Abstract: The present invention relates to a method for isolating from the immunological gene repertoire a gene coding for a receptor having the ability to bind a preselected ligand. Receptors produced by the gene isolated by the method, particularly catalytic receptors, are also contemplated.

Abstract: Provided is a method for obtaining a position of an object. A slide which carries at least one object and has reticle marks arranged at positions which form substantially a right angle, is positioned in a slide holder of a first imaging system. A first coordinate space of the imaging system is defined, and coordinates of the reticle marks in the first coordinate space are designated. A second coordinate space of a second imaging system is defined, and the coordinates of the reticle marks in the second coordinate space is designated. Using the designated coordinates of the reticle marks of the first coordinate space, the coordinate conversion parameters are computed. Thereafter, coordinates of at least one object in the first coordinate space are designated, and the first coordinate space coordinates of the object are converted into unique coordinates in a second coordinate space, using the coordinate conversion parameters.

Abstract: The present invention relates to a method for isolating from the immunological gene repertoire a gene coding for a receptor having the ability to bind a preselected ligand. Receptors produced by the gene isolated by the method, particularly catalytic receptors, are also contemplated.

Abstract: The present invention relates to a method for isolating from the immunological gene repertoire a gene coding for a receptor having the ability to bind a preselected ligand. Receptors produced by the gene isolated by the method, particularly catalytic receptors, are also contemplated.

Abstract: The invention provides compositions having antibodies that can generate reactive oxygen species when exposed to singlet oxygen, as well as methods of using the compositions, for example, to treat microbial infections.

Abstract: The invention provides methods of detecting antibodies and neutrophils that can generate reactive oxygen species.

Abstract: Filamentous phage comprising a matrix of cpVIII proteins encapsulating a genome encoding first and second polypeptides of an antogenously assembling receptor, such as an antibody, and a receptor comprised of the first and second polypeptides surface-integrated into the matrix via a filamentous phage coat protein membrane anchor domain fused to at least one of the polypeptides.

Abstract: Filamentous phage comprising a matrix of cpVIII proteins encapsulating a genome encoding first and second polypeptides of an antogenously assembling receptor, such as an antibody, and a receptor comprised of the first and second polypeptides surface-integrated into the matrix via a filamentous phage coat protein membrane anchor domain fused to at least one of the polypeptides.

Abstract: As illustrated herein, cholesterol is oxidized when it is present in atherosclerotic plaques. This reaction generates cytotoxic cholesterol oxidation or ozonation products. The present application is directed to the products of cholesterol ozonation, binding entities directed against such products, and methods of using such binding entities and cytotoxins to treat a variety of diseases.

Abstract: The invention relates to detection of cholesterol ozonation products that are generated by atherosclerotic plaque material, and to methods of detecting vascular conditions that relate to the accumulation and oxidation of cholesterol.

Abstract: The invention describes the display of exogenous polypeptides on filamentous phage using a fusion between the exogenous polypeptide and phage pVII or pIX proteins. In particular, phage particles and phagemid vectors are described for expression and display of heterodimeric proteins such as antibody Fv heterodimers in combinatorial libraries, and uses thereof.

Abstract: The present invention describes methods for producing antibody libraries, and particularly for increasing antibody library diversity by inducing mutagenesis within the CDR regions of immunoglobulin heavy or light chains that are displayed on the surface of filamentous phage particles comprising the library. The invention also describes oligonucleotides useful for increasing the library diversity, and universal light chains useful in the library production methods.

Abstract: The present invention describes methods for producing binding sites on polypeptides, and particularly for producing binding sites within the CDR regions of immunoglobulin heavy or light chains that are displayed on the surface of filamentous phage particles. The invention also describes oligonucleotides useful for preparing the binding sites, and human monoclonal antibodies produced by the present methods.

Abstract: The present invention relates to a method for isolating from the immunological gene repertoire a gene coding for a receptor having the ability to bind a preselected ligand. Receptors produced by the gene isolated by the method, particularly catalytic receptors, are also contemplated.

Abstract: The present invention relates to a method for isolating from the immunological gene repertoire a gene coding for a receptor having the ability to bind a preselected ligand. Receptors produced by the gene isolated by the method, particularly catalytic receptors, are also contemplated.

Abstract: The present invention describes methods for producing binding sites on polypeptides, and particularly for producing binding sites within the CDR regions of immunoglobulin heavy or light chains that are displayed on the surface of filamentous phage particles. The invention also describes oligonucleotides useful for preparing the binding sites, and human monoclonal antibodies produced by the present methods.

Abstract: The invention provides compositions having antibodies that can generate reactive oxygen species when exposed to singlet oxygen, as well as methods of using the compositions, for example, to treat microbial infections.

Abstract: The invention relates to detection of cholesterol ozonation products that are generated by atherosclerotic plaque material, and to methods of detecting vascular conditions that relate to the accumulation and oxidation of cholesterol.

Abstract: As illustrated herein, cholesterol is oxidized when it is present in atherosclerotic plaques. This reaction generates cytotoxic cholesterol oxidation or ozonation products. The present application is directed to the products of cholesterol ozonation, binding entities directed against such products, and methods of using such binding entities and cytotoxins to treat a variety of diseases.

Abstract: A genetically modified plant cell containing a heterologous nucleotide sequence encoding a bioluminescent polypeptide, which is expressed in amount sufficient to produce at least about 750,000 photons of visible light/mm2/second, is provided, as is a visibly bioluminescent transgenic plant, which contains such a genetically modified plant cell. Also provided is a recombinant nucleic acid molecule, which contains a plant translational enhancer operatively linked to a nucleotide sequence encoding a bioluminescent polypeptide. In addition, methods of producing a genetically modified plant cell that is visibly bioluminescent introducing a transgene encoding a bioluminescent polypeptide into a plant cell, whereby the bioluminescent polypeptide is expressed at a level that produces at least about 750,000 photons of visible light/mm2/second are provided, as are kits containing such visibly bioluminescent compositions.