Patents by Inventor Andrew H. Michalow
Andrew H. Michalow 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: 20220087269Abstract: Disclosed herein are methods of increasing, enhancing, or accelerating root nodulation in a plant, accelerating growth of nitrogen fixing bacteria in nodules of a plant, increasing protein content in a plant, increasing yield of a plant, improving water retention of a plant, or reducing water use of a plant, the method comprising identifying a plant in need of root nodulation, and applying to the plant a composition comprising a protein component comprising yeast stress proteins resulting from subjecting a mixture obtained from the yeast fermentation to stress.Type: ApplicationFiled: December 3, 2021Publication date: March 24, 2022Applicant: Advanced BioCatalytics CorporationInventors: Andrew H. Michalow, Carl W. Podella, John W. Baldridge, Michael G. Goldfeld
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Patent number: 11241465Abstract: The present invention relates to compositions of therapeutic yeast extracts for treatment of inflammatory conditions, methods of production of those extracts and methods of treating inflammatory skin/tissue afflictions.Type: GrantFiled: March 19, 2018Date of Patent: February 8, 2022Assignee: ES BIOSOLUTIONS, INC.Inventors: Andrew H. Michalow, Michael G. Goldfeld, John W. Baldridge, Alexander E. Michalow
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Patent number: 11202450Abstract: Disclosed herein are methods of increasing, enhancing, or accelerating root nodulation in a plant, accelerating growth of nitrogen fixing bacteria in nodules of a plant, increasing protein content in a plant, increasing yield of a plant, improving water retention of a plant, or reducing water use of a plant, the method comprising identifying a plant in need of root nodulation, and applying to the plant a composition comprising a protein component comprising yeast stress proteins resulting from subjecting a mixture obtained from the yeast fermentation to stress.Type: GrantFiled: February 17, 2020Date of Patent: December 21, 2021Assignee: ADVANCED BIOCATALYTICS CORPORATIONInventors: Andrew H. Michalow, Carl W. Podella, John W. Baldridge, Michael G. Goldfeld
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Publication number: 20200253217Abstract: Disclosed herein are methods of increasing, enhancing, or accelerating root nodulation in a plant, accelerating growth of nitrogen fixing bacteria in nodules of a plant, increasing protein content in a plant, increasing yield of a plant, improving water retention of a plant, or reducing water use of a plant, the method comprising identifying a plant in need of root nodulation, and applying to the plant a composition comprising a protein component comprising yeast stress proteins resulting from subjecting a mixture obtained from the yeast fermentation to stress.Type: ApplicationFiled: February 17, 2020Publication date: August 13, 2020Applicant: ADVANCED BIOCATALYTICS CORPORATIONInventors: Andrew H. Michalow, Carl W. Podella, John W. Baldridge, Michael G. Goldfeld
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Publication number: 20190320660Abstract: Disclosed herein are methods of accelerating root growth in a plant, the method comprising applying to the plant root a composition comprising a) a mixture of proteins and polypeptides, and b) a surfactant, whereby root growth is accelerated as compared to an untreated plant. Also disclosed herein are methods of improving the foliar uptake of a biologically active compound by a plant, the method comprising applying to the plant foliage a composition comprising a) a mixture of proteins and polypeptides, and b) a surfactant, whereby root growth is accelerated as compared to an untreated plant.Type: ApplicationFiled: July 2, 2019Publication date: October 24, 2019Applicant: ADVANCED BIOCATALYTICS CORPORATIONInventors: Andrew H. MICHALOW, Carl W. PODELLA, John W. BALDRIDGE, Michael G. GOLDFELD
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Publication number: 20180264057Abstract: The present invention relates to compositions of therapeutic yeast extracts for treatment of inflammatory conditions, methods of production of those extracts and methods of treating inflammatory skin/tissue afflictions.Type: ApplicationFiled: March 19, 2018Publication date: September 20, 2018Applicant: ES BIOSOLUTIONS, INC.Inventors: Andrew H. Michalow, Michael G. Goldfeld, John W. Baldridge, Alexander E. Michalow
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Publication number: 20180084787Abstract: Disclosed herein are methods of increasing, enhancing, or accelerating root nodulation in a plant, accelerating growth of nitrogen fixing bacteria in nodules of a plant, increasing protein content in a plant, increasing yield of a plant, improving water retention of a plant, or reducing water use of a plant, the method comprising identifying a plant in need of root nodulation, and applying to the plant a composition comprising a protein component comprising yeast stress proteins resulting from subjecting a mixture obtained from the yeast fermentation to stress.Type: ApplicationFiled: December 4, 2017Publication date: March 29, 2018Applicant: ADVANCED BIOCATALYTICS CORPORATIONInventors: Carl W. Podella, John W. Baldridge, Andrew H. Michalow, Michael G. Goldfeld
