Abstract: The biological functionality of living microbial spores is modified using phenotypic engineering to endow the resulting modified spores with novel functionality that extends the usefulness of the spores for a variety of practical applications including, for example, sterility testing, the release of active compounds, and cell-based biosensing systems. An embodiment entails engineering Bacillus spores to acquire synthetic new functions that enable the modified spores to sense and rapidly transduce specific germination signals in their surroundings. The newly acquired functions allow the spores to perform, for example, as self-reporters of cellular viability, self-indicating components of cell-based biosensors, and in other analytical systems. Also disclosed are methods for testing adequate sterility of a system by using engineered spores.

Abstract: The biological functionality of living microbial spores is modified using phenotypic engineering to endow the resulting modified spores with novel functionality that extends the usefulness of the spores for a variety of practical applications including, for example, sterility testing, the release of active compounds, and cell-based biosensing systems. An embodiment entails engineering Bacillus spores to acquire synthetic new functions that enable the modified spores to sense and rapidly transduce specific germination signals in their surroundings. The newly acquired functions allow the spores to perform, for example, as self-reporters of cellular viability, self-indicating components of cell-based biosensors, and in other analytical systems. Also disclosed are methods for testing adequate sterility of a system by using engineered spores.

Abstract: The invention discloses a system to detect and enumerate diverse biological particles through the use of microbial spores that in the presence of a redox substrate rapidly respond to germination signals by forming discrete intracellular fluorescent formazan granules. The disclosed system enables ultrasensitive detection and enumeration of different analytes including microorganisms, viruses, nucleic acids, polypeptides, and natural or man-made particles bearing analytes.

Abstract: An analytical system for rapid detection and identification of different analytes directly from a test sample by mixing test material with a germinogenic source and enzyme-free spores, allowing the mixture to stand for a time to allow analyte-induced spore germination and subsequent de novo activity of an enzyme capable of producing a germinant in the presence of the germinogenic source and detecting the presence of a germination-derived product. The germinant which is formed promotes further spore germination with concomitant additional de novo enzyme synthesis or activation which results in a propagating cascade of analyte-independent germination after which a germination-derived product can be easily detected. The technique is particularly efficient to conduct thousands of parallel assays in an array of microscopic wells.

Abstract: An analytical system for rapid detection and identification of different analytes directly from a test sample by mixing test material with a germinogenic source and enzyme-free spores, allowing the mixture to stand for a time to allow analyte-induced spore germination and subsequent de novo activity of an enzyme capable of producing a germinant in the presence of the germinogenic source and detecting the presence of a germination-derived product. The germinant which is formed promotes further spore germination with concomitant additional de novo enzyme synthesis or activation which results in a propagating cascade of analyte-independent germination after which a germination-derived product can be easily detected. The technique is particularly efficient to conduct thousands of parallel assays in an array of microscopic wells.

Abstract: An analytical system for rapid detection and identification of different analytes directly from a test sample by mixing test material with a germinogenic source and enzyme-free spores, allowing the mixture to stand for a time to allow analyte-induced spore germination and subsequent de novo activity of an enzyme capable of producing a germinant in the presence of the germinogenic source and detecting the presence of a germination-derived product. The germinant which is formed promotes further spore germination with concomitant additional de novo enzyme synthesis or activation which results in a propagating cascade of analyte-independent germination after which a germination-derived product can be easily detected. The technique is particularly efficient to conduct thousands of parallel assays in an array of microscopic wells.

Abstract: An analytical system for rapid detection and identification of different analytes directly from a test sample by mixing test material with a germinogenic source and enzyme-free spores, allowing the mixture to stand for a time to allow analyte-induced spore germination and subsequent de novo synthesis of an enzyme capable of producing a germinant in the presence of the germinogenic source and detecting the presence of a germination-derived product. The germinant which is formed promotes further spore germination with concomitant additional de novo enzyme synthesis which results in a propagating cascade of analyte-independent germination after which a germination-derived product can be easily detected. The technique is particularly efficient to conduct thousands of parallel assays in an array of microscopic wells.

Abstract: A test kit and method for the highly sensitive detection of specific analytes in a sample is provided. The presence of the analyte in the sample results in a decrease in the concentration of a growth inhibiting substance leading to proliferation of cells in the region of the analyte. The presence or absence of the analyte is determined by detecting the presence of increased numbers of cells. Assay sensitivity is accounted for by the exponential amplification of cell number that occurs during cell proliferation in the presence of analyte.

Abstract: A test kit and method for the amplification and detection of specific antigen cells using a probe. The method includes reacting the probe-specific cells with enzyme-conjugated molecules to form separate molecules. The specific antigen cells are mixed with a selected antibiotic which antibiotic is adversely affected by the enzyme in the reporter molecules and incubating the mixture to promote a bacterial chain reaction forming satellite colonies of bacteria microcolonies about the specific cells which amplifies the cells. The method then includes detecting the amplified probe-specific cells by observing the satellite colonies.

Abstract: Fragments of a biopsy sample on the order of about 50 to 5000 cells are preferred for establishing viable tumor cell cultures for purposes such as establishing cell lines, chemotherapeutic assays and the like. Such fragments retain the three-dimensional cellular structure or organization of the original tumor and, therefore, can be cultured more readily. To obtain such fragments suitable for culturing, the biopsy sample can be enzymatically digested in a proteolytic or nucleolytic enzyme, such as collagenase, or by mechanical dissociation, or both where necessary. The fragments can then be suspended in an aqueous medium so that non-aggregated cells (e.g., red blood cells, lymphocytes, macrophages) and cellular debris will form a supernatant while the remaining fragments containing aggregated tumor cells are deposited in a sediment layer.

Abstract: A system and protocol for performing cytotoxicity studies including apparatus and methods for culturing the biopsied cells, for providing oxygenated nutrients, for removing cell-waste products, for introducing a fluorogenic substrate, for introducing cytotoxic agents including anticancer drugs, for measuring the released fluorescence and for measuring intracellular accumulation of fluorescein. Cytotoxicity can be determined by measuring fluorescence in the efflux of the vessel and concommitantly by direct photometric comparisons of the cells in the vessel before and after exposure to the cytotoxic agent.

Abstract: Methods and devices for assaying the sensitivity of of biopsied cells to therapeutic agents are disclosed. Cells are cultured in artificial organs and then contacted with a fluorogenic substrate such that living cells accumulate a characteristic amount of fluorescence. The agent is then introduced into the organ and changes in the fluorescence released by the cells serve as an indicator of the sensitivity of the cells to the agent.

Abstract: This invention relates to the provision of enzyme-macromolecule conjugates by conjugation with polyfunctional reagents in the presence of organic compounds which act as conditioners. Conjugation of enzymes with antibodies in the presence of conditioner yields conjugates with increased immunological specificity. Organic polyamines of either high or low molecular weight are conditioners. Conditioners are especially useful for conjugation of polymeric and unstable enzymes such as .beta.-D-galactosidase. The high degree of immunospecificity and sensitivity achieved with conditioners yields conjugates suitable for detection and quantification of substances, such as IgE, in nanogram quantities in biological fluids with many interfering substances.