Abstract: The invention relates to the detection of specified, flagellated bacteria, particularly Salmonella, in food and stool. A single culturing period of about 12 to 24 hours in a liquid nutrient medium without agitation is combined with a position-selective sampling of the flagellated microbes from the liquid of the culture, after which a mass spectrometric detection method is used which recognizes the target bacteria in mixtures. A second culture step is only necessary in exceptional cases. A species-selective or genus-selective culture medium is advantageous. Positional selection becomes possible because these bacteria use their flagella to counteract sedimentation by chemotaxis, and they collect near the surface.

Abstract: A concentration agent for microorganisms is provided that contains both lanthanum and carbonate. Additionally, articles that include the concentration agent and methods of concentrating a microorganism using the concentration agent are provided.

Abstract: The present invention provides compositions including siderophore receptor polypeptides and porins from gram negative microbes, and preferably, lipopolysaccharide at a concentration of no greater than about 10.0 endotoxin units per milliliter. The present invention also provides methods of making and methods of using such compositions.

Abstract: A device for detecting at least one analyte generally comprises (i) a support having a chamber for receiving a biological fluid therein, wherein said chamber is an elongate chamber having a length axis; (ii) a carrier or agitator in said elongate chamber, said carrier or agitator having opposite end portions and a side portion, the carrier or agitator dimensioned to travel in said chamber along said length axis and/or permit said liquid sample to flow in the chamber therearound, either (or both) thereby agitating the liquid sample; and (iii) at least one anti-analyte antibody coupled to either the carrier and/or the chamber side wall. Methods of using the device are also described.

Abstract: The present invention, in part, relates to methods and apparatuses for on-chip amplification and/or detection of various targets, including biological targets and any amplifiable targets. In some examples, the microculture apparatus includes a single-use, normally-closed fluidic valve that is initially maintained in the closed position by a valve element bonded to an adhesive coating. The valve is opened using a magnetic force. The valve element includes a magnetic material or metal. Such apparatuses and methods are useful for in-field or real-time detection of targets, especially in limited resource settings.

Abstract: A magnetizable trap and flow system and process are detailed that uniformly disperse paramagnetic or superparamagnetic analyte capture beads within a scaffold of magnetizable beads or other magnetizable materials in a capture zone that provides selective capture of target analytes. A magnet placed or energized in proximity to the trap may magnetize the magnetizable scaffold and secure the paramagnetic or superparamagnetic analyte capture beads in their uniformly dispersed state within the magnetizable scaffold to provide selective capture of target analytes.

Abstract: The present invention concerns a method for labeling specifically living bacteria of a given category in a sample, the method including: a) incubating said bacteria of said sample with at least one analog of a monosaccharide compound, and b) contacting the bacteria with a labeling molecule having a second reactive group.

Abstract: Methods are described for the production and use of fluorescence resonance energy transfer (FRET)-based competitive displacement aptamer assay formats. The assay schemes involve FRET in which the analyte (target) is quencher (Q)-labeled and previously bound by a fluorophore (F)-labeled aptamer such that when unlabeled analyte is added to the system and excited by specific wavelengths of light, the fluorescence intensity of the system changes in proportion to the amount of unlabeled analyte added. Alternatively, the aptamer can be Q-labeled and previously bound to an F-labeled analyte so that when unlabeled analyte enters the system, the fluorescence intensity also changes in proportion to the amount of unlabeled analyte.

Abstract: The present invention includes a method of observing and evaluating bacterial infections within the lymph nodes of animals presented for harvest comprising: inoculating at one or more sites of an animal a known amount of a pathogen, wherein the one or more inoculation sites comprise lymph node drainage areas, and at one or more time points obtaining one or more lymph node biopsies to determine the extent of the pathogen in the lymph nodes.

Abstract: The invention relates to a salmonella selective enrichment medium containing tetrathionate or a salt thereof and at least one type of magnesium salt and to a method for detecting salmonella in a sample by using said selective enrichment medium.

