Abstract: An automated, computer-implemented method for detecting and measuring large amounts of data obtained from molecular combing procedures including the identification and characterization of seven different DNA replication initiation and termination patterns.

Abstract: The invention involves methods for identification of biomarkers of the severity of an HPV infection.

Abstract: A molecular-combing, Genetic-Morse Code based method enabling the detection and high-resolution characterization of complex regions of genomic DNA, such as the SMA locus, with molecular combing. A method for the identification of biomarkers associated to the cis-duplication of SMN1 gene or segments of other complex parts of the genome. Biomarkers identified by this method which are composed of a sets of different colored probes, such as those disclosed for the SMA region.

Abstract: The invention proposes a device for analyzing nucleic acid molecules (M), comprising: —a bead (20), on which one molecule can be anchored at one end, —a surface (520), on which the molecule can be anchored at the other end, —an actuator (30), adapted to cause the bead to move relative to said surface in one direction, —a sensor (50), adapted to measure a distance between the bead and the surface, the device further comprising a well (11), having an axis (X-X) extending along the direction of motion of the bead and a bottom (110) formed by said surface, said well being filled with electrically conductive solution (40), and receiving the bead, the sensor being adapted to measure an impedance of the well, depending on a distance between the bead and the surface, to determine, the distance between the bead and the surface.

Abstract: Methods for detecting genomic rearrangements in BRCA1 and BRCA2 genes at high resolution using Molecular Combing and for determining a predisposition to a disease or disorder associated with these rearrangements including predisposition to ovarian cancer or breast cancer. Primers useful for producing probes for this method and kits for practicing the methods.

Abstract: In some embodiments, a lipofullerene-saccharide compound and a method of inhibiting and/or ameliorating metastasis of neoplastic cells using said compound is disclosed herein. The lipofullerene-saccharide compound may be used in therapeutically effective doses to inhibit the metastasis of neoplasms in mammals. In some embodiments, the method may include administering to a subject an effective amount of a pharmaceutically acceptable formulation including a lipofullerene-saccharide compound. In some embodiments, the lipofullerene-saccharide compound may be formed by reacting (e.g., coupling) a lipid and a saccharide with a fullerene. In some embodiments, neoplastic cells may include pancreatic cancer cells, prostate cancer cells, lung cancer cells, breast cancer cells, colon cancer cells, and/or brain cancer cells.

Abstract: Methods including in-silico steps for design and synthesis of Genomic Morse Code (“GMC”) probes including design of combinations of polynucleotide sequences and labelling colors for analysis of large rearrangements in targeted genetic regions as well as allele characterization of complex regions and localization of events such as replication, DNA reparation or epigenetics in particular regions. Color-encoded sets of probes that produce characteristic or unique color patterns when painted on a target nucleic acid sequence. Methods for using color-encoded sets of probes.

Abstract: Methods for detecting and characterizing large genomic rearrangements induced by modified nucleases at high resolution and for quantifying the frequency of the large genomic or gene rearrangements induced by modified nucleases using Molecular Combing.

Abstract: A toilet seat includes a lid, a splash guard, and a seat. The splash guard is affixed to a perimeter edge of the seat in a sealed manner. The splash guard is composed of flexible members including a plurality of flat sections being connected by fan-fold pleat sections. The splash guard lays flat for normal seated use, or may be deployed upward to form a vertical barrier to contain and direct any liquids into the toilet bowl. In a preferred embodiment, the splash guard and seat are horseshoe-shaped.

Abstract: The present invention relates to a method for determining whether a protein binds to a specific DNA sequence. This method is useful in particular for identifying modifications to the DNA sequence (e.g. methylations) via the binding of proteins that specifically recognize those modifications (e.g. antibodies), but also to identify the binding sequence on DNA of a variety of proteins.

Abstract: The present invention relates to novel therapies for treating autoimmune and inflammatory diseases. More specifically, the present invention relates to a use of low dose interleukin-2 for the treatment of type I diabetes and other autoimmune and/or inflammatory diseases.

