Abstract: Isolated and purified nucleic acids encoding green fluorescent proteins from Renilla reniformis and the green fluorescent protein encoded thereby are also provided. Mutants of the nucleic acid molecules and the modified encoded proteins are also provided. Compositions and combinations comprising the green fluorescent proteins and/or the luciferase are further provided.
Type:
Grant
Filed:
March 15, 2001
Date of Patent:
September 19, 2006
Assignees:
Prolone, Ltd.
Inventors:
Bruce Bryan, Christopher Szent-Gyorgyi, William Szczepaniak
Abstract: Methods are provided for detecting chemical, biological and/or nuclear attacks in large areas such as cities, states and nations. The system protects the public before significant exposure occurs, utilizing a preventive approach rather than a purely reactive approach. Modeling is conducted to selectively position sensors for the on-going collection of real-time detection data, such as contaminant types and concentrations, weather conditions, terrain data, dispersion data and the like. The detection data is compared to background data and modeled data to detect unsafe contaminant levels and immediately activate a response system. The integrated modeling and simulation component may function to interface with real-time data from the sensors providing integrated real-time plume depiction, prediction, and verification, as well as real-time response and mitigation. This is testable and serves as an advanced redundant scientific control.
Abstract: A method of writing to a magnetic random access memory comprising: producing a magnetic field along a magnetically hard axis of a free layer of a magnetoresistive element; and passing current through the magnetoresistive element to change a direction of magnetization of the free layer by spin momentum transfer. A magnetic random access memory that operates in accordance with the method is also included.
Abstract: A method of manufacturing a thin film of magnetic material, comprises sputtering magnetic material from a target to a substrate to form a thin film of the magnetic material on the substrate, wherein the ratio of sputtering power in Watt to sputtering pressure in mTorr is greater than one. Thin films of magnetic material made according to the method and magnetic storage media including a thin film of magnetic material made according to the method are also included.