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Publication number: 20170156343Abstract: Disclosed herein are methods of accelerating root growth in a plant, the method comprising applying to the plant root a composition comprising a) a mixture of proteins and polypeptides, and b) a surfactant, whereby root growth is accelerated as compared to an untreated plant. Also disclosed herein are methods of improving the foliar uptake of a biologically active compound by a plant, the method comprising applying to the plant foliage a composition comprising a) a mixture of proteins and polypeptides, and b) a surfactant, whereby root growth is accelerated as compared to an untreated plant.Type: ApplicationFiled: December 15, 2016Publication date: June 8, 2017Inventors: Andrew H. MICHALOW, Carl W. PODELLA, John W. BALDRIDGE, Michael G. GOLDFELD
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Publication number: 20150267151Abstract: Disclosed herein are compositions containing enzymes, particularly acting at the interface between two immiscible phases where the rate of enzymatic activity is increased by addition of a blend of surfactant(s) and a mixture derived from yeast fermentation, that contain non-enzymatic exo-proteins released by yeast in response to a non-lethal stress. The enzymes include those that work at the interface between an aqueous solution and a water immiscible phase, liquid or solid, such as oil, fat, cellulose, lignin, etc. including, but not limited to the following or combinations thereof: lipases, polysaccharase, lignase, cellulase and the like, in which the substrate of an enzymatic reaction forms a phase, segregated from the aqueous solution in which the enzymes are typically operating.Type: ApplicationFiled: June 8, 2015Publication date: September 24, 2015Inventors: Michael G. GOLDFELD, Andrew H. MICHALOW, Carl W. PODELLA, John W. BALDRIDGE
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Publication number: 20150182586Abstract: Disclosed herein are teat dip compositions, comprising a) a fermentation derived mixture that include low molecular weight protein component; b) an emollient; c) one or more surfactants; and d) an anti-microbial agent. The disclosed methods provide for preventing milk contamination and associated bacterial infections of the teat in dairy animals, the method comprises applying to the teat of the dairy animal a composition, comprising: a) a fermentation derived mixture that include low molecular weight protein component; b) an emollient; c) one or more surfactants; and d) an anti-microbial agent, wherein the application is effective in treating mastitis of the teat, and wherein the composition is gentle on the teat tissue.Type: ApplicationFiled: December 31, 2014Publication date: July 2, 2015Inventors: John W. BALDRIDGE, Carl W. PODELLA, Andrew H. MICHALOW, Michael G. GOLDFELD, Kevin JOHANSEN, Andrew D. MALEC
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Patent number: 9051535Abstract: Disclosed herein are compositions containing enzymes, particularly acting at the interface between two immiscible phases where the rate of enzymatic activity is increased by addition of a blend of surfactant(s) and a mixture derived from yeast fermentation, that contain non-enzymatic exo-proteins released by yeast in response to a non-lethal stress. The enzymes include those that work at the interface between an aqueous solution and a water immiscible phase, liquid or solid, such as oil, fat, cellulose, lignin, etc. including, but not limited to the following or combinations thereof: lipases, polysaccharase, lignase, cellulase and the like, in which the substrate of an enzymatic reaction forms a phase, segregated from the aqueous solution in which the enzymes are typically operating.Type: GrantFiled: March 26, 2013Date of Patent: June 9, 2015Assignee: ADVANCED BIOCATALYTICS CORPORATIONInventors: Michael G. Goldfeld, Andrew H. Michalow, Carl W. Podella, John W. Baldridge
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Publication number: 20150141311Abstract: Disclosed herein are compositions comprising a solubilizing agent for the removal of burnt-on, cooked-on, baked-on, dried-on and charred organic food and oil residues from surfaces comprising alcohol, a coupling agent, water, an anti-deposition agent, a pH buffer and a surfactant system that preferably includes a fermentation supernatant, where the supernatant contains essentially stress proteins. Further enclosed are methods of cleaning for ovens, industrial cooking equipment and the like.Type: ApplicationFiled: October 27, 2014Publication date: May 21, 2015Inventors: Carl W. PODELLA, Michael G. GOLDFELD, Joseph F. SARRO, Andrew H. MICHALOW
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Publication number: 20150045220Abstract: Disclosed herein are methods of accelerating root growth in a plant, the method comprising applying to the plant root a composition comprising a) a mixture of proteins and polypeptides, and b) a surfactant, whereby root growth is accelerated as compared to an untreated plant. Also disclosed herein are methods of improving the foliar uptake of a biologically active compound by a plant, the method comprising applying to the plant foliage a composition comprising a) a mixture of proteins and polypeptides, and b) a surfactant, whereby root growth is accelerated as compared to an untreated plant.Type: ApplicationFiled: October 27, 2014Publication date: February 12, 2015Inventors: Andrew H. MICHALOW, Carl W. PODELLA, John W. BALDRIDGE, Michael G. GOLDFELD
