Patent application number | Description | Published |
20100173926 | Methods for Regulating Neurotransmitter Systems by Inducing Counteradaptations - The present invention relates to methods for regulating neurotransmitter systems by inducing a counteradaptation response. According to one embodiment of the invention, a method for regulating a neurotransmitter includes the step of repeatedly administering a ligand for a receptor in the neurotransmitter system, with a ratio of administration half-life to period between administrations of no greater than ½. The methods of the present invention may be used to address a whole host of undesirable mental, neurological and physiological conditions. | 07-08-2010 |
20100234360 | Methods for Regulating Neurotransmitter Systems by Inducing Counteradaptations - The present invention relates to methods for regulating neurotransmitter systems by inducing a counteradaptation response. According to one embodiment of the invention, a method for regulating a neurotransmitter includes the step of repeatedly administering a ligand for a receptor in the neurotransmitter system, with a ratio of administration half-life to period between administrations of no greater than ½. The methods of the present invention may be used to address a whole host of undesirable mental and neurological conditions. | 09-16-2010 |
20120088756 | Methods for Regulating Neurotransmitter Systems by Inducing Counteradaptations - The present invention relates to methods for regulating neurotransmitter systems by inducing a counteradaptation response. According to one embodiment of the invention, a method for regulating a neurotransmitter includes the step of repeatedly administering a ligand for a receptor in the neurotransmitter system, with a ratio of administration half-life to period between administrations of no greater than ½. The methods of the present invention may be used to address a whole host of undesirable mental and neurological conditions. | 04-12-2012 |
20120208751 | Methods for Regulating Neurotransmitter Systems by Inducing Counteradaptations - The present invention relates to methods for regulating neurotransmitter systems by inducing a counteradaptation response. According to one embodiment of the invention, a method for regulating a neurotransmitter includes the step of repeatedly administering a ligand for a receptor in the neurotransmitter system, with a ratio of administration half-life to period between administrations of no greater than 1/2. The methods of the present invention may be used to address a whole host of undesirable mental, neurological and physiological conditions. | 08-16-2012 |
Patent application number | Description | Published |
20120135909 | CLEANING COMPOSITIONS AND METHODS FOR BURNT-ON FOOD AND OIL RESIDUES - 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. | 05-31-2012 |
20130251660 | SKIN WETTING COMPOSITIONS AND METHODS - 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. | 09-26-2013 |
20130252287 | PROTEIN-ENHANCED SURFACTANTS FOR ENZYME ACTIVATION - 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. Disclosed herein are methods for improving a washing solution with the use of these compositions, where the enzyme-protein-surfactant solution can be used in such applications as: laundry, spot remover, pre-laundry, dishes, hard surface cleaning, wastewater treatment, cellulose breakdown as in ethanol production, lignin utilization, environmental remediation, industrial cleaning, and agricultural applications. | 09-26-2013 |
20150045220 | PROTEIN COMPOSITIONS FOR PLANT TREATMENT - 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. | 02-12-2015 |
Patent application number | Description | Published |
20120142530 | PROTEIN COMPOSITIONS FOR PLANT TREATMENT - 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. | 06-07-2012 |
20120172219 | METHODS FOR ENHANCED ROOT NODULATION IN LEGUMES - 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. | 07-05-2012 |