Patent application number | Description | Published |
20090047712 | Chemically cleavable phosphoramidite linkers - The present invention provides phosphoramidite linkers that are useful for the production of synthesizing two or more oligonucleotides in tandem. The inventive linkers have the following desirable properties: (i) enhanced stability to alkali conditions versus the linkers previously published, (ii) cleave to produce 5′ and 3′ ends that are fully biologically compatible, (iii) cleave completely under conditions that are already used in cleavage/deprotection processes so they are fully compatible with conditions that are common in laboratories and do not require additives that necessitate further purification after cleavage, (iv) integrate easily onto commercially available synthesizers because they are compatible with standard coupling chemistry, and (v) are compatible with DNA, RNA, forward, reverse, and synthesis chemistries. In addition, the inventive linkers may be coupled to a solid support. Thus, the inventive linkers provide a significant advancement in the state of the art. | 02-19-2009 |
20090048436 | Methods of synthesizing chemically cleavable phosphoramidite linkers - The present invention provides a method of synthesizing phosphoramidite linkers that are useful for the production of synthesizing two or more oligonucleotides in tandem. The inventive linker has the following desirable properties: (i) enhanced stability to alkali conditions versus the linkers previously published, (ii) cleaves to produce 5′ and 3′ ends that are fully biologically compatible, (iii) cleaves completely under conditions that are already used in cleavage/deprotection processes so it is fully compatible with conditions that are common in laboratories and does not require additives that necessitate further purification after cleavage, (iv) integrates easily onto commercially available synthesizers because it is compatible with standard coupling chemistry, and (v) is compatible with DNA, RNA, forward, reverse, and LNA, synthesis chemistries. In addition, the inventive linkers may be coupled to a solid support. Thus, the inventive linkers provide a significant advancement in the state of the art. | 02-19-2009 |
20090123909 | Rapid, Informative Diagnostic Assay For Influenza Viruses Including H5N1 - A rapid diagnostic assay for influenza virus, particularly avian influenza and more particularly H5N1, is described. The assay is based on amplification of a significant portion of the hemagglutinin (HA) gene and sequencing of several loci within the HA gene, using techniques which can obtain real time sequence information from multiple sites of a target DNA, in particular pyrosequencing and bioluminescence regenerative cycle. The assay contemplates the use of information-rich subsequences within the HA gene, e.g., (1) a glycosylation sequon; (2) receptor binding site; and (3) HA1/HA2 cleavage site. Other subsequences for sequencing include strain and clade markers, which vary among H5N1 strains. | 05-14-2009 |
20090220979 | Methods and Apparatus for Magnetic Separation of Cells - Described here is an automated robotic device that isolates circulating tumor cells (CTCs) or other biological structures with extremely high purity. The device uses powerful magnetic rods covered in removable plastic sleeves. These rods sweep through blood samples, capturing, e.g., cancer cells labeled with antibodies linked to magnetically responsive particles such as superparamagnetic beads. Upon completion of the capturing protocol, the magnetic rods undergo several rounds of washing, thereby removing all contaminating blood cells. The captured target cells are released into a final capture solution by removing the magnetic rods from the sleeves. Additionally, cells captured by this device show no reduced viability when cultured after capture. Cells are captured in a state suitable for genetic analysis. Also disclosed are methods for single cell analysis. Being robotic allows the device to be operated with high throughput. | 09-03-2009 |
20100248246 | METHODS OF ENRICHING FOR AND IDENTIFYING POLYMORPHISMS - The invention encompasses methods for enriching for and identifying a polymorphism within a nucleic acid sample either by separating a subset of a nucleic acid sample or by selectively replicating a subset of a nucleic acid sample such that the polymorphism is contained within a nucleic acid population with reduced complexity, and then identifying the polymorphism within the enriched nucleic acid sample. Methods also are disclosed for enriching for and identifying a polymorphism by contacting a nucleic acid sample that includes a subset of nucleic acid molecules having a sequence that binds to a sequence-specific binding activity with a molecule having a sequence-specific binding activity under conditions which permit specific binding, such that the subset of nucleic acid molecules bound to the activity is enriched for nucleic acid molecules having the sequence recognized by the sequence-specific binding activity, and detecting a polymorphism with respect to a reference sequence in the subset of nucleic acid molecules. | 09-30-2010 |
