Abstract: This invention relates to Helicobacter species aliphatic amidase AmiE polypeptides, the DNA encoding those polypeptides and transformed microorganisms capable of expressing those polypeptides. This invention also relates to the use of Helicobacter sp. (particularly Helicobacter pylori) amidase AmiE polypeptides and antibodies specific for those polypeptides in immunogenic, therapeutic, and diagnostic applications. The invention additionally relates to processes of producing Helicobacter species aliphatic amidase AmiE polypeptides and intermediates useful in the production of those polypeptides.

Abstract: There is provided an immunogenic composition capable of inducing protective antibodies against Helicobacter infection characterized in that it comprises: i) at least one sub-unit of a urease structural polypeptide from Helicobacter pylori, or a fragment thereof, said fragment being recognized by antibodies reacting with Helicobacter felis urease, and/or at least one sub-unit of a urease structural polypeptide from Helicobacter felis, or a fragment thereof, said fragment being recognized by antibodies reacting with Helicobacter pylori urease; ii) and/or, a heat shock protein (Hsp), or chaperonin, from Helicobacter, or a fragment of said protein. The preparation, by recombinant means, of such immunogenic compositions is also provided.

Abstract: An effective immunogen against Lyme borreliosis in mammals comprises homogenous B. burgdorferi pC protein and a physiologically-acceptable excipient.

Abstract: The invention discloses the Moraxella catarrhalis outer membrane protein-106 (OMP106) polypeptide, polypeptides derived therefrom (OMP106-derived polypeptides), nucleotide sequences encoding said polypeptides, and antibodies that specifically bind the OMP106 polypeptide and/or OMP106-derived polypeptides. Also disclosed are immunogenic, prophylactic or therapeutic compositions, including vaccines, comprising OMP106 polypeptide and/or OMP106-derived polypeptides. The invention additionally discloses methods of inducing immune responses to M. catarrhalis and M. catarrhalis OMP106 polypeptides and OMP106-derived polypeptides in animals.

Abstract: Purified and isolated nucleic acid molecules are provided which encode a FlaC flagellin protein of a strain of Campylobacter, particularly C. jejuni, or a fragment or an analog of the FlaC flagellin protein. The nucleic acid molecules may be used to produce proteins free of contaminants derived from bacteria normally containing the FlaA or FlaB proteins for purposes of diagnostics and medical treatment. Furthermore, the nucleic acid molecules, proteins encoded thereby and antibodies raised against the proteins, may be used in the diagnosis of infection.

Abstract: The present invention is a method for diagnosing a patient at risk to thrombocytopenia induced by administration of a GP IIb/IIIa receptor antagonist, which comprises combining i) a plasma sample of the patient; ii) detectable monoclonal antibody which recognizes induced binding sites formed on the GP IIb/IIIa receptor following association of a fibrinogen receptor antagonist with the GP IIb/IIIa receptor; and iii) GP IIb/IIIa receptor:GP IIb/III receptor antagonist complex, and determining association of the detectable monoclonal antibody with the complex in the presence of the plasma.

Abstract: Several EHEC proteins which are secreted into the culture supernatant have been discovered. These proteins are not produced by non-pathogenic E. coli, and produce a strong serum antibody response in patients with HUS and bloody diarrhea.

Abstract: The present invention provides a method for determining qualitatively or quantitatively the presence of toxic congeners of polychlorinated biphenyl in a test sample. The method includes the steps of: providing a known quantity of antibodies to the toxic polychlorinated biphenyl congener; providing a competitor that will bind to said antibodies in competition with the toxic polychlorinated biphenyl congener and having a lower affinity to said antibodies than said antibodies have to the toxic polychlorinated biphenyl congener; incubating said antibodies and said competitor in the presence of a test sample; and detecting the presence of the toxic polychlorinated biphenyl toxic congener in the test sample.

Abstract: A method of microdissection which involves: forming an image field of cells of the tissue sample utilizing a microscope, identifying at least one zone of cells of interest from the image field of cells which at least one zone of cells of interest includes different types of cells than adjacent zones of cells, and extracting the at least one zone of cells of interest from the tissue sample. The extraction is achieved by contacting the tissue sample with a transfer surface that can be selectively activated so that regions thereof adhere to the zone of cells of interest to be extracted. The transfer surface includes an activatable adhesive layer which provides chemical or electrostatic adherence to the selected regions of the tissue sample. After the transfer surface is activated the transfer surface and tissue sample are separated. During separation the zone of cells of interest remains adhered to the transfer surface and is thus separated from the tissue sample.

