Abstract: A rapid cooling system for processing food is disclosed which includes a heat exchanger adapted to receive a first coolant (Coolant-I) at a first temperature and eject Coolant-I at a second temperature, a cooling chamber disposed within the heat exchanger in thermal communication with the heat exchanger, the cooling chamber includes a first inlet adapted to receive a product at an elevated temperature (T1), a second inlet adapted to receive a second coolant (Coolant-II) at a low temperature (T2), and an outlet adapted to release a combination of the product and Coolant-II at a low temperature (Tout) and pressure (Pout), wherein cooling of the product from T1 to Tout does not cause a phase change in the product.

Abstract: A rapid cooling system for processing food is disclosed which includes a heat exchanger adapted to receive a first coolant (Coolant-I) at a first temperature and eject Coolant-I at a second temperature, a cooling chamber disposed within the heat exchanger in thermal communication with the heat exchanger, the cooling chamber includes a first inlet adapted to receive a product at an elevated temperature (T1), a second inlet adapted to receive a second coolant (Coolant-II) at a low temperature (T2), and an outlet adapted to release a combination of the product and Coolant-II at a low temperature (Tout) and pressure (Pout), wherein cooling of the product from T1 to Tout does not cause a phase change in the product.

Abstract: An integrated microluminometer includes an integrated circuit chip having at least one n-well/p-substrate junction photodetector for converting light received into a photocurrent, and a detector on the chip for processing the photocurrent. A distributed electrode configuration including a plurality of spaced apart electrodes disposed on an active region of the photodetector is preferably used to raise efficiency.

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: Bioelectronic devices for the detection of estrogen include a collection of eukaryotic cells which harbor a recombinant lux gene from a high temperature microorganism wherein the gene is operably linked with a heterologous promoter gene. A detectable light-emitting lux gene product is expressed in the presence of the estrogen and detected by the device.

Abstract: Disclosed are monolithic bioelectronic devices comprising a bioreporter and an OASIC. These bioluminescent bioreporter integrated circuit are useful in detecting substances such as pollutants, explosives, and heavy-metals residing in inhospitable areas such as groundwater, industrial process vessels, and battlefields. Also disclosed are methods and apparatus for detection of particular analytes, including ammonia and estrogen compounds.

Abstract: Disclosed are bioluminescent bioreporter integrated circuit devices that detect selected analytes in fluids when implanted in the body of an animal. The device comprises a bioreporter that has been genetically engineered to contain a nucleic acid segment that comprises a cis-activating response element that is responsive to the selected substance operably linked to a gene encoding a bioluminescent reporter polypeptide. In preferred embodiments, the target analyte is glucose, glucagons, or insulin. Exposure of the bioreporter to the target substance causes the response element to up-regulate the nucleic acid sequence encoding the reporter polypeptide to produce a luminescent response that is detected and quantitated. In illustrative embodiments, the bioreporter device is encapsulated on an integrated circuit that is capable of detecting the emitted light, processing the resultant signal, and then remotely reporting the results.

Abstract: Disclosed are methods and devices for detection of bacteria based on recognition and infection of one or more selected strains of bacteria with bacteriophage genetically modified to cause production of an inducer molecule in the bacterium following phage infection. The inducer molecule is released from the infected bacterium and is detected by genetically modified bacterial bioreporter cells designed to emit bioluminescence upon stimulation by the inducer. Autoamplification of the bioluminescent signal permits detection of low levels of bacteria without sample enrichment. Also disclosed are methods of detection for select bacteria, and kits for detection of select bacteria based on the described technology.

Abstract: This invention provides a means of detecting unlabeled DNA or RNA following hybridization to an immobilized, labeled DNA probe. The immobilized DNA oligomers (probes) form a hairpin structure containing a unique restriction site that persists only when hybridization to the internal target-hybridization sequence has not occurred. Restriction enzyme digestion of unhybridized, labeled DNA probes at or above room temperature detaches the label from the surface and the label is washed away. The hairpin structure is disrupted when hybridization of the internal target-hybridization sequence occurs, removing the restriction site and preventing cleavage. In this case, the labels on target-hybridized probes remain bound to the substrate and are detected. In its preferred embodiment, a bioluminescent label is located on one end of the probe and a surface attachment moiety is on the other.

Abstract: A method for detecting the presence of a microorganism in an environmental sample involves contacting the sample with a supercritical fluid to isolate nucleic acid from the microorganism, then detecting the presence of a particular sequence within the isolated nucleic acid. The nucleic acid may optionally be subjected to further purification.

Abstract: A method for detecting the presence of a microorganism in an environmental sample involves contacting the sample with a supercritical fluid to isolate nucleic acid from the microorganism, then detecting the presence of a particular sequence within the isolated nucleic acid. The nucleic acid may optionally be subjected to further purification.