Abstract: The present invention relates to a novel isolated whitefly ecdysone receptor polypeptide. The invention also relates to an isolated nucleic acid encoding the whitefly ecdysone receptor polypeptide, to vectors comprising them and to their uses, in particular in methods for modulating gene expression in an ecdysone receptor-based gene expression modulation system and methods for identifying molecules that modulate whitefly ecdysone receptor activity.

Abstract: The present invention relates to the field of biotechnology or genetic engineering. More specifically, the present invention relates to a multiple inducible gene regulation system that functions within cells to simultaneously control the quantitative expression of multiple genes.

Abstract: The present invention relates to a novel isolated whitefly ecdysone receptor polypeptide. The invention also relates to an isolated nucleic acid encoding the whitefly ecdysone receptor polypeptide, to vectors comprising them and to their uses, in particular in methods for modulating gene expression in an ecdysone receptor-based gene expression modulation system and methods for identifying molecules that modulate whitefly ecdysone receptor activity.

Abstract: The present invention relates to a novel isolated whitefly ecdysone receptor polypeptide. The invention also relates to an isolated nucleic acid encoding the whitefly ecdysone receptor polypeptide, to vectors comprising them and to their uses, in particular in methods for modulating gene expression in an ecdysone receptor-based gene expression modulation system and methods for identifying molecules that modulate whitefly ecdysone receptor activity.

Abstract: In the field of current differential protection relays there is a need for improvements in or relating to the protection relays to allow them to accommodate current transformer saturation while maintaining a desired degree of reliability. A method of operating a current differential protection relay following a fault, the protection relay being electrically coupled to a protection zone of an electrical power system, comprises the steps of establishing a fault condition by discriminating between an internal fault inside the protection zone and an external fault outside the protection zone; and modifying the sensitivity of the protection relay according to the nature of the fault condition.

Abstract: The present invention relates to the field of biotechnology or genetic engineering. More specifically, the present invention relates to a multiple inducible gene regulation system that functions within cells to simultaneously control the quantitative expression of multiple genes.

Abstract: Acoustic waves are used to transfer small amounts of fluid in a non-contact manner. Acoustic waves are propagated through a pool of a source fluid in such a manner that causes the ejection of a single micro-droplet from the surface of the pool. The droplet is ejected towards a target with sufficient force to provide for contact of the droplet with the target. Because the fluid is not contacted by any fluid transfer device such as a pipette, the opportunities for contamination are minimized. Methods may be employed to transfer fluids from an array of source sites to an array of target sites, thereby enabling the precise automation of a wide variety of procedures including screening and synthesis procedures commonly used in biotechnology.

Abstract: Acoustic waves are used to transfer small amounts of fluid in a non-contact manner. Acoustic waves are propagated through a pool of a source fluid in such a manner that causes the ejection of a single micro-droplet from the surface of the pool. The droplet is ejected towards a target with sufficient force to provide for contact of the droplet with the target. Because the fluid is not contacted by any fluid transfer device such as a pipette, the opportunities for contamination are minimized. Methods may be employed to transfer fluids from an array of source sites to an array of target sites, thereby enabling the precise automation of a wide variety of procedures including screening and synthesis procedures commonly used in biotechnology.

Abstract: Acoustic waves are used to transfer small amounts of fluid in a non-contact manner. Acoustic waves are propagated through a pool of a source fluid in such a manner that causes the ejection of a single micro-droplet from the surface of the pool. The droplet is ejected towards a target with sufficient force to provide for contact of the droplet with the target. Because the fluid is not contacted by any fluid transfer device such as a pipette, the opportunities for contamination are minimized. Methods may be employed to transfer fluids from an array of source sites to an array of target sites, thereby enabling the precise automation of a wide variety of procedures including screening and synthesis procedures commonly used in biotechnology.

Abstract: Acoustic waves are used to transfer small amounts of fluid in a non-contact manner. Acoustic waves are propagated through a pool of a source fluid in such a manner that causes the ejection of a single micro-droplet from the surface of the pool. The droplet is ejected towards a target with sufficient force to provide for contact of the droplet with the target. Because the fluid is not contacted by any fluid transfer device such as a pipette, the opportunities for contamination are minimized. Methods may be employed to transfer fluids from an array of source sites to an array of target sites, thereby enabling the precise automation of a wide variety of procedures including screening and synthesis procedures commonly used in biotechnology.

Abstract: Acoustic waves are used to transfer small amounts of fluid in a non-contact manner. Acoustic waves are propagated through a pool of a source fluid in such a manner that causes the ejection of a single micro-droplet from the surface of the pool. The droplet is ejected towards a target with sufficient force to provide for contact of the droplet with the target. Because the fluid is not contacted by any fluid transfer device such as a pipette, the opportunities for contamination are minimized. Methods may be employed to transfer fluids from an array of source sites to an array of target sites, thereby enabling the precise automation of a wide variety of procedures including screening and synthesis procedures commonly used in biotechnology.

