Abstract: A device and system for measuring the multidimensional distribution of a sample tagged with a short life fluorescent label. The substance applied to a sample holder can be scanned with an optical point source excitation and read back optical stage. The sample can be excited at each of a plurality of points with a fast, e.g., nanosecond pulse of light. The resulting fluorescence can be detected after the excitation is extinguished. A detection gate window can be optimized to maximize the fluorescence signal detected for a predetermined amount of time.

Abstract: A device and system for measuring the multidimensional distribution of a sample tagged with a short life fluorescent label. The substance applied to a sample holder can be scanned with an optical point source excitation and read back optical stage. The sample can be excited at each of a plurality of points with a fast, e.g., nanosecond pulse of light. The resulting fluorescence can be detected after the excitation is extinguished. A detection gate window can be optimized to maximize the fluorescence signal detected for a predetermined amount of time.

Abstract: A system and method for determining macromolecule crystallization conditions by measuring the polarization anisotropy of a fluorescent probe attached to the macromolecule in solution as a function of a variation in crystallization conditions. In one exemplary embodiment, the concentration of the macromolecule material is varied and the polarization anisotropy as a function of concentration gives an indication of the proximity to crystallization conditions. A pulse illumination system with time gated detection is disclosed to isolate fluorescence response from excitation to reduce noise due to scattered and reflected light. A microassay system is disclosed to allow a complete 96 condition screen with less than 1 micro-liter of solution.

Abstract: A nucleic acid detector and a method of using the detector are disclosed for detecting the presence of target nucleic acid sequences within a sample. The nucleic acid detector comprises a substrate-bound, hairpin-shaped nucleic acid captor in conjunction with a labeled universal nucleic acid detector probe. The captor has a segment that is complementary to at least a portion of the target nucleic acid and is denatured and hybridized to the target under test conditions. Hybridization of the captor to the target maintains the captor in an open conformation which exposes an end portion of the captor to the universal detector probe. The detector probe is able to hybridize with the exposed end portion of the captor if the captor has hybridized with a target. The labeled detector probe is detectable by external detection methods. Detector probes having identical universal detector probe sequences may be used to identify the presence of multiple targets having various target sequences within a sample.

Abstract: A nucleic acid detector and a method of using the detector are disclosed for detecting the presence of target nucleic acid sequences within a sample. The nucleic acid detector comprises a substrate-bound, hairpin-shaped nucleic acid captor in conjunction with a labeled universal nucleic acid detector probe. The captor has a segment that is complementary to at least a portion of the target nucleic acid and is denatured and hybridized to the target under test conditions. Hybridization of the captor to the target maintains the captor in an open conformation which exposes an end portion of the captor to the universal detector probe. The detector probe is able to hybridize with the exposed end portion of the captor if the captor has hybridized with a target. The labeled detector probe is detectable by external detection methods. Detector probes having identical universal detector probe sequences may be used to identify the presence of multiple targets having various target sequences within a sample.

Abstract: This invention relates to a crystal growth apparatus (10) generally used for growing protein crystals wherein a vapor diffusion method is used for growing the crystals. In this apparatus, a precipitating solution and a solution containing dissolved crystalline material are stored in separate vials (12, 14), each having a resilient diaphragm (28) across one end and an opening (24) with a puncturable septum (26) thereacross at an opposite end. The vials are placed in receptacles (30) having a manifold (41) with a manifold diaphragm (42) in contact with the vial diaphragm at one end of the receptacle and a hollow needle (36) for puncturing the septum at the other end of the manifold.

Abstract: A radiation sensitive area detection device is disclosed which comprises a phosphor-containing film capable of receiving and storing an image formed by a pattern of incoming X-rays, UV, or other radiation falling on the film and capable of fluorescing in response to stimulation by a light source in a manner directly proportional to the stored radiation pattern; a light source capable of projecting light or other appropriate electromagnetic wave on the film so as to cause it to fluoresce; means, such as a lens, to focus the fluoresced light coming from the phosphor-containing film after light stimulation; and at least one charged coupled detector or other detecting element capable of receiving and digitizing the pattern of fluoresced light coming from the phosphor-containing film.