20100261619 | 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. | 10-14-2010 |
20100330619 | DIRECT MULTIPLEX CHARACTERIZATION OF GENOMIC DNA - The invention is directed to novel methods of multiplexing nucleic acid reactions, including amplification, detection and genotyping. The invention relies on the use of precircle probes that are circularized in the presence of the corresponding target nucleic acids, cleaved, and then amplified. | 12-30-2010 |
20110086393 | METHOD TO PRODUCE SINGLE STRANDED DNA OF DEFINED LENGTH AND SEQUENCE AND DNA PROBES PRODUCED THEREBY - A method for producing a single stranded DNA (ssDNA) molecule of a defined length and sequence is disclosed. This method enables the preparation of, inter alia, probes of greater length than can be chemically synthesized. The method starts with a double stranded molecule, such as genomic, double stranded DNA (dsDNA) from any organism. A fragment of the starting molecule (dsDNA) is amplified by specific primers engineered to introduce cleavage sites on either side of the desired sequence. Cleavage steps on the amplified, engineered fragment are combined with a phosphate removal step, thereby creating a construct that can be digested with an exonuclease without damage to the desired ssDNA. Probes, which hybridize with large gaps between the ends of the probes, are also disclosed. | 04-14-2011 |
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 |
20110312518 | MICROFLUIDIC DEVICES FOR MEASUREMENT OR DETECTION INVOLVING CELLS OR BIOMOLECULES - Embodiments of the invention are related to microfluidic devices for detecting or determining the concentration of biomolecules in an analyte comprising: a channel, wherein a surface of said channel is fabricated to be functionalized with at least one molecule selected to interact with a biomolecule, said channel being configured to interact with a microsphere, wherein a surface of said microsphere is fabricated to be functionalized with at least one same or different molecule selected to interact with said biomolecule; a second channel in fluid communication with said first channel; a system to move fluid containing said microsphere through said first and second channels; and a system to measure a change in electrical impedance or optical microscopy across said second channel as said microsphere moves through said second channel. Other embodiments concern related devices, and methods of making and using. | 12-22-2011 |
20120045828 | Apparatus for Magnetic Separation of Cells - Described here is an automated robotic device that isolates circulating tumor cells (CTCs) or other biological structures with extremely high purity. The device uses powerful magnetic rods covered in removable plastic sleeves. These rods sweep through blood samples, capturing, e.g., cancer cells labeled with antibodies linked to magnetically responsive particles such as superparamagnetic beads. Upon completion of the capturing protocol, the magnetic rods undergo several rounds of washing, thereby removing all contaminating blood cells. The captured target cells are released into a final capture solution by removing the magnetic rods from the sleeves. Additionally, cells captured by this device show no reduced viability when cultured after capture. Cells are captured in a state suitable for genetic analysis. Also disclosed are methods for single cell analysis. Being robotic allows the device to be operated with high throughput. | 02-23-2012 |
20120065091 | DIRECT MULTIPLEX CHARACTERIZATION OF GENOMIC DNA - The invention is directed to novel methods of multiplexing nucleic acid reactions, including amplification, detection and genotyping. The invention relies on the use of precircle probes that are circularized in the presence of the corresponding target nucleic acids, cleaved, and then amplified. | 03-15-2012 |
20120142016 | Array-based bioactivated nanopore devices - A nanopore device capable of single molecule detection is described. The nanopores are formed in thin, rigid membranes and modified by a sputtered metal that forms an overhang during application. The overhang causes the pore to be narrower in a certain region, allowing passage of only a single molecule through the pore at a time, or binding to a biomolecule on the pore to be detected by a change in ionic current flow through the nanopore. Embodiments include a silicon nitride membrane formed on a silicon substrate and having a nanopore drilled with a focused ion beam system, followed by gold sputtering onto the membrane. Devices are formed with one or more nanopores and chambers having electrodes on either side of the nanopore. | 06-07-2012 |