Abstract: This invention relates to methods of screening molecules capable of inhibiting the survival of Helicobacter pylori in vivo by specifically inhibiting the activity of UreI, to the molecules identified by these methods, and to the use of these molecules to treat or prevent H. pylori infection.

Abstract: The present invention relates generally to assays for 8-hydroxyadenine (8-OH-Ade) and, more particularly, to improved immunoassays for the detection and quantitation of 8-OH-Ade in biological specimens. The present invention further relates to new monoclonal antibodies directed against 8-OH-Ade for use in the immunoassays.

Abstract: The invention relates to an immunoassays, binding assays, solid phase substrates (12) and other devices with an antigen or antibody or ligand or receptor (11) embedded into a solid phase substrate (12). The antigen or antibody is mixed with a molten thermoplastic and formed into the solid phase substrate (12).

Abstract: The present invention relates to a simple immunochemical semi-quantitative assay method according to chromatography, which comprises trapping a certain amount of an analyte in a sample with a predetermined amount of a fixed antibody for the analyte before qualitative analysis of the analyte, the certain amount corresponding to the amount of the fixed antibody, and thereby decreasing a concentration of the analyte to be subjected to subsequent immunochemical qualitative determination, and an apparatus therefor.

Abstract: The present invention concerns a method of treating bacteremia, sepsis and other forms of toxemia caused by Gram-positive bacteria and mycobacteria comprising administering a therapeutically effective amount of anti-CD14 antibody molecules. A therapeutic composition comprising anti-CD14 antibody molecules in a pharmaceutically acceptable excipient is also contemplated.

Abstract: Synthetic molecules are provided comprising one or more immunoglobulin binding domains as well as sequences which have at least 90% homology to these domains.

Abstract: A method of judging the eradication of H. pylori to judge whether the sample is positive or negative through a quick and easily operation is provided. A PG I value and a PG II value in the body fluids (e.g., in the blood) of an H. pylori positive patient are measured before the H. pylori eradicating treatment and after the passage of a period in which a substantially significant result occurs from the eradicating treatment, a PG I/PG II ratio in the body fluids (e.g., in the blood) is found, a rate of change in the PG I/PG II ratio in the body fluids (e.g., in the blood) is found before the H. pylori eradicating treatment and after the passage of the period in which a substantially significant result occurs from the eradicating treatment, and the change in the PG I/PG II ratio is used as a marker to indicate that H. pylori is eradicated.

Abstract: The present invention provides an isolated nucleic acid encoding an approximately 120-128 kilodalton antigen of Helicobacter pylori, or an antigenic fragment thereof, wherein the antigen is associated with peptic ulceration. The present invention also provides methods of detecting the presence of a Helicobacter pylori strain possessing the 120-128 kilodalton antigen in a subject, comprising the steps of contacting an antibody-containing sample from the subject with a detectable amount of the tagA antigen or antigenic polypeptide of the present invention and detecting the binding of the antigen or fragment and the antibody. The detection of a strain expressing the TagA antigen is an indication of predisposition to peptic ulceration and gastric carcinoma. A mutant H. pylori not expressing a functional TagA antigen is also provided.

Abstract: The present invention relates to the use of these cyclophilins, hereinafter referred to as `tyrosine-containing` cyclophilins, in a method for identifying compounds capable of binding to and/or inhibiting the enzymatic activity of these proteins. Such compounds may be further screened for their ability to inhibit parasites which are not susceptible to the anti-parasitic effects of CsA.

Abstract: Array, and methods for the production thereof, of selected immobilized molecules for interaction analysis in which each molecule has a predetermined, identifiable position in the array. The array is obtainable by and the methods are characterized by the following steps: a) bundling and fixing together flat or elongated, thin carrier elements in a regular way, each element having immobilized thereto a selected molecule and having an identifiable position in the array, b) sectioning the bundles and optionally, c) depositing the sections on a support.

Abstract: A high-affinity salicylic acid-binding protein (SABP2) derivable from tobacco and Arabidopsis is disclosed. The tobacco protein has a molecular weight of approximately 25 kDa and reversibly binds SA with an apparent K.sub.d of approximately 90 nM and a B.sub.max of 10 fmol/mg protein. The SABP2 of the invention may be used to identify analogues of SA. Analogues so identified may be used in plants to augment disease-resistance response pathways or other SA-sensitive processes in which SA plays a role. Possible examples include flowering and alternative respiration. The SABP2 of the invention may also be used to identify and clone a gene or cDNA that encodes it, which then may be used to generate transgenic plants having altered SABP2 levels.