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Patent number: 8871682Abstract: Disclosed herein are methods of accelerating root growth in a plant, the method comprising applying to the plant root a composition comprising a) a mixture of proteins and polypeptides, and b) a surfactant, whereby root growth is accelerated as compared to an untreated plant. Also disclosed herein are methods of improving the foliar uptake of a biologically active compound by a plant, the method comprising applying to the plant foliage a composition comprising a) a mixture of proteins and polypeptides, and b) a surfactant, whereby root growth is accelerated as compared to an untreated plant.Type: GrantFiled: December 11, 2009Date of Patent: October 28, 2014Assignee: Advanced Biocatalytics CorporationInventors: Carl W. Podella, Jack W. Baldridge, Andrew H. Michalow, Michael G. Goldfeld
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Patent number: 8871698Abstract: Disclosed herein are compositions comprising a solubilizing agent for the removal of burnt-on, cooked-on, baked-on, dried-on and charred organic food and oil residues from surfaces comprising alcohol, a coupling agent, water, an anti-deposition agent, a pH buffer and a surfactant system that preferably includes a fermentation supernatant, where the supernatant contains essentially stress proteins. Further enclosed are methods of cleaning for ovens, industrial cooking equipment and the like.Type: GrantFiled: February 9, 2010Date of Patent: October 28, 2014Assignee: Advanced Biocatalytics CorporationInventors: Carl W. Podella, Michael G. Goldfeld, Joseph F. Sarro, Andrew H. Michalow
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Publication number: 20130252287Abstract: Disclosed herein are compositions containing enzymes, particularly acting at the interface between two immiscible phases where the rate of enzymatic activity is increased by addition of a blend of surfactant(s) and a mixture derived from yeast fermentation, that contain non-enzymatic exo-proteins released by yeast in response to a non-lethal stress. The enzymes include those that work at the interface between an aqueous solution and a water immiscible phase, liquid or solid, such as oil, fat, cellulose, lignin, etc. including, but not limited to the following or combinations thereof: lipases, polysaccharase, lignase, cellulase and the like, in which the substrate of an enzymatic reaction forms a phase, segregated from the aqueous solution in which the enzymes are typically operating.Type: ApplicationFiled: March 26, 2013Publication date: September 26, 2013Applicant: ADVANCED BIOCATALYTICS CORP.Inventors: Michael G. GOLDFELD, Andrew H. MICHALOW, Carl W. PODELLA, John W. BALDRIDGE
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Publication number: 20130251660Abstract: Disclosed are skin wetting and penetrating compositions and methods, where the compositions comprise the following, or combinations thereof: a surfactant, yeast exo-proteins, a stabilizer, and optionally an oil, humectant, or dermatological active agent.Type: ApplicationFiled: March 26, 2013Publication date: September 26, 2013Applicant: ADVANCED BIOCATALYTICS CORP.Inventors: Michael G. GOLDFELD, Andrew H. MICHALOW, Carl W. PODELLA, John W. BALDRIDGE
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Publication number: 20120172219Abstract: Disclosed herein are methods of increasing, enhancing, or accelerating root nodulation in a plant, accelerating growth of nitrogen fixing bacteria in nodules of a plant, increasing protein content in a plant, increasing yield of a plant, improving water retention of a plant, or reducing water use of a plant, the method comprising identifying a plant in need of root nodulation, and applying to the plant a composition comprising a protein component comprising yeast stress proteins resulting from subjecting a mixture obtained from the yeast fermentation to stress.Type: ApplicationFiled: July 7, 2011Publication date: July 5, 2012Applicant: ADVANCED BIOCATALYTICS CORPORATIONInventors: Carl W. Podella, John W. Baldridge, Andrew H. Michalow, Michael G. Goldfeld
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Publication number: 20120142530Abstract: Disclosed herein are methods of accelerating root growth in a plant, the method comprising applying to the plant root a composition comprising a) a mixture of proteins and polypeptides, and b) a surfactant, whereby root growth is accelerated as compared to an untreated plant. Also disclosed herein are methods of improving the foliar uptake of a biologically active compound by a plant, the method comprising applying to the plant foliage a composition comprising a) a mixture of proteins and polypeptides, and b) a surfactant, whereby root growth is accelerated as compared to an untreated plant.Type: ApplicationFiled: December 11, 2009Publication date: June 7, 2012Applicant: ADVANCED BIOCATALYTICS CORPORATIONInventors: Andrew H. Michalow, Carl W. Podella, John W. Baldridge, Michael G. Goldfeld
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Publication number: 20120135909Abstract: Disclosed herein are compositions comprising a solubilizing agent for the removal of burnt-on, cooked-on, baked-on, dried-on and charred organic food and oil residues from surfaces comprising alcohol, a coupling agent, water, an anti-deposition agent, a pH buffer and a surfactant system that preferably includes a fermentation supernatant, where the supernatant contains essentially stress proteins. Further enclosed are methods of cleaning for ovens, industrial cooking equipment and the like.Type: ApplicationFiled: February 9, 2010Publication date: May 31, 2012Applicant: ADVANCED BIOCATALYTICS CORPORATIONInventors: Carl W. Podella, Michael G. Goldfeld, Joseph F. Sarro, Andrew H. Michalow