Abstract: A process for detecting cells from a sample, comprising the following steps: (a) applying the sample or a fraction of the sample in liquid phase in a direction of flow to a porous, generally two-dimensional support with pores having on the surface thereof at least one binding molecule specific for the cells to be detected or for fragments of such cells; (b) allowing the cells to be detected or of fragments of such cells to enter from the sample or sample fraction into the pores of said porous, generally two-dimensional support, said pores having such a mean pore size that the cells or fragments to be detected are able to enter into the pores; (c) retaining the cells or fragments to be detected by at least one binding molecule specific for the cells or fragments to be detected; (d) performing an optical read-out method on said substantially two-dimensional support by an imaging method, optionally after the cells or cell fragments to be detected have been labeled with a labeling agent; wherein (e) the optica

Abstract: The present invention relates a method for vaccinating a mammal to produce an antibody against Enterobacteriaceae infection caused by Klebsiella pneumoniae, Salmonella typhi, or E. coli in central nervous system and/or peripheral blood circulation, which comprises administering an effective amount of an OmpK36/homologues or its derivatives to the mammal.

Abstract: Devices and methods for the detection of target molecules are disclosed. Devices and methods for detecting food-borne target molecules are also disclosed.

Abstract: A kit for dot immunogold directed filtration assay including a dot immunogold directed filtration card, a detection probe labeled by nano colloidal gold or latex beads, a negative standard, a positive standard, and a cleaning solution.

Abstract: The present invention relates to processes for the rapid detection, semi-quantification and quantification of live microorganisms in solutions or suspensions using immunomagnetic particles, without requiring pre-enrichment through culture of the microorganism. The invention also relates to kits for carrying out said processes and to the quantification of the microorganisms detected by means of automated biosensor equipment.

Abstract: The present invention provides multifunctional popcorn-shaped gold nanomaterial for sensing, treatment and for a unique way of monitoring treatment effectiveness during therapy process of different human cancer cells and pathogenic bacteria. It consists of the following steps 1) Synthesis of popcorn-shaped gold nanoparticles of different sizes. 2) Design of multifunctional popcorn-shaped gold nanoparticle for targeted sensing, therapy and monitoring therapy effectiveness for different human cancer cells (liver, breast, skin and prostate) and drug resistance bacteria. 3) Design of portable SERS sensor for cancer detection, treatment and for monitoring treatment effectiveness using the same instrument. and 4) Application of our approach to detect and kill MDRB from food sample.

Abstract: The invention described herein provides methods for the detection of target particles, such as pathogens, soluble antigens, nucleic acids, toxins, chemicals, plant pathogens, blood borne pathogens, bacteria, viruses and the like. Also described is an emittor cell comprising a receptor, wherein the receptor can be an antibody or an Fc receptor, and an emittor molecule for the detection of a target particle in a sample wherein the target particle to be detected is bound by one or more receptors on the emittor cell. Also provided are optoelectronic sensor devices for detecting a target particle in a sample, including in a plurality of samples.

Abstract: The invention provides methods, devices and kits for rapid detection and identification of one or more live target microorganisms in a liquid sample or grown on plates containing nutrient media. The invention includes mixing one or more target microorganisms with one or more aptamers and/or one or more antibodies, each conjugated to a reporter compound and specific for a first site on one or more target microorganisms to form a mixture. The mixture is placed on a permeable membrane having immobilized thereon one or more aptamers linked to an amine compound, and/or one or more antibodies, each specific for a second site on one or more target microorganisms or a site on the aptamer conjugate and/or antibody conjugate. A detection solution is added to the membrane and detection and identification of one or more target microorganisms is achieved in about one hour or less.

Abstract: Devices and methods for the detection of antigens are disclosed. Devices and methods for detecting food-borne pathogens are disclosed.

Abstract: The present invention relates to a Salmonella strain suitable as a marker vaccine having an inactivated gene.

Abstract: A live attenuated derivative of a pathogenic bacterium intended for use as a vaccine.

Abstract: Devices and methods for the detection of antigens are disclosed. Devices and methods for detecting food-borne pathogens are disclosed.

Abstract: The present disclosure provides systems for the rapid and sensitive detection of organisms and molecules in samples. Reactants that produce Raman-active products are used in combination with Raman light scattering. The present disclosure can also be used to measure enzyme-kinetics.