Abstract: Acoustic waves are used to transfer small amounts of fluid in a non-contact manner. Acoustic waves are propagated through a pool of a source fluid in such a manner that causes the ejection of a single micro-droplet from the surface of the pool. The droplet is ejected towards a target with sufficient force to provide for contact of the droplet with the target. Because the fluid is not contacted by any fluid transfer device such as a pipette, the opportunities for contamination are minimized. Methods may be employed to transfer fluids from an array of source sites to an array of target sites, thereby enabling the precise automation of a wide variety of procedures including screening and synthesis procedures commonly used in biotechnology.

Abstract: Acoustic waves are used to transfer small amounts of fluid in a non-contact manner. Acoustic waves are propagated through a pool of a source fluid in such a manner that causes the ejection of a single micro-droplet from the surface of the pool. The droplet is ejected towards a target with sufficient force to provide for contact of the droplet with the target. Because the fluid is not contacted by any fluid transfer device such as a pipette, the opportunities for contamination are minimized. Methods may be employed to transfer fluids from an array of source sites to an array of target sites, thereby enabling the precise automation of a wide variety of procedures including screening and synthesis procedures commonly used in biotechnology.

Abstract: Acoustic waves are used to transfer small amounts of fluid in a non-contact manner. Acoustic waves are propagated through a pool of a source fluid in such a manner that causes the ejection of a single micro-droplet from the surface of the pool. The droplet is ejected towards a target with sufficient force to provide for contact of the droplet with the target. Because the fluid is not contacted by any fluid transfer device such as a pipette, the opportunities for contamination are minimized. Methods may be employed to transfer fluids from an array of source sites to an array of target sites, thereby enabling the precise automation of a wide variety of procedures including screening and synthesis procedures commonly used in biotechnology.

Abstract: Acoustic waves are used to transfer small amounts of fluid in a non-contact manner. Acoustic waves are propagated through a pool of a source fluid in such a manner that causes the ejection of a single micro-droplet from the surface of the pool. The droplet is ejected towards a target with sufficient force to provide contact of the droplet with the target. Because the fluid is not contacted by any fluid transfer device such as a pipette, the opportunities for contamination are minimized. Methods may be employed to transfer fluids from an array of source sites to an array of target sites, thereby enabling the precise automation of a wide variety of procedures including screening and synthesis procedures commonly used in biotechnology.

Abstract: Invention methods employ the use of acoustic waves to transfer small amounts of fluid in a non-contact manner. In invention methods, acoustic waves are propagated through a separated pool of a source fluid in such a manner that causes the ejection of a single micro-droplet from the surface of the pool. The droplet is ejected towards a target with sufficient force to provide for contact of the droplet with the target. Because the fluid is not contacted by any fluid transfer device such as a pipette, the opportunities for contamination are minimized. Invention methods may be employed to transfer fluids from an array of source sites to an array of target sites, thereby enabling the precision automation of a wide variety of procedures including screening, and synthesis procedures commonly used in biotechnology.

Abstract: The present invention relates to the field of biotechnology or genetic engineering. More specifically, the present invention relates to a multiple inducible gene regulation system that functions within cells to simultaneously control the quantitative expression of multiple genes.

Abstract: Invention methods employ the use of acoustic waves to transfer small amounts of fluid in a non-contact manner. In invention methods, acoustic waves are propagated through a separated pool of a source fluid in such a manner that causes the ejection of a single micro-droplet from the surface of the pool. The droplet is ejected towards a target with sufficient force to provide for contact of the droplet with the target. Because the fluid is not contacted by any fluid transfer device such as a pipette, the opportunities for contamination are minimized. Invention methods may be employed to transfer fluids from an array of source sites to an array of target sites, thereby enabling the precision automation of a wide variety of procedures including screening, and synthesis procedures commonly used in biotechnology.

Abstract: At neutral or messenger wire for a power distribution system comprises a plastics tube supported by metal wires extending along the outside of the tube. Optical fibers arc located within the plastics tube and a coating is applied to the outside of the tube to enhance wear characteristics.

Abstract: This invention relates to an improved method to modulate exogenous gene expression in which an ecdysone receptor complex comprising: a DNA binding domain; a ligand binding domain; a transactivation domain; and a ligand is contacted with a DNA construct comprising: the exogenous gene and a response element; wherein the exogenous gene is under the control of the response element and binding of the DNA binding domain to the response element in the presence of the ligand results in activation or suppression of the gene. The improvement resides in a select group of non-steroid ligands which show improved activity over known ligands.