Patent application number | Description | Published |
20100304370 | INTRACELLULAR PH SENSOR USING NUCLEIC ACID ASSEMBLIES - Disclosed are nucleic acid-based sensors for measuring the pH of a sample, including cells, regions thereof, and whole organisms. The sensor includes an I-switch that is triggered by protons, and which functions as a FRET-based pH sensor inside living cells and organisms. Also disclosed are compositions and methods for measuring the pH of a specific region of a cell, such as vesicles, the nucleus, mitochondrial matrix, or the Golgi lumen. | 12-02-2010 |
20110033706 | NANOCAPSULES AND METHODS FOR MODULAR ASSEMBLY - Disclosed are nanocapsules and methods of preparing these nanocapsules. The disclosure includes a modular assembly method of forming DNA nanocapsules. Discrete polyhedra are combined in a stepwise amalgamation to form icosahedra. The DNA nanocapsules may be used to encapsulate agents for drug delivery and other applications. | 02-10-2011 |
20110223676 | DNA-BASED MOLECULAR SWITCHES AND USES THEREOF - Disclosed are nucleic acid-based molecular switches that respond to changes in pH. The switches may be used in DNA nanodevices. The switches may also act as sensors for measuring the pH of a sample, including cells, regions thereof, and whole organisms. The switch includes an A-motif that forms at acidic pH. Also disclosed are compositions and methods for measuring the pH of cells or regions thereof, such as vesicles, the nucleus, mitochondrial matrix, or the Golgi lumen. | 09-15-2011 |
20120082975 | DNA-BASED MOLECULAR SWITCHES AND USES THEREOF - Disclosed are nucleic acid-based molecular switches that respond to changes in pH. The switches may be used in DNA nanodevices. The switches may also act as sensors for measuring the pH of a sample, including cells, regions thereof, and whole organisms. The switch includes an A-motif that forms at acidic pH. Also disclosed are compositions and methods for measuring the pH of cells or regions thereof, such as vesicles, the nucleus, mitochondrial matrix, or the Golgi lumen. | 04-05-2012 |
20120258452 | DNA-BASED MOLECULAR SWITCHES AND USES THEREOF - Disclosed are nucleic acid-based molecular switches that respond to changes in pH. The switches may be used in DNA nanodevices. The switches may also act as sensors for measuring the pH of a sample, including cells, regions thereof, and whole organisms. The switch includes an A-motif that forms at acidic pH. Also disclosed are compositions and methods for measuring the pH of cells or regions thereof, such as vesicles, the nucleus, mitochondrial matrix, or the Golgi lumen. | 10-11-2012 |
20140056818 | PROCESS FOR DELIVERING ENCAPSULATED NEUTRAL BIOIMAGING MOLECULES, COMPLEX, AND PROCESS THEREOF - The present disclosure relates to delivering neutral bioimaging molecules encapsulated within icosahedral DNA capsules in vivo and in vitro. The present disclosure also discloses the entrapment of neutral bioimaging molecules like FITC dextran within the cavity of a DNA polyhedron without any molecular recognition or chemical conjugation between host (DNA icosahedron) and cargo (like FITC Dextran). This DNA polyhedron is structurally well defined and shows high encapsulation efficiency. The present disclosure also relates to complex formed due to the encapsulation of neutral bioimaging agents within icosahedral DNA capsules. | 02-27-2014 |
20140335568 | NUCLEIC ACID ASSEMBLY, VECTOR, CELL, METHODS AND KIT THEREOF - The present disclosure relates to a nucleic acid assembly (NAA), comprising sensor domain and handle domain; an assembly interfaceable motif (AIM) sequence optionally along with intracellular targeting motif (ITM) sequence; and an AIM-NAA complex. It also relates to a vector comprising assembly interfaceable motif sequence optionally along with intracellular targeting motif sequence and a cell comprising the vector. Further, the instant disclosure also provides a method to obtain the nucleic acid assembly, method of intracellular targeting and kit thereof. | 11-13-2014 |
20160002713 | METHODS OF MULTIPLEXING DNA SENSORS AND LOCALIZING DNA SENSOR - The present disclosure relates to a method of multiplexing DNA sensors and optionally measuring pH in cell, a method of localizing DNA sensor in Golgi Network of scFv-Furin expressing cell and a method of identifying optimal location of fluorophore pair on the DNA sensor for multiplexing DNA sensors. The DNA sensors of the present disclosure follow independent cellular pathways and do not interact with or compromise functionality of another DNA sensor. | 01-07-2016 |