Abstract: The present invention is directed to satisfying the need to detect microbial contamination of food products. The described bioseparator/bioreactor coupled with an optical/electrochemical biosensor was able to specifically detect E. coli O157:H7 from 8.8×101 to 8.8×106 CFU/ml in 2.5 hours without any enrichment. Using this invention, concentrations of S. Typhimurium ranging from 8.6×102 to 8.6×106 CFU/ml in pure culture were detected in 2 hours without any enrichment. The invention may also be used for the detection of S. Seftenberg, which has the same sensitivity as S. Typhimurium. Other pathogens such as L. monocytogenes and S. Heidleberg did not interfere with the detection. The optimum inner diameter of the 25 cm long column for the detection of E. coli O157:H7 is 250 ?m.

Abstract: The present invention relates to vaccines, in particular, to an attenuated gram-negative cell comprising the SPI2 gene locus, wherein at least one gene of the SPI2 locus is inactivated, wherein said inactivation results in an attenuation/reduction of virulence compared to the wild type of said cell, and to a carrier for the presentation of an antigen to a host, which carrier is said attenuated gram-negative cell, wherein said cell comprises at least one heterologous nucleic acid molecule comprising a nucleic acid sequence coding for said antigen, wherein said cell is capable of expressing said nucleic acid molecule or capable of causing the expression of said nucleic acid molecule in a target cell.

Abstract: Disclosed is a diagnostic test system for detecting Salmonella infections in a sample using monoclonal antibodies specific for SipC-protein.

Abstract: This invention concerns novel antibiotic peptide and peptide derivates, especially for use in medicine. Further, the invention relates to compositions and methods for killing microbes, like bacteria or fungus, and methods to treat microbial infections. The invention further relates to a method for drug screening analysis. The peptides and peptide derivates have the general formula Sub1-X1 N X2 X3 P V Y I P X4 X5 R P P H P-Sub2 wherein X1 is a neutral or positively charged moiety, X2 is a polar or positively charged moiety, X3 is a positively charged moiety, X4 is a polar or positively charged moiety, X5 is a proline or a proline derivate, Sub1 being the free or modified N-terminus, and Sub2 being the free or modified C-terminus.

Abstract: Disclosed are an immunoassay device which comprises a labeled substance dotting portion and a specimen dotting portion provided thereon, and an immunoassay method using the device.

Abstract: The present invention relates to vaccines, in particular, to an attenuated gram-negative cell comprising the SPI2 gene locus, wherein at least one gene of the SPI2 locus is inactivated, wherein said inactivation results in an attenuation/reduction of virulence compared to the wild type of said cell, and to a carrier for the presentation of an antigen to a host, which carrier is said attenuated gram-negative cell, wherein said cell comprises at least one heterologous nucleic acid molecule comprising a nucleic acid sequence coding for said antigen, wherein said cell is capable of expressing said nucleic acid molecule or capable of causing the expression of said nucleic acid molecule in a target cell.

Abstract: Methods for detecting bacteria are provided. A plurality of particles, each of which is coated with a capture agent having an affinity for the bacteria, is combined with the sample to form a plurality of analyte-particle complexes. The system also includes a transport arrangement for transporting the sample to the sensor surface, and optionally a magnetic field inducing structure constructed and arranged to establish a magnetic field at and adjacent to the sensor surface. The resonant sensor produces a signal corresponding to an amount of analyte-particle complexes that are bound to the sensor surface.

Abstract: A method for specific detection of the presence of Salmonella spp. in a sample that is suspected to contain Salmonella spp. and which further comprises one or more other microorganism(s).

Abstract: A method for detecting a microorganism in a sample containing or suspected of containing said microorganism, said method comprising: i) contacting said sample with a binding agent for said microorganism, wherein the binding agent is immobilised on a support, and allowing the binding agent to bind microorganism to form an immobilised complex; ii) separating the sample from the immobilised complex; iii) contacting the support with a liquid medium and a reagent which removes which eliminates, inactivates or inhibits a contaminant that may interfere with a microorganism detection assay; and iv) detecting microorganisms retained on the support using said microorganism detection assay.

