the proteins, and methods of using the proteins, among other things. | 03-26-2015 |