20120183963 | DETERMINATION OF FETAL ANEUPLOIDY BY QUANTIFICATION OF GENOMIC DNA FROM MIXED SAMPLES - The present invention provides systems, apparatuses, and methods to detect the presence of fetal cells when mixed with a population of maternal cells in a sample and to test fetal abnormalities, i.e. aneuploidy. In addition, the present invention provides methods to determine when there are insufficient fetal cells for a determination and report a non-informative case. The present invention involves quantifying regions of genomic DNA from a mixed sample. More particularly the invention involves quantifying DNA polymorphisms from the mixed sample. | 07-19-2012 |
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 |
20130029851 | CALORIMETER SENSOR - A calorimeter device includes various components located on a common substrate. A first (calorimeter) integrated chip device is located on the substrate. This first device has a first microfluidic channel that has first side and a second side. A first heat sensing circuit is located on the first side of the first channel and a second heat sensing circuit is located on the second side of the channel, opposite the first side and facing the first heat sensing circuit. A second integrated chip device is located on the substrate and proximal to the first device. The second device includes a second microfluidic channel having a fourth side and fifth side. A third heat sensing circuit is located on the third side of the second channel. A fourth heat sensing circuit is located on the fourth side of the channel, opposite the third side and facing the third heat sensing circuit. | 01-31-2013 |
20130189688 | RARE CELL ANALYSIS USING SAMPLE SPLITTING AND DNA TAGS - The present invention provides systems, apparatuses, and methods to detect the presence of fetal cells when mixed with a population of maternal cells in a sample and to test fetal abnormalities, e.g. aneuploidy. The present invention involves labeling regions of genomic DNA in each cell in said mixed sample with different labels wherein each label is specific to each cell and quantifying the labeled regions of genomic DNA from each cell in the mixed sample. More particularly the invention involves quantifying labeled DNA polymorphisms from each cell in the mixed sample. | 07-25-2013 |
20130189689 | RARE CELL ANALYSIS USING SAMPLE SPLITTING AND DNA TAGS - The present invention provides systems, apparatuses, and methods to detect the presence of fetal cells when mixed with a population of maternal cells in a sample and to test fetal abnormalities, e.g. aneuploidy. The present invention involves labeling regions of genomic DNA in each cell in said mixed sample with different labels wherein each label is specific to each cell and quantifying the labeled regions of genomic DNA from each cell in the mixed sample. More particularly the invention involves quantifying labeled DNA polymorphisms from each cell in the mixed sample. | 07-25-2013 |
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 |
20130288242 | DETERMINATION OF FETAL ANEUPLOIDY BY QUANTIFICATION OF GENOMIC DNA FROM MIXED SAMPLES - The present invention provides systems, apparatuses, and methods to detect the presence of fetal cells when mixed with a population of maternal cells in a sample and to test fetal abnormalities, i.e. aneuploidy. In addition, the present invention provides methods to determine when there are insufficient fetal cells for a determination and report a non-informative case. The present invention involves quantifying regions of genomic DNA from a mixed sample. More particularly the invention involves quantifying DNA polymorphisms from the mixed sample. | 10-31-2013 |
20130295565 | RARE CELL ANALYSIS USING SAMPLE SPLITTING AND DNA TAGS - The present invention provides systems, apparatuses, and methods to detect the presence of fetal cells when mixed with a population of maternal cells in a sample and to test fetal abnormalities, e.g. aneuploidy. The present invention involves labeling regions of genomic DNA in each cell in said mixed sample with different labels wherein each label is specific to each cell and quantifying the labeled regions of genomic DNA from each cell in the mixed sample. More particularly the invention involves quantifying labeled DNA polymorphisms from each cell in the mixed sample. | 11-07-2013 |
20140206547 | HAPLOTYING OF HLA LOCI WITH ULTRA-DEEP SHOTGUN SEQUENCING - Methods are provided to determine the entire genomic region of a particular HLA locus including both intron and exons. The resultant consensus sequences provides linkage information between different exons, and produces the unique sequence from each of the two genes from the individual sample being typed. The sequence information in intron regions along with the exon sequences provides an accurate HLA haplotype. | 07-24-2014 |