Abstract: The present invention provides a method for the treatment and/or prevention of bacterial infection caused by klebsiella pneumoniae and other gram-negative bacteria in central nervous system and/or peripheral blood circulation in a mammal by administering effective amount of outer membrane protein A (OmpA) or its derivatives to a mammal. Also provided are a method for vaccinating a mammal to produce an antibody against bacterial infection caused by Enterobacteriaceae family in central nervous system and/or peripheral blood circulation and a method of detecting or diagnosing bacterial infections caused by Enterobacteriaceae family in central nervous system and/or peripheral blood circulation in a mammal.

Abstract: The invention enables efficient, rapid, and sensitive enumeration of living cells by detecting microscopic colonies derived from in situ cell division using large area imaging. Microbial enumeration tests based on the invention address an important problem in clinical and industrial microbiology—the long time needed for detection in traditional tests—while retaining key advantages of the traditional methods based on microbial culture. Embodiments of the invention include non-destructive aseptic methods for detecting cellular microcolonies without labeling reagents. These methods allow for the generation of pure cultures which can be used for microbial identification and determination of antimicrobial resistance.

Abstract: The present invention is directed to mutant Salmonella sp. having a genetically modified msbB gene in which the mutant Salmonella is capable of targeting solid tumors. The present invention further relates to the therapeutic use of the mutant Salmonella for growth inhibition and/or reduction in volume of solid tumors.

Abstract: The invention provides a vaccine for immunizing poultry and other animals against infection by a gram-negative bacteria, and a method of immunizing an animal using the vaccine. The vaccine may contain purified siderophore receptor proteins derived from a single strain or species of gram-negative bacteria or other organism, which are cross-reactive with siderophores produced by two or more strains, species or genera of gram-negative bacteria. The invention further provides a process for isolating and purifying the siderophore receptor proteins, and for preparing a vaccine containing the proteins. Also provided is a method for diagnosing gram-negative sepsis.

Abstract: The present invention relates to a method for the early diagnosis of cancer in a subject, which is based on determination of the relative fraction of microorganisms derived from the feces of the subject, as compared to the total count of microorganisms in the same of corresponding sample. This relation has been found to be indicative of the presence or absence of cancer in said subject. After isolating at least one of the microorganisms from the fecal sample to form a so-called diagnostic sample, and incubating, for a sufficient time, the diagnostic sample with cancer cells. The microorganism being in an amount corresponding to its relative fraction in the original fecal sample, the cancerolytic activity of the microorganism/s is indicative to the presence or absence of cancer cells in the subject. The cancerolytic activity is expressed by terms of a tumor cell necrosis index (TCNI).

Abstract: Described herein is the identification of a novel Salmonella enterica serovar Enteritidis locus that serves as a marker for DNA-based identification of this bacterium. In addition, three primer pairs derived from this locus that may be used in a nucleotide detection method to detect the presence of the bacterium are also disclosed herein.

Abstract: A method for determining a concentration of a contaminant in a first sample, the method including producing the first sample, including adding a plurality of immuno-beads to a test substance; exposing a crystal microbalance immunosensor to the first sample; determining a change in a first motional resistance of the crystal microbalance immunosensor following exposure to the first sample (?R1); and determining the concentration of the contaminant in the first sample according to ?R1.

Abstract: The invention relates to a salmonella selective enrichment medium containing tetrathionate or a salt thereof and at least one type of magnesium salt and to a method for detecting salmonella in a sample by using said selective enrichment medium.

Abstract: The present invention provides novel methods for producing nucleic acid fragment libraries that express highly diverse peptides or protein domains and, in particular, methods for producing nucleic acid fragment libraries wherein the nucleic acid fragments of the libraries are derived from two or more diverse characterized genomes.

Abstract: Methods and compositions for detecting and localizing light originating from a mammal are disclosed. Also disclosed are methods for targeting light emission to selected regions, as well as for tracking entities within the mammal. In addition, animal models for disease states are disclosed, as are methods for localizing and tracking the progression of disease or a pathogen within the animal, and for screening putative therapeutic compounds effective to inhibit the disease or pathogen.

