Abstract: The invention provides isolated, purified, recombinant receptor binding proteins Gp-6, Gp-10 and Gp-31 from mycobacterium phage L5, and methods for producing these recombinant receptor binding proteins. The invention also provides the use of recombinant receptor binding proteins, including Gp-6, Gp-10 and Gp-31, as probes for the identification and diagnosis of mycobacterium infections and conditions caused by mycobacterium. Further provided by the invention are methods of targeting mycobacteria using recombinant receptor binding proteins, including Gp-6, Gp-10 and Gp-31. Other methods provided by the invention include the use of recombinant receptor binding proteins, such as Gp-10, in diagnostic assays for diseases, such as Johne's disease, in animals, including ruminants.

Abstract: The invention provides isolated, purified, recombinant receptor binding proteins Gp-6, Gp-10 and Gp-31 from mycobacterium phage L5, and methods for producing these recombinant receptor binding proteins. The invention also provides the use of recombinant receptor binding proteins, including Gp-6, Gp-10 and Gp-31, as probes for the identification and diagnosis of mycobacterium infections and conditions caused by mycobacterium. Further provided by the invention are methods of targeting mycobacteria using recombinant receptor binding proteins, including Gp-6, Gp-10 and Gp-31. Other methods provided by the invention include the use of recombinant receptor binding proteins, such as Gp-10, in diagnostic assays for diseases, such as Johne's disease, in animals, including ruminants.

Abstract: A method is disclosed for anchoring a bacteriophage on a substrate, the bacteriophage having a phage amine moiety, the method comprising: producing a free amine terminal moiety on the substrate by chemical modification of the substrate; activating the free amine terminal moiety with a cross-linking agent to produce an active functional group to couple to the phage amine moiety; and anchoring the bacteriophage to the substrate using the active functional group. A sensor is also disclosed comprising: a substrate; an anchor group attached by chemical modification to the substrate and having an active functional group produced by the activation of a free amine terminal moiety; and a bacteriophage having a phage amine moiety coupled to the active functional group to anchor the bacteriophage to the substrate.

Abstract: A thin-film composition of nanocrystal molybdenum in an amorphous metallic matrix may be formed by co-sputtering Mo with aluminum or nickel. NEMS cantilevers may be formed from the film. The films exhibit high nanoindentation hardness and a reduction in roughness and intrinsic stress, while maintaining resistivity in the metallic range.

Abstract: A method of fabrication of submicron wide suspended structures. The method includes depositing a layer of glassy material under tensile stress on crystalline silicon, patterning the layer of glassy material with a masking layer having a pattern, the masking layer protecting the layer of glassy material along the pattern, selectively removing the layer of glassy material in areas of the layer of glassy material not protected by the masking layer; and anisotropically etching the crystalline silicon to create at least a pit extending into the crystalline silicon and at least partially under the layer of glassy material to release a suspended structure comprising glassy material.

Abstract: A thin-film composition of nanocrystal molybdenum in an amorphous metallic matrix may be formed by co-sputtering Mo with aluminum or nickel. NEMS cantilevers may be formed from the film. The films exhibit high nanoindentation hardness and a reduction in roughness and intrinsic stress, while maintaining resistivity in the metallic range.