Abstract: Systems, methods and media for transfection are provided. In an example embodiment, a method of printing layered arrays of spots onto a substrate includes printing a first array of spots onto the substrate and allowing the first array of spots to dry. The method includes printing, over the first array of spots, a second array of spots, with the spots of the second array being at least partially coincident with the spots of the first array, and allowing the second array of spots to dry. The method may include printing, over the second array of spots, a third array of spots, the spots of the third array being at least partially coincident with the spots of the second array, and allowing the third array of spots to dry.

Abstract: The invention provides a method of printing, onto a substrate (12), an array (14) of spots of reagent compositions for use in a chemical and/or biochemical analysis. The method includes displacing an array of reagent composition containing capillary tubes (22) arranged alongside one another from an inoperative position to an operative position in which open ends of the capillary tubes (22) simultaneously impinge against a substrate and thereafter displacing the array of tubes (22) from the operative position back to the inoperative position. The invention extends to a printing apparatus (10), a method of printing a layered array of spots of reagent compositions, a method of introducing reagent compositions into the tubes, a reagent introducing device for introducing reagent compositions into the tubes and a printing installation which includes the printing apparatus (10) and the reagent introducing device.

Abstract: The invention provides a method of printing, onto a substrate (12), an array (14) of spots of reagent compositions for use in a chemical and/or biochemical analysis. The method includes displacing an array of reagent composition containing capillary tubes (22) arranged alongside one another from an inoperative position to an operative position in which open ends of the capillary tubes (22) simultaneously impinge against a substrate and thereafter displacing the array of tubes (22) from the operative position back to the inoperative position. The invention extends to a printing apparatus (10), a method of printing a layered array of spots of reagent compositions, a method of introducing reagent compositions into the tubes, a reagent introducing device for introducing reagent compositions into the tubes and a printing installation which includes the printing apparatus (10) and the reagent introducing device.

Abstract: The invention provides a method of printing, onto a substrate (12), an array (14) of spots of reagent compositions for use in a chemical and/or biochemical analysis. The method includes displacing an array of reagent composition containing capillary tubes (22) arranged alongside one another from an inoperative position to an operative position in which open ends of the capillary tubes (22) simultaneously impinge against a substrate and thereafter displacing the array of tubes (22) from the operative position back to the inoperative position. The invention extends to a printing apparatus (10), a method of printing a layered array of spots of reagent compositions, a method of introducing reagent compositions into the tubes, a reagent introducing device for introducing reagent compositions into the tubes and a printing installation which includes the printing apparatus (10) and the reagent introducing device.

Abstract: The invention provides a method of printing, onto a substrate (12), an array (14) of spots of reagent compositions for use in a chemical and/or biochemical analysis. The method includes displacing an array of reagent composition containing capillary tubes (22) arranged alongside one another from an inoperative position to an operative position in which open ends of the capillary tubes (22) simultaneously impinge against a substrate and thereafter displacing the array of tubes (22) from the operative position back to the inoperative position. The invention extends to a printing apparatus (10), a method of printing a layered array of spots of reagent compositions, a method of introducing reagent compositions into the tubes, a reagent introducing device for introducing reagent compositions into the tubes and a printing installation which includes the printing apparatus (10) and the reagent introducing device.

Abstract: A method for imaging features on a substrate, comprising scanning the substrate and producing an image thereof, overlaying a grid model on the image, fitting the grid model to the locations of at least some of the features on the image, and extracting images of the features.

Abstract: The invention provides a method of printing, onto a substrate (12), an array (14) of spots of reagent compositions for use in a chemical and/or biochemical analysis. The method includes displacing an array of reagent composition containing capillary tubes (22) arranged alongside one another from an inoperative position to an operative position in which open ends of the capillary tubes (22) simultaneously impinge against a substrate and thereafter displacing the array of tubes (22) from the operative position back to the inoperative position. The invention extends to a printing apparatus (10), a method of printing a layered array of spots of reagent compositions, a method of introducing reagent compositions into the tubes, a reagent introducing device for introducing reagent compositions into the tubes and a printing installation which includes the printing apparatus (10) and the reagent introducing device.

