Abstract: There is provided a method and apparatus for controlling a toy helicopter in flight. The toy helicopter is powered by a first rotor and a second rotor. A target speed ratio is determined for the speed of the first rotor and the speed of the second rotor.

Abstract: There is provided a method and apparatus for controlling a toy helicopter in flight. The toy helicopter is powered by a first rotor and a second rotor. A target speed ratio is determined for the speed of the first rotor and the speed of the second rotor. The speed of the rotors is adjusted incrementally until the target ratio is achieved.

Abstract: A novel charging interface for rechargeable devices is disclosed herein. The present charging interface has a male plug, formed from circuit board material, which electrically and slidably interconnects with a female socket in at least two orientations. The female socket has electrically conductive biasing means which retain the male plug within the female socket. The charging interface provides electrical contact between the master circuit board of a rechargeable device and a power source.

Abstract: There is provided a method and apparatus for controlling a toy helicopter in flight. The toy helicopter is powered by a first rotor and a second rotor. A target speed ratio is determined for the speed of the first rotor and the speed of the second rotor.

Abstract: There is provided a method and apparatus for controlling a toy helicopter in flight. The toy helicopter is powered by a first rotor and a second rotor. A target speed ratio is determined for the speed of the first rotor and the speed of the second rotor.

Abstract: There is provided a method and apparatus for controlling a toy helicopter in flight. The toy helicopter is powered by a first rotor and a second rotor. A target speed ratio is determined for the speed of the first rotor and the speed of the second rotor. The speed of the rotors is adjusted incrementally until the target ratio is achieved.

Abstract: There is provided a method and apparatus for controlling a toy helicopter in flight. The toy helicopter is powered by a first rotor and a second rotor. A target speed ratio is determined for the speed of the first rotor and the speed of the second rotor.

Abstract: A novel charging interface for rechargeable devices is disclosed herein. The present charging interface has a male plug, formed from circuit board material, which electrically and slidably interconnects with a female socket in at least two orientations. The female socket has electrically conductive biasing means which retain the male plug within the female socket. The charging interface provides electrical contact between the master circuit board of a rechargeable device and a power source.

Abstract: The present invention encompasses a method for identifying ecdysone receptor (EcR) ligands.

Abstract: A method is described for screening retinoid X receptor agonists or antagonists using a retinoid X receptor expressed by a yeast expression system to screen a compound having a retinoid X receptor agonist or antagonist activity. Another screen is described for detecting a compound having retinoid X receptor agonist or antagonist activity by: (1) providing a yeast strain which expresses the retinoic acid receptor and activates a reporter plasmid containing apolipoprotein AI gene site A or a mutated variant thereof; (2) incubating the compound in suitable media and a colorless chromogenic substrate; and (3) examining the media for development of color. Mutated variants of apolipoprotein AI gene site A which respond selectively to the retinoid X receptor or respond to receptors other than RXR.alpha. are also described.

Abstract: A method is described for screening retinoid X receptor agonists or antagonists using a retinoid X receptor expressed by a yeast expression system to screen a compound having a retinoid X receptor agonist or antagonist activity. Another screen is described for detecting a compound having retinoid X receptor agonist or antagonist activity by: (1) providing a yeast strain which expresses the retinoic acid receptor and activates a reporter plasmid containing apolipoprotein AI gene site A or a mutated variant thereof; (2) incubating the compound in suitable media and a colorless chromogenic substrate; and (3) examining the media for development of color. Mutated variants of apolipoprotein AI gene site A which respond selectively to the retinoid X receptor or respond to receptors other than RXR.alpha. are also described.

Abstract: A method is described for screening retinoid X receptor agonists or antagonists using a retinoid X receptor expressed by a yeast expression system to screen a compound having a retinoid X receptor agonist or antagonist activity. Another screen is described for detecting a compound having retinoid X receptor agonist or antagonist activity by: (1) providing a yeast strain which expresses the retinoic acid receptor and activates a reporter plasmid containing apolipoprotein AI gene site A or a mutated variant thereof; (2) incubating the compound in suitable media and a colorless chromogenic substrate; and (3) examining the media for development of color. Mutated variants of apolipoprotein AI gene site A which respond selectively to the retinoid X receptor or respond to receptors other than RXR.alpha. are also described.

Abstract: The present invention describes a novel method for screening retinoid X receptor agonists or antagonists, comprising: using a retinoid X receptor expressed by a yeast expression system to screen a compound having a retinoid X receptor agonist or antagonist activity as well as a screen for detecting a compound having retinoid X receptor agonist or antagonist activity, which comprises the steps of (1) providing a yeast strain which expresses the retinoic acid receptor and activates a reporter plasmid containing apolipoprotein AI gene site A or a mutated variant thereof; (2) incubating the compound in suitable media and a colorless chromogenic substrate; and (3) examining the media for development of color.