Abstract: A biosensor includes a substrate with a layer of receptive material disposed thereon. The receptive material is specific for an analyte of interest. A pattern of active and deactivated areas of the receptive material are defined in the receptive material layer by a masking process.

Abstract: Monolithic bioelectronic devices for the detection of ammonia includes a microorganism that metabolizes ammonia and which harbors a lux gene fused with a heterologous promoter gene stably incorporated into the chromosome of the microorganism and an Optical Application Specific Integrated Circuit (OASIC). The microorganism is generally a bacterium.

Abstract: Methods and compositions for detecting and localizing light originating from a mammal are disclosed. Also disclosed are methods for targeting light emission to selected regions, as well as for tracking entities within the mammal. In addition, animal models for disease states are disclosed, as are methods for localizing and tracking the progression of disease or a pathogen within the animal, and for screening putative therapeutic compounds effective to inhibit the disease or pathogen.

Abstract: The present application discloses the preparation and use of attenuated tumor-targeted bacteria vectors for the delivery of one or more primary effector molecule(s) to the site of a solid tumor. The primary effector molecule(s) of the invention is used in the methods of the invention to treat a solid tumor cancer such as a carcinoma, melanoma, lymphoma, or sarcoma. The invention relates to the surprising discovery that effector molecules, which may be toxic when administered systemically to a host, can be delivered locally to tumors by attenuated tumor-targeted bacteria with reduced toxicity to the host. The application also discloses to the delivery of one or more optional effector molecule(s) (termed secondary effector molecules) which may be delivered by the attenuated tumor-targeted bacteria in conjunction with the primary effector molecule(s).

Abstract: The present invention relates to an immunogenic conjugate comprising a carrier molecule coupled to an autoinducer of a Gram negative bacteria. The immunogenic conjugate, when combined with a pharmaceutically acceptable carrier, forms a suitable vaccine for mammals to prevent infection by the Gram negative bacteria. The immunogenic conjugate is also used to raise and subsequently isolate antibodies or binding portions thereof which are capable of recognizing and binding to the autoinducer. The antibodies or binding portions thereof are utilized in a method of treating infections, a method of inhibiting autoinducer activity, and in diagnostic assays which detect the presence of autoinducers or autoinducer antagonists in fluid or tissue samples.

Abstract: The invention relates to a vaccine comprising a bacterium attenuated by a non-reverting mutation in a gene encoding a protein which promotes folding of extracytoplasmic proteins. Such mutations were initially identified as being useful in vaccines from a bank of randomly inserted, transposon mutants in which attenuation was determined as a reduction in virulence of the organism in the mouse model of infection. Site directed mutation of the gene results in a strain which shows at least 4 logs of attenuation when delivered both orally and intravenously. Animals vaccinated with such a strain are protected against subsequent challenge with the parent wild type strain. Finally, heterologous antigens such as the non-toxic and protective, binding domain from tetanus toxin, fragment C, can be delivered via the mucosal immune system using such strains of bacteria. This results in the induction of a fully protective immune response to subsequent challenge with native tetanus toxin.

Abstract: The present invention provides a method for immobilizing a polysaccharide (PS) to a solid surface, said polysaccharide having a keto-carboxy group (—C(?O)—COOH) or a ketal or hemiketal group corresponding thereto, e.g. derived from KDO (2-keto-3-deoxy-D-manno-octonic acid)), the method comprising the steps of: (a) forming a covalent bond between the carboxy group of the polysaccharide and a reporter molecule (RM), thereby forming a polysaccharide-reporter molecule conjugate (PS-RM), said reporter molecule comprising a recognition/substrate site (e.g. biotin or an anthraquinone); and (b) immobilizing the polysaccharide-report molecule conjugate by forming a specific bond (e.g. by photocoupling or formation of an affinity pair) between the recognition/substrate site of said reporter molecule and a reception/reagent site of the solid surface. The present invention also provides a solid surface thus obtainable and the use of such solid surfaces for diagnostic purposes, e.g.

Abstract: A method of delivering a protein to domestic poultry by administering to the poultry by whole body spray an effective amount of a live avirulent derivative of an enteropathogenic bacterium that contains a recombinant gene encoding the protein.