Abstract: The invention provides a method of printing, onto a substrate (12), an array (14) of spots of reagent compositions for use in a chemical and/or biochemical analysis. The method includes displacing an array of reagent composition containing capillary tubes (22) arranged alongside one another from an inoperative position to an operative position in which open ends of the capillary tubes (22) simultaneously impinge against a substrate and thereafter displacing the array of tubes (22) from the operative position back to the inoperative position. The invention extends to a printing apparatus (10), a method of printing a layered array of spots of reagent compositions, a method of introducing reagent compositions into the tubes, a reagent introducing device for introducing reagent compositions into the tubes and a printing installation which includes the printing apparatus (10) and the reagent introducing device.

Abstract: The present invention relates to the identification of human host factors involved in the early stage of HIV infection. Furthermore, it relates to the use of the identified genes for the elucidation of the mechanism of HIV-infection, as drug targets, and for identifying a compound useful in the treatment of HIV.

Abstract: A method for imaging features on a substrate, comprising scanning the substrate and producing an image thereof, overlaying a grid model on the image, fitting the grid model to the locations of at least some of the features on the image, and extracting images of the features.

Abstract: Resistive-sensors are provided wherein networks or nanoframeworks of conducting polymer nanowires are electrochemically grown from pre-polymer solutions in the junction gap located between electrode pairs.

Abstract: The present invention relates to a method of detecting and/or quantifying expression of a target protein candidate in a cell, and to a method of identifying a target protein of a small molecule modulator.

Abstract: The present invention relates to a method for identifying compounds that affect a transport of a receptor of interest through a specific membrane trafficking pathway mediated by said receptor within the context of a generic membrane trafficking pathway, which generic pathway is not mediated by said receptor, characterised by the following steps: d) monitoring the transport of the receptor of interest in a cell in the presence of the compound, wherein the receptor is labelled with a first marker, e) monitoring the transport of a second marker through the generic membrane trafficking pathway in a cell in the presence of the compound, f) comparing the results obtained from steps a) and b) and thereby identifying a compound affecting the specific membrane trafficking pathway. Furthermore it relates to the generation of a compound database using the method according to the invention as well as to the compound database itself.

Abstract: The present invention provides a new approach for the treatment of G-protein coupled receptor based disease. This approach comprises altering the physiology of G-protein coupled receptor based responses by exerting chemical control over the cellular distribution of the receptor. This approach allows a method for phenotypic screening for candidate compounds which disrupt GPCR distribution signaling activity and are therefore candidates for the treatment of GPCR related conditions. Compounds that create an altered distribution of GPCR upon exposure to the cell are identified. The method then uses these molecules to alter physiology through their effect on receptor distribution and reduction to practice is demonstrated in an ex-vivo model of G-protein coupled receptor activity.

Abstract: This invention relates to immunoglobulin molecules comprising light chain (VL) chimeric variable domains, heavy chain (VH) chimeric variable domains, e.g., scFv antibodies that are expressed at high levels within a host cell, preferably within particular cellular compartments such as, e.g., cytosol or apoplast. The VL, VH and scFv antibody molecules comprise framework scaffolds of particularly preferred framework regions. This invention also relates to nucleic acid molecules encoding the immunoglobulin molecules of this invention, vectors expressing the immunoglobulin molecules, hosts transformed with the nucleic acid molecules and vectors, and methods of using the immunoglobulin molecules. Also described are immunoglobulin libraries as well as host cells, including transgenic plants, expressing the VL, VH or scFv antibody molecules of this invention.

Abstract: The present invention is drawn to a fusion protein containing at least one binding domain that specifically recognizes an eptitope of a plant pathogen and at least one additional domain made from a protein or peptide sequence which is toxic to the pathogen or detrimental the replication, transmission or life cycle of the pathogen. The present invention is further drawn to a pathogenocide made from the binding domain, a cellular targeting sequence and/or membrane localization sequence that leads to membrane anchoring. The present invention is further drawn to nucleotide sequences encoding fusion proteins and pathogenocides and to vectors containing the nucleotide sequences; as well as methods of making the fusion proteins and pathogencides and methods of making pathogen resistant plants, plant cells, or plant tissues with the fusion proteins and pathogenocides.