Zuker
Amir Zuker, Nes Ziona IL
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20110126317 | PLANT VIRAL EXPRESSION VECTORS AND USE OF SAME FOR GENERATING GENOTYPIC VARIATIONS IN PLANT GENOMES - A method of generating genotypic variation in a genome of a plant is disclosed. The method comprising introducing into the plant at least one viral expression vector encoding at least one chimeric nuclease which comprises a DNA binding domain, a nuclease and a localization signal to a DNA-containing organelle, wherein the DNA binding domain mediates specific targeting of the nuclease to the genome of the plant, thereby generating genotypic variation in the genome of the plant. | 05-26-2011 |
20120210461 | GENERATING GENOTYPIC VARIATIONS IN PLANT GENOMES BY GAMETE INFECTION - A method of generating genotypic variation in a genome of a plant is disclosed. The method comprising introducing into a gamete or a gamete producing tissue of the plant at least one viral expression vector encoding at least one chimeric nuclease which comprises a DNA binding domain, a nuclease and a localization signal to a DNA-containing organelle, wherein the DNA binding domain mediates specific targeting of the nuclease to the genome of the plant, wherein the introducing is performed such that the gamete or gamete producing tissue expresses the chimeric nuclease but not all plant tissues express the chimeric nuclease, thereby generating genotypic variation in the genome of the plant. | 08-16-2012 |
20140331360 | PLANT VIRAL EXPRESSION VECTORS AND USE OF SAME FOR GENERATING GENOTYPIC VARIATIONS IN PLANT GENOMES - A method of generating genotypic variation in a genome of a plant is disclosed. The method comprising introducing into the plant at least one viral expression vector encoding at least one chimeric nuclease which comprises a DNA binding domain, a nuclease and a localization signal to a DNA-containing organelle, wherein the DNA binding domain mediates specific targeting of the nuclease to the genome of the plant, thereby generating genotypic variation in the genome of the plant. | 11-06-2014 |
Charles Zuker, Del Mar, CA US
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20090089888 | Sour/Acid Taste Receptors Assays, Genes and Proteins - Taste receptor PC-1-L3/PC-2-L1 is provided. Methods and systems for screening for tastants and receptor modulators are provided. Knock out and transgenic animals, methods of detecting polymorphisms, and methods of correcting taste defects are also provided. | 04-02-2009 |
Charles Zuker, San Diego, CA US
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20130189712 | T2R, A NOVEL FAMILY OF TASTE RECEPTORS - The invention provides nucleic acid and amino acid sequences for a novel family of taste transduction G-protein coupled receptors, antibodies to such receptors, methods of detecting such nucleic acids and receptors, and methods of screening for modulators of taste transduction G-protein coupled receptors. | 07-25-2013 |
20140120553 | T2R, A NOVEL FAMILY OF TASTE RECEPTORS - The invention provides nucleic acid and amino acid sequences for a novel family of taste transduction G-protein coupled receptors, antibodies to such receptors, methods of detecting such nucleic acids and receptors, and methods of screening for modulators of taste transduction G-protein coupled receptors. | 05-01-2014 |
20150260733 | METHOD FOR IDENTIFYING COMPOUNDS THAT MODULATE A T2R TASTE RECEPTOR - The invention provides nucleic acid and amino acid sequences for a novel family of taste transduction G-protein coupled receptors, antibodies to such receptors, methods of detecting such nucleic acids and receptors, and methods of screening for modulators of taste transduction G-protein coupled receptors. | 09-17-2015 |
Charles Zuker, New York, NY US
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20160000126 | MODULATION OF SALTY TASTE PERCEPTION BY ALTERING THE FUNCTION OF BITTER- OR PKD2L1-EXPRESSING TASTE RECEPTOR CELLS - The current invention is in the field of taste and relates to methods and compositions to modulate the perceived taste of saltiness in food or food products where salty taste is desired. The methods and compositions relate to altering the activation and/or activity of the bitter-sensing taste receptor cells and the PKD2L1-expressing taste receptor cells. The invention also relates to food and food products containing agents and composition that alter the activation and/or activity of the bitter-sensing taste receptor cells and the PKD2L1-expressing taste receptor cells. | 01-07-2016 |
Charles S. Zuker, New York, NY US
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20110151483 | Mammalian Sweet and Amino Acid Heterodimeric Taste Receptors Comprising T1R3 and T1R1 - The present invention provides isolated nucleic acid and amino acid sequences of sweet or amino acid taste receptors comprising T1R3 and T1R1, two heterologous G-protein coupled receptor polypeptides from the T1R family of sensory G-protein coupled receptors, antibodies to such receptors, methods of detecting such nucleic acids and receptors, and methods of screening for modulators of sweet and amino acid taste receptors. | 06-23-2011 |
20140024043 | Mammalian Sweet and Amino Acid Heterodimeric Taste Receptors Comprising T1R3 and T1R1 - The present invention provides isolated nucleic acid and amino acid sequences of sweet or amino acid taste receptors comprising T1R3 and T1R1, two heterologous G-protein coupled receptor polypeptides from the T1R family of sensory G-protein coupled receptors, antibodies to such receptors, methods of detecting such nucleic acids and receptors, and methods of screening for modulators of sweet and amino acid taste receptors. | 01-23-2014 |
Harry Zuker, Delray Beach, FL US
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20150022093 | LED LIGHT CONTROLLER AND METHOD OF CONTROLLING LED LIGHTS - A method controls the light exposure of an individual during a given time period. A control unit is provided for controlling lights. A first sensor is worn by the individual and gathers light exposure data including lighting intensity data and Kelvin temperature data experienced by the individual. Second sensors are disposed in a building for collecting emitted light data emitted in the building. The emitted light data and the light exposure data are transmitted to the control unit. The light data, along with desired data including desired light intensity and desired Kelvin temperature are stored. The optimal light exposure for the individual is determined based on the light data or the desired data, and an output signal is generated based on the optimal light exposure. The lights are controlled based on the output signal to produce an overall light intensity and Kelvin temperature pattern per day for the individual. | 01-22-2015 |