Abstract: The present invention relates to a method for the determination of a nucleic acid sequence by physical manipulation. In particular, the said method comprises the steps of denaturing a double-stranded nucleic acid molecule corresponding to the said nucleic acid sequence by applying a physical force to the said molecule; and detecting a blockage of the renaturation of the double-stranded nucleic acid molecule. More specifically, the method comprises the steps of denaturing a double-stranded nucleic acid molecule corresponding to the said nucleic acid sequence by applying a physical force to the said molecule; providing a single-stranded nucleic acid molecule; renaturing the said double stranded nucleic acid molecule in the presence of the said single-stranded nucleic acid molecule; and detecting a blockage of the renaturation of the double-stranded nucleic acid.

Abstract: The present invention relates to a fast method for the detection and the quantification of a nucleic acid, DNA or RNA. Specifically, the invention provides a method for detecting and quantifying the presence of a specific nucleic acid molecule which is based on physical and electronic treatments. The method of the invention is particularly useful for applications as diverse as detection of chromosomal abnormal distributions or gene expression analysis.

Abstract: The present invention relates to a method for the determination of a nucleic acid sequence by physical manipulation. The method is based on the precise determination of the localization of the replicating fork on the template by measuring the physical distance between one end of the molecule and the fork. This allows the determination of the physical location of the site where a pause or a blockage of the replication occurs, and deducing therefrom information on the sequence of the nucleic acid.

Abstract: The present invention relates to novel therapies for treating autoimmune and inflammatory diseases. More specifically, the present invention relates to a use of low dose interleukin-2 for the treatment of type I diabetes and other autoimmune and/or inflammatory diseases.

Abstract: The present invention relates to a method for the determination of a nucleic acid sequence by physical manipulation. The method is based on the precise determination of the localization of the replicating fork on the template by measuring the physical distance between one end of the molecule and the fork. This allows the determination of the physical location of the site where a pause or a blockage of the replication occurs, and deducing therefrom information on the sequence of the nucleic acid.

Abstract: A finished smokable product is formed using a booklet of smoking rolling papers comprising: (a) a plurality of smokable sheets being stacked together each sheet having first and second longitudinal edge portions along with first and second lateral edge portions, and first and second faces, and a plurality of openings adjacent the first longitudinal edge portion, and the first longitudinal edge portion having a first length, and the first lateral edge portions having a first length; (b) wherein the plurality of sheets are bound together by a plurality of connecting loops; (c) wherein the plurality of openings have bound and unbound states, wherein in the bound state the openings are unbroken and have a mean diameter opening and mean spacing between unbroken openings, and in the unbound state the openings are broken open with the mean spacing remaining constant but the first lateral edge portion having a second length, the second length being greater than the first length of the first lateral edge portion; and

Abstract: The present invention relates to a method for the determination of a nucleic acid sequence by physical manipulation. In particular, the said method comprises the steps of denaturing a double-stranded nucleic acid molecule corresponding to the said nucleic acid sequence by applying a physical force to the said molecule; and detecting a blockage of the renaturation of the double-stranded nucleic acid molecule. More specifically, the method comprises the steps of denaturing a double-stranded nucleic acid molecule corresponding to the said nucleic acid sequence by applying a physical force to the said molecule; providing a single-stranded nucleic acid molecule; renaturing the said double stranded nucleic acid molecule in the presence of the said single-stranded nucleic acid molecule; and detecting a blockage of the renaturation of the double-stranded nucleic acid.

Abstract: Methods and products for detecting in vitro the presence of damage on DNA or the presence of a biological response to damage on DNA at the molecular level. Molecular Combing or other nucleic acid stretching methods are employed together with compounds reacting with DNA, probes binding DNA, or nucleic acid monomers, especially labeled nucleic acid monomers.

Abstract: Described herein is a method for determining a nucleic acid sequence, said method comprising: a) denaturing a double-stranded nucleic acid molecule corresponding to the said nucleic acid sequence by applying a physical force to the said molecule; b) providing a single-stranded nucleic acid molecule; c) renaturing the said double stranded nucleic acid molecule in the presence of the said single-stranded nucleic acid molecule; and d) detecting a blockage of the renaturation of the double-stranded nucleic acid.