Patent application number | Description | Published |
20110207118 | DNA TEMPLATE TAILORING USING PNA AND MODIFIED NUCLEOTIDES - Disclosed is a method whereby a repetitive nucleic acid sequence, such as a short tandem repeat (STR), may be characterized as to its length. Pyrosequencing is used to sequence an STR repetitive region to measure the length of STRs in a rapid manner. A combinatorial approach is disclosed for the addition of multiple nucleotides (e.g., two mononucleotides) at a time by the polymerase, which reduces the sample analysis time by half. In addition, modified nucleic acids, such as peptide nucleic acids, are used as blocking probe to stop polymerization on the flanking region which makes it possible to use pyrosequencing for DNA length measurement both in the case of homozygous or heterozygous samples for varying repeat patterns of different markers. Further, dideoxynucleotides are added to stop polymerization in the flanking region of the STR. | 08-25-2011 |
20110281739 | Charge Perturbation Detection System for DNA and Other Molecules - Methods and apparatus for direct detection of chemical reactions are provided. In a preferred embodiment, electric charge perturbations of the local environment during enzyme-catalyzed reactions are sensed by an electrode system with an immobilized target molecule. The target molecule is preferably DNA. The charge perturbation caused by the polymerase reaction can uniquely identify a DNA sequence. The polymerization process generates local perturbations of charge in the solution near the electrode surface and induces a charge in a polarazible gold electrode. This event is detected as a transient current by a voltage clamp amplifier. Detection of single nucleotides in a sequence can be determined by dispensing individual dNTPs to the electrode solution and detecting the charge perturbations. Alternatively, multiple bases can be determined at the same time using a mix of all dNTPs with subsequent analysis of the resulting signal. The initial enzyme attachment to the DNA molecule can be detected prior to polymerization, with electrode capacitance measurement using the same voltage-clamp amplifier. This technique and device may be adapted to other reaction determinations, such as enzymatic reactions, other electrode configurations, and other amplifying circuits. | 11-17-2011 |
20120222958 | Nanopore Device for Reversible Ion and Molecule Sensing or Migration - Disclosed are methods and devices for detection of ion migration and binding, utilizing a nanopipette adapted for use in an electrochemical sensing circuit. The nanopipette may be functionalized on its interior bore with metal chelators for binding and sensing metal ions or other specific binding molecules such as boronic acid for binding and sensing glucose. Such a functionalized nanopipette is comprised in an electrical sensor that detects when the nanopipette selectively and reversibly binds ions or small molecules. Also disclosed is a nanoreactor, comprising a nanopipette, for controlling precipitation in aqueous solutions by voltage-directed ion migration, wherein ions may be directed out of the interior bore by a repulsing charge in the bore. | 09-06-2012 |
20120225435 | NANOPIPETTE APPARATUS FOR MANIPULATING CELLS - Disclosed herein are methods and systems for controlled ejection of desired material onto surfaces including in single cells using nanopipettes, as well as ejection onto and into cells. Some embodiments are directed to a method and system comprising nanopipettes combined with an xyz controller for depositing a user defined pattern on an arbitrary substrate for the purpose of controlled cell adhesion and growth. Alternate embodiments are directed to a method and system comprising nanopipettes combined with an xyz controller and electronic control of a voltage differential in a bore of the nanopipette electroosmotically injecting material into a cell in a high-throughput manner and with minimal damage to the cell. Yet other embodiments are directed to method and system comprising functionalized nanopipettes combined with scanning ion conductance microscopy for studying molecular interactions and detection of biomolecules inside a single living cell. | 09-06-2012 |
20120283107 | Charge Perturbation Detection Method for DNA and Other Molecules - Methods for direct detection of chemical reactions are provided. Electric charge perturbations of the local environment during enzyme-catalyzed reactions are sensed by an electrode system with an immobilized target molecule. The charge perturbation caused by the polymerase reaction can uniquely identify a DNA sequence. The polymerization process generates local perturbations of charge in the solution near the electrode surface and induces a charge in a polarazible gold electrode. This event is detected as a transient current by a voltage clamp amplifier. Detection of single nucleotides in a sequence can be determined by dispensing individual dNTPs to the electrode solution and detecting the charge perturbations. Alternatively, multiple bases can be determined at the same time using a mix of all dNTPs with subsequent analysis of the resulting signal. This technique may be adapted to other reaction determinations, such as enzymatic reactions, other electrode configurations, and other amplifying circuits. | 11-08-2012 |
20130143774 | METHODS AND COMPOSITIONS FOR GENERATING POLYNUCLEIC ACID FRAGMENTS - Provided are methods and compositions for the generation of broad size distributions of polynucleic acid fragments from larger polynucleic acids. The invention provides unbiased polynucleic acid fragments, i.e. fragments representative of all portions of the larger polynucleic acids. The methods are amendable to automation and are cost-effective. The methods comprise contacting the polynucleic acid sample with a reducing agent and a transition metal in a solvent to form a mixture. An exemplified reducing agent is sodium ascorbate, and an exemplified transition metal is copper. | 06-06-2013 |
20130240379 | CHARGE PERTURBATION DETECTION SYSTEM FOR DNA AND OTHER MOLECULES - Methods and apparatus for direct detection of chemical reactions are provided. Electric charge perturbations of the local environment during enzyme-catalyzed reactions are sensed by an electrode system with an immobilized target molecule. The charge perturbation caused by the polymerase reaction can uniquely identify a DNA sequence. The polymerization process generates local perturbations of charge in the solution near the electrode surface and induces a charge in a polarazible gold electrode. This event is detected as a transient current by a voltage clamp amplifier. Detection of single nucleotides in a sequence can be determined by dispensing individual dNTPs to the electrode solution and detecting the charge perturbations. Alternatively, multiple bases can be determined at the same time using a mix of all dNTPs with subsequent analysis of the resulting signal. This technique may be adapted to other reaction determinations, such as enzymatic reactions, other electrode configurations, and other amplifying circuits. | 09-19-2013 |
20150177189 | Nanopore Device for Reversible Ion and Molecule Sensing or Migration - Disclosed are methods and devices for detection of ion migration and binding, utilizing a nanopipette adapted for use in an electrochemical sensing circuit. The nanopipette may be functionalized on its interior bore with metal chelators for binding and sensing metal ions or other specific binding molecules such as boronic acid for binding and sensing glucose. Such a functionalized nanopipette is comprised in an electrical sensor that detects when the nanopipette selectively and reversibly binds ions or small molecules. Also disclosed is a nanoreactor, comprising a nanopipette, for controlling precipitation in aqueous solutions by voltage-directed ion migration, wherein ions may be directed out of the interior bore by a repulsing charge in the bore. | 06-25-2015 |