Abstract: The present invention features “molecular torches” and the use of molecular torches for detecting the presence of a target nucleic acid sequence. Molecular torches contain a target binding domain, a target closing domain, and a joining region. The target binding domain is biased towards the target sequence such that the target binding domain forms a more stable hybrid with the target sequence than with the target closing domain under the same hybridization conditions. The joining region facilitates the formation or maintenance of a closed torch.

Abstract: The variants of human ciliary neutrophic factor (hCNTF) according to the present invention are characterized by substitution of phenylalanine 152 and/or lysine 155 with alanine. These variants have biological properties that render them important as the active principles of drugs for the treatment of diseases and pathologies involving the nervous system or other pathologies involving cells responding to the CNTF. FIG. 2 shows the results of simulation of haptoglobin secretion from HepG2 cells by CNTF and the variants described in the invention.

Abstract: A specific locus in the genome of a murine host cell is identified which causes high levels of recombinant gene expression following stable integration, via homologous recombination, of the recombinant gene into the specific chromosomal locus. The selection of a favorable genome locus for the insertion and expression of a recombinant gene is disclosed, as are DNA vectors and host cells.

Abstract: A specific locus in the genome of a murine host cell is identified which causes high levels of recombinant gene expression following stable integration, via homologous recombination, of the recombinant gene into the specific chromosomal locus. The selection of a favorable genome locus for the insertion and expression of a recombinant gene is disclosed, as are DNA vectors and host cells.

Abstract: The subject of the present invention are variants of ciliary neurotrophic factor with enhanced receptor selectivity (CNTFR), useful for the treatment of diseases and disorders including motor neuron diseases and muscle degenerative diseases. Another subject of the invention is to provide a method for identifying the above mentioned CNTF variants. The hCNTF variants with the amino acid substitutions in accordance with the present invention, have a reduced ability, as compared to the human CNTF, to elicit biological effects through soluble CNTFR, without affecting its ability to activate membrane-bound neuronal CNTF receptors, thereby improving its therapeutic properties. FIG. 1 shows the reduced CNTFR binding affinity of a CNTF variant according to the invention (IA-CNTF; SEQ ID NO: 2). It is evident that the binding affinity of this variant to the CNTFR is reduced as compared to the wild-type human CNTF molecule.

Abstract: The present invention relates to polynucleotides comprising a DNA sequence encoding an HCV protein and fragments thereof that contain codons optimized for expression in a vertebrate host. Uses of the polynucleotides include eliciting an immune response specifically recognizing HCV.

Abstract: Hitherto undiscovered 3′ sequence of GBV confers infectivity in tamarins on otherwise non-infective GBV genome. HCV sequences may be substituted within an infective GBV genome to provide for in vivo assays for agents able to modulate HCV activity.

Abstract: The present invention features kits for making available a desired nucleic acid contained in a biological sample. The kits contain an acid for acidifying the biological sample to a pH at which endogenous nucleases capable of degrading desired nucleic acids are inactive and an acid protease able to digest cellular materials in the biological sample to release nucleic acid and to inactivate endogenous nucleases which may be present.

Abstract: The present invention features inhibitors of target-independent amplification and the use of such inhibitors for enhancing an amplification protocol. The inhibitors are believed to enhance an amplification protocol by inhibiting the ability of one or more nucleic acid polymerases to use nucleic acid in a polymerase reaction in the absence of target nucleic acid.

Abstract: The present invention features HG67 nucleic acids and HG67 polypeptides. HG67, also referred to herein as “MCH-R2”, is a G-protein coupled receptor having a high degree of sequence identity with MCH-R1. The amino acid sequence for HG67 is provided by SEQ. ID. NO. 1. The cDNA sequence of HG67 is provided by SEQ. ID. NO. 2.

Abstract: The present invention describes oligonucleotides targeted to HPV Type 16 and/or Type 18 nucleic acid sequences which are particularly useful to aid in detecting HPV type 16 and or 18. The oligonucleotides can aid in detecting HPV Type 16 and/or Type 18 in different ways such as by acting as hybridization assay probes, helper probes, and/or amplification primers.

Abstract: The present invention relates to rhesus monkey DNA molecules encoding the melanocortin-4 receptor protein, recombinant vectors comprising DNA molecules encoding rhesus MC-4R, recombinant host cells which contain a recombinant vectors encoding rhesus MC-4R, the rhesus MC-4R protein encoded by the DNA molecule, and methods of identifying selective agonists and antagonists of rhesus MC-4R.

Abstract: A new galanin receptor, GALR2, is described. Also provided are nucleic acids encoding same and various assays to identify ligands particular to said receptor. Ligands so identified are useful for the treatment of obesity, treatment of pain, and treatment of cognitive disorders.

Abstract: The present invention features “molecular torches” and the use of molecular torches for detecting the presence of a target nucleic acid sequence. Molecular torches contain a target binding domain, a target closing domain, and a joining region. The target binding domain is biased towards the target sequence such that the target binding domain forms a more stable hybrid with the target sequence than with the target closing domain under the same hybridization conditions. The joining region facilitates the formation or maintenance of a closed torch.

Abstract: A method for preparing probes, as well as several probes for use in qualitative or quantitative hybridization assays are disclosed. The method comprises constructing an oligonucleotide that is sufficiently complementary to hybridize to a region of rRNA selected to be unique to a non-viral organism or group of non-viral organisms sought to be detected, said region of rRNA being selected by comparing one or more variable region rRNA sequences of said non-viral organism or group of non-viral organisms with one or more variable region rRNA sequences from one or more non-viral organisms sought to be distinguished. Hybridization assay probes for Mycobacterium avium, Mycobacterium intracellulare, the Mycobacterium tuberculosis-complex bacteria, Mycoplasma pneumoniae, Legionella, Salmonella, Chlamydia trachomatis, Campylobacter, Proteus mirabilis, Enterococcus, Enterobacter cloacae, E. coli, Pseudomonas group I, Neisseria gonorrhoeae, bacteria, and fungi also are disclosed.

Abstract: Bacterial polysaccharides which are used to produced vaccines are isolated then precipitated with a long chain detergent. The precipitated polysaccharides are soluble in organic solvents and can be further derivatized and processed to form the vaccine.

Abstract: This is a method for reproducing in vitro the RNA-dependent RNA polymerase activity associated with hepatitis C virus. The method is characterized in that sequences contained in NS5B are used in the reaction mixture. The terminal nucleotidyl transferase activity, a further property of the NS5B protein, can also be reproduced using this method. The method takes advantage of the fact that the NS5B protein, either purified to apparent homogeneity or present in extracts of overproducing organisms, can catalyze the addition of ribonucleotides to the 3′-termini of exogenous or endogenous RNA molecules. The invention also relates to a composition of matter that comprises sequences contained in NS5B, and to the use of these compositions for the set up of an enzymatic test capable of selecting, for therapeutic purposes, compounds that inhibit the enzymatic activity associated with NS5B.

Abstract: A method is provided for making synthetic capped RNAs. These compounds serve as substrates for the virally encoded endonuclease associated with influenza virus. We are able to assay for this unique and specific viral activity of cleavage of a capped RNA in vitro. Therefore, screening of inhibitors of this activity is possible. In addition, short non-extendible (due to their length or because of the modification of the 3′-end of the oligo, i.e. 3′-dA) RNAs are potent inhibitors of the cleavage of capped RNAs by influenza endonuclease. Finally, these compounds may be used to investigate viral and cellular mechanisms of transcription/translation or mRNA maturation.

Abstract: The present invention features “molecular torches” and the use of molecular torches for detecting the presence of a target nucleic acid sequence. Molecular torches contain a target binding domain, a target closing domain, and a joining region. The target binding domain is biased towards the target sequence such that the target binding domain forms a more stable hybrid with the target sequence than with the target closing domain under the same hybridization conditions. The joining region facilitates the formation or maintenance of a closed torch.

Abstract: To date, L-glutamate-gated chloride (GluCl) channels have been observed only in invertebrate organisms. Modulators of this channel (either agonists or antagoinists) will interfere with neurotransmission. For example, agents such as avermectins activate the GluCl, causing paralysis due to blocking of neurotranmitter release, resulting in death of the organism. Because GluCl channels are invertebreate specific, they are excellent targets for the discovery of novel insecticides, anthelminths and parasiticides that will display a marked safety profile because of the lack of mechanism based toxicity in vertebrate organisms. The present specification discloses isolation of a cDNA clone from the cat flea Ctenocephalides felis (CfGluCl-1) that encodes a L-glutamate-gated chloride channel. Heterologous expression of CfGluCl-1 cRNA in Xenopus oocytes results in robust expression of a L-glutamate-gated chloride current and the channel is activated and potentiated by avermectins.