Abstract: A method and apparatus for the physico-chemical encoding of a collection of beaded resin (“beads”) to determine the chemical identity of bead-anchored compounds by in-situ interrogation of individual beads. The present invention provides method and apparatus to implement color-coding strategies in applications and including the ultrahigh-throughput screening of bead-based combinatorial compounds libraries as well as multiplexed diagnostic and environmental testing and other biochemical assays.

Abstract: A method and apparatus for the physico-chemical encoding of a collection of beaded resin (“beads”) to determine the chemical identity of bead-anchored compounds by in-situ interrogation of individual beads. The present invention provides method and apparatus to implement color-coding strategies in applications and including the ultrahigh-throughput screening of bead-based combinatorial compounds libraries as well as multiplexed diagnostic and environmental testing and other biochemical assays.

Abstract: Disclosed is a method for the physico-chemical encoding of a collection of beaded resin (“beads”) allowing determination of the chemical identity of bead-anchored compounds, following identification of beads bearing compounds of interest in an assay, by in-situ interrogation of individual beads, which does not require isolation of the beads of interest. These methods can be used to implement color-coding strategies in applications and including the ultrahigh-throughput screening of bead-based combinatorial compounds libraries as well as multiplexed diagnostic and environmental testing and other biochemical assays.

Abstract: Analogs of bacteriocidal peptide microcin J25 (MccJ25) are provided that have an amino acid sequence that differs from that of MccJ25 by having at least one amino acid substitution; and that inhibit bacterial cell growth with a potency at least equal to that of MccJ25.

Abstract: Analogs of bacteriocidal peptide microcin J25 (MccJ25) are provided that have an amino acid sequence that differs from that of MccJ25 by having at least one amino acid substitution; and that inhibit bacterial cell growth with a potency at least equal to that of MccJ25.

Abstract: Disclosed are targets, methods, and reagents for specific binding and inhibition of RNAP from bacterial species. The invention has applications in analysis of RNAP structure and function, control of bacterial gene expression, control of bacterial growth, antibacterial chemistry, antibacterial therapy, and drug discovery.

Abstract: The invention provides a target and methods for specific binding and inhibition of RNA polymerase from bacterial species. The invention provides methods for identifying agents that bind to a bacterial RNA polymerase, and that inhibit an activity of a bacterial RNA polymerase, through interactions with a bacterial RNA polymerase homologous switch-region amino-acid sequence. Said methods comprise preparing a reaction solution comprising the compound to be tested and an entity containing a bacterial RNAP homologous switch-region amino-acid sequence, and detecting binding or inhibition. The invention has applications in control of bacterial gene expression, control of bacterial viability, control of bacterial growth, antibacterial chemistry, and antibacterial therapy.

Abstract: A method and apparatus for the physico-chemical encoding of a collection of beaded resin (“beads”) to determine the chemical identity of bead-anchored compounds by in-situ interrogation of individual beads. The present invention provides method and apparatus to implement color-coding strategies in applications and including the ultrahigh-throughput screening of bead-based combinatorial compounds libraries as well as multiplexed diagnostic and environmental testing and other biochemical assays.

Abstract: Target and method for inhibition of bacterial RNA polymerase disclosed are targets and methods for specific binding and inhibition of RNAP from bacterial species.

Abstract: A self-assembled relay probe for detecting a target material is provided including: a first peptide tag bound to the target material; and a first fluorescent conjugate including a first fluorochrome and a first tag binding group; wherein the first fluorescent conjugate selectively associates with the first tag. The probe further includes a second peptide tag bound to the target material; and a second fluorescent conjugate including a second fluorochrome having a longer wavelength and distinct excitation and emission maxima from the first fluorochrome and a second tag binding group. Upon exposure to the target material, the first and second fluorescent conjugates independently associate with the first and second peptide tags, respectively, so as to be a distance apart represented by about 0.

Abstract: A detectable complex and methods for use thereof are provided herein. The detectable complex includes: at least one target material; a first peptide tag bound to the at least one target material; and a second peptide tag bound to the at least one target material. The complex further includes a first conjugate having a detectable group and two pendant phenylarsine moieties comprising a first tag binding group; wherein the first conjugate preferentially associates with the first peptide tag; and a second conjugate having a detectable group and two pendant phenylarsine moieties comprising a second tag binding group; wherein the second conjugate preferentially associates with the second peptide tag. The mean distance and/or mean angle between the pendant phenylarsine moieties in the first conjugate is different from the mean distance and/or mean angle between the pendant phenylarsine moieties in the second conