Abstract: 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.

Abstract: 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.

Abstract: A highly specific and versatile surface chemistry for immobilization of amine-terminated probes is disclosed. A bi-layered polymer thin film serves as the platform for coupling the probes, which are preferably oligonucleotides. The process involves sequentially coating a substrate with polyamine and polyacid anhydride. Hydrolyzed polyacid anhydride groups may be converted to non-hydrolyzed groups at about 100° C. prior to probe attachment. The process of coating the substrate requires no harsh chemical pretreatment of substrates such as RCA or Piranha cleaning. In addition, simple thermal activation of the anhydride groups has a low requirement for storage, leading to a long shelf life of modified surfaces. The disclosed surface chemistry is especially compatible with microfabrication processes, and its effective application to magnetic biosensors is demonstrated.

Abstract: Disclosed is a method of polynucleic acid (e.g., DNA) sequencing which is based on the generation of pyrophosphate (PPi) that occurs when a complementary base is incorporated into a growing DNA strand being synthesized on a template. The method utilizes a cascade of enzymatic reactions catalyzed by hypoxanthine-phosphoribosyl transferase, xanthine oxidase, and peroxidase in addition to DNA polymerase and apyrase. The last chemical step in the cascade of reactions is the oxidation of a material such as an electrode or luminol by hydrogen peroxide. This generates a detectable electrical or optical signal. This method is independent of luciferase, does not require dATP analogue, and is intended to improve precision and sensitivity of DNA sequencing, and to lessen the unsynchronized polymerization.

Abstract: A DNA microarray, preferably in the form of a chip, contains probes which hybridize to generate primers capable of amplifying approximately 89 HPV types. These target the E1 region of the gene. The design of the chip allows for the detection of any known HPV type, based on a unique probe sequence derived from the HPV E1 region. The present assay utilizes a number of primers that can amplify from about one to six different types of HPV. A large number of primers can be used together. After amplification, the amplicons are contacted with specific probes that are unique for each HPV type. The array further employs a control sequence, which normalizes variability due to sample size.

Abstract: 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.

Abstract: Small RNA sequences that are differentially expressed in SCCC cells are provided. The sequences find use in diagnosis of cancer, and classification of cancer cells according to expression profiles. The methods are useful for detecting cervical cancer cells, facilitating diagnosis of cervical cancer and the severity of the cancer (e.g., tumor grade, tumor burden, and the like) in a subject, facilitating a determination of the prognosis of a subject, and assessing the responsiveness of the subject to therapy.

Abstract: 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.

Abstract: Disclosed are methods and devices for biomolecular detection, comprising a nanopipette, exemplified as a hollow inert, non-biological structure with a conical tip opening of nanoscale dimensions, suitable for holding an electrolyte solution which may contain an analyte such as a protein biomolecule to be detected as it is passed through the tip opening. Biomolecules are detected by specific reaction withy peptide ligands chemically immobilized in the vicinity of the tip. Analytes which bind to the ligands cause a detectible change in ionic current. A sensitive detection circuit, using a feedback amplifier circuit, and alternating voltages is further disclosed. Detection of Il-10 at a concentration of 4 ng/nl is also disclosed, as is detection of VEGF.

Abstract: The present invention provides a magnetic sifter that is small in scale, enables three-dimensional flow in a direction normal to the substrate, allows relatively higher capture rates and higher flow rates, and provides a relatively easy method of releasing captured biomolecules. The magnetic sifter includes at least one substrate. Each substrate contains a plurality of slits, each of which extends through the substrate. The sifter also includes a plurality of magnets attached to the bottom surface of the substrate. These magnets are located proximal to the openings of the slits. An electromagnetic source controls the magnitude and direction of magnetic field gradient generated by the magnets. Either one device may be used, or multiple devices may be used in series. In addition, the magnetic sifter may be used in connection with a detection chamber.

Abstract: 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.

Abstract: Methods for analyte detection with magnetic sensors are provided. Aspects of the methods include producing a magnetic sensor device having a magnetically labeled analyte from a sample, such as a serum sample, bound to a surface of a magnetic sensor thereof; and obtaining a signal, e.g., a real-time signal, from the magnetic sensor to determine whether the analyte is present in the sample. Also provided are devices, systems and kits that find use in practicing the methods of the invention. The methods, devices, systems and kits of the invention find use in a variety of different applications, including detection of biomarkers, such as disease markers.

Abstract: A method of determining the length of a polynucleotide target is provided. With this method, a target is first hybridized to an array of first probes having different, determined lengths, resulting in the formation of duplexes between the polynucleotide target and the first probes. These duplexes have a single stranded section of target if the target is longer than the first probe it is in a duplex with, and a single stranded section of probe if the target is shorter than the first probe it is in a duplex with. Next, a series of probes is hybridized to the duplexes, breaking apart duplexes in which the target and probe have unequal lengths through the process of branch migration. Thus, the target only remains bound in the duplex if the target and probe are of equal lengths. The length of the polynucleotide target can thereby be determined.

Abstract: A highly specific and versatile surface chemistry for immobilization of amine-terminated probes is disclosed. A bi-layered polymer thin film serves as the platform for coupling the probes, which are preferably oligonucleotides. The process involves sequentially coating a substrate with polyamine and polyacid anhydride. Hydrolyzed polyacid anhydride groups may be converted to non-hydrolyzed groups at about 100° C. prior to probe attachment. The process of coating the substrate requires no harsh chemical pretreatment of substrates such as RCA or Piranha cleaning. In addition, simple thermal activation of the anhydride groups has a low requirement for storage, leading to a long shelf life of modified surfaces. The disclosed surface chemistry is especially compatible with microfabrication processes, and its effective application to magnetic biosensors is demonstrated.

Abstract: A method of determining the length of a polynucleotide target is provided. With this method, a target is first hybridized to an array of first probes having different, determined lengths, resulting in the formation of duplexes between the polynucleotide target and the first probes. These duplexes have a single stranded section of target if the target is longer than the first probe it is in a duplex with, and a single stranded section of probe if the target is shorter than the first probe it is in a duplex with. Next, a series of probes is hybridized to the duplexes, breaking apart duplexes in which the target and probe have unequal lengths through the process of branch migration. Thus, the target only remains bound in the duplex if the target and probe are of equal lengths. The length of the polynucleotide target can thereby be determined.

Abstract: A DNA microarray, preferably in the form of a chip, contains probes which hybridize to generate primers capable of amplifying approximately 89 HPV types. These target the E1 region of the gene. The design of the chip allows for the detection of any known HPV type, based on a unique probe sequence derived from the HPV E1 region. The present assay utilizes a number of primers that can amplify from about one to six different types of HPV. A large number of primers can be used together. After amplification, the amplicons are contacted with specific probes that are unique for each HPV type. The array further employs a control sequence, which normalizes variability due to sample size.

Abstract: The present invention provides a magnetic sifter that is small in scale, enables three-dimensional flow in a direction normal to the substrate, allows relatively higher capture rates and higher flow rates, and provides a relatively easy method of releasing captured biomolecules. The magnetic sifter includes at least one substrate. Each substrate contains a plurality of slits, each of which extends through the substrate. The sifter also includes a plurality of magnets attached to the bottom surface of the substrate. These magnets are located proximal to the openings of the slits. An electromagnetic source controls the magnitude and direction of magnetic field gradient generated by the magnets. Either one device may be used, or multiple devices may be used in series. In addition, the magnetic sifter may be used in connection with a detection chamber.

Abstract: A method of determining the length of a polynucleotide target is provided. With this method, a target is first hybridized to an array of first probes having different, determined lengths, resulting in the formation of duplexes between the polynucleotide target and the first probes. These duplexes have a single stranded section of target if the target is longer than the first probe it is in a duplex with. Next, a second probe having a determined length is hybridized to these duplexes. If the length of the target is greater than the length of the first probe it is displaced during this hybridization step by the process of branch migration. In contrast, if the length of the target is less than or equal to the length of the first probe, it is not displaced. Thus, the length of the polynucleotide target can be determined.

Abstract: Devices for detecting a transient electrical signal in a sample are provided. Also provided are systems that include the subject devices. The subject devices and systems find use in a variety of applications, particularly in the characterization of a sample, and more particularly in the characterization of molecular entities in the sample.

Abstract: A method of determining the length of a polynucleotide target is provided. With this method, a target is first hybridized to an array of first probes having different, determined lengths, resulting in the formation of duplexes between the polynucleotide target and the first probes. These duplexes have a single stranded section of target if the target is longer than the first probe it is in a duplex with. Next, a second probe having a determined length is hybridized to these duplexes. If the length of the target is greater than the length of the first probe it is displaced during this hybridization step by the process of branch migration. In contrast, if the length of the target is less than or equal to the length of the first probe, it is not displaced. Thus, the length of the polynucleotide target can be determined.