Abstract: Array assay devices and methods for using the same in array based assays are provided. The subject devices are characterized by having a base dimensioned to hold a substrate having at least one array, a cover dimensioned to cover the substrate and a snap-fit for holding the cover and the base together to enclose a space between the base and the cover. The subject invention also includes methods for performing an array assay. In the subject methods, a subject device is provided and a substrate having at least one array is positioned on the base. The snap-fit is engaged to hold the cover and the base together to enclose a space between the base and the cover. Next, a sample is contacted with the at least one array and an array assay is performed. The subject invention also includes kits which include the subject devices.

Abstract: Devices and methods are disclosed for containing and processing samples on the surface of supports. Biopolymer features are attached to the surfaces of the supports. A device in accordance with the invention comprises a housing and a support confined by the housing. The housing comprises a well having walls and at least one wall extending from the edge of the well. The height of the walls of the well is at least great enough, and the design of the at least one wall is such, that liquid contained in the well is not drawn out of the well to any substantial degree by surface tension or small movements or small mechanical vibrations. In one embodiment, the at least one wall is designed such that corners thereof are curved or are distant from the edge of the well to substantially eliminate wicking of liquid from the well. Also disclosed are methods for mixing materials on the surface of a support. A sample is incubated with the surface of the support of the aforementioned device.

Abstract: Apparatus and methods are disclosed for processing samples on the surface of supports that are contained in support housings. Biopolymer features are attached to the surfaces of the supports. An apparatus comprises an input element, a holding device for holding a plurality of support housings, one or more fluid dispensing stations, and an output element. Each of the support housings contains a support having attached thereto a plurality of biopolymer features. The holding device is movably mounted with respect to other components of the apparatus. The holding device is adapted to receive a support housing from the input element. The output element is adapted to receive a support housing from the holding device. The apparatus is adapted to index each support housing for a predetermined operation. In use, each of the support housings is moved to one or more processing stations by means of the movable holding device. The location and identity of each of the support housings is indexed.

Abstract: Apparatus and methods are disclosed for storing a plurality of supports having a plurality of chemical compounds bound to the surfaces of the supports. In the apparatus, a mechanism for diffusively introducing pressurized gas into the apparatus is in fluid communication with an outlet element comprising a plurality of openings. A holding chamber for the supports is in fluid communication with the outlet element. The outlet element and the holding chamber are disposed such that gas flow through the chamber is substantially uniform and unidirectional. The holding chamber comprises an opening sufficient to permit movement of the supports to and from the holding chamber and comprises a plurality of holding elements for holding the supports.

Abstract: Array assay devices and methods for using the same in array based assays are provided. The subject devices are characterized by having a base dimensioned to hold a substrate having at least one array, a cover dimensioned to cover the substrate and a snap-fit for holding the cover and the base together to enclose a space between the base and the cover. The subject invention also includes methods for performing an array assay. In the subject methods, a subject device is provided and a substrate having at least one array is positioned on the base. The snap-fit is engaged to hold the cover and the base together to enclose a space between the base and the cover. Next, a sample is contacted with the at least one array and an array assay is performed. The subject invention also includes kits which include the subject devices.

Abstract: Array assay devices and methods for using the same in array based assays are provided. The subject devices are characterized by having a bottom surface, a substrate receiving element and a compression element for holding the bottom surface in a fixed position relative to a substrate received by the receiving element. The subject invention also includes methods for performing an array assay. In the subject methods, a subject device is provided and a substrate having at least one array is placed in the receiving element. The bottom surface of the device is compressed by the compression element so as to fix its position relative to the substrate and a sample is contacted to the at least one array. The subject invention also includes kits which include the subject devices.

Abstract: Array assay devices and methods for using the same in array based assays are provided. The subject array assay devices are characterized by having a housing having a first end and a second end, wherein the first end includes a substrate insertion slot dimensioned to be substantially flush with a substrate having at least one array inserted therethrough. The subject device may also include a sealing element for forming seals around a plurality of arrays on the substrate to provide individual assay areas. The subject invention also includes methods for performing an array assay. In the subject methods, a subject array assay device is provided, a substrate having at least one array is inserted through the substrate insertion slot, a sample is contacted to the at least one array and an array assay is performed. The subject invention also includes kits for use in practicing the subject methods.

Abstract: Array assay devices and methods for using the same in array based assays are provided. The subject array assay devices are characterized by having a substrate having at least one array sealed between a rigid bottom surface and a cover, wherein the rigid bottom surface and the cover are sealed to each other by a frangible seal. The subject device may also include a sealing element for forming seals around a plurality of arrays to provide individual assay areas. The subject invention also includes methods for performing an array assay. In the subject methods, a subject array assay device is provided, a sample is contacted to the at least one array and an array assay is performed. The frangible seal may then be broken to expose the at least one array. The subject invention also includes kits which include the subject devices.

Abstract: Apparatus and methods are disclosed for storing a plurality of supports having a plurality of chemical compounds bound to the surfaces of the supports. In the apparatus, a mechanism for diffusively introducing pressurized gas into the apparatus is in fluid communication with an outlet element comprising a plurality of openings. A holding chamber for the supports is in fluid communication with the outlet element. The outlet element and the holding chamber are disposed such that gas flow through the chamber is substantially uniform and unidirectional. The holding chamber comprises an opening sufficient to permit movement of the supports to and from the holding chamber and comprises a plurality of holding elements for holding the supports.

Abstract: Apparatus and methods are disclosed for processing samples on the surface of supports that are contained in support housings. Biopolymer features are attached to the surfaces of the supports. An apparatus comprises an input element, a holding device for holding a plurality of support housings, one or more fluid dispensing stations, and an output element. Each of the support housings contains a support having attached thereto a plurality of biopolymer features. The holding device is movably mounted with respect to other components of the apparatus. The holding device is adapted to receive a support housing from the input element. The output element is adapted to receive a support housing from the holding device. The apparatus is adapted to index each support housing for a predetermined operation. In use, each of the support housings is moved to one or more processing stations by means of the movable holding device. The location and identity of each of the support housings is indexed.

Abstract: Devices and methods are disclosed for containing and processing samples on the surface of supports. Biopolymer features are attached to the surfaces of the supports. A device in accordance with the invention comprises a housing and a support confined by the housing. The housing comprises a well having walls and at least one wall extending from the edge of the well. The height of the walls of the well is at least great enough, and the design of the at least one wall is such, that liquid contained in the well is not drawn out of the well to any substantial degree by surface tension or small movements or small mechanical vibrations. In one embodiment, the at least one wall is designed such that corners thereof are curved or are distant from the edge of the well to substantially eliminate wicking of liquid from the well. Also disclosed are methods for mixing materials on the surface of a support. A sample is incubated with the surface of the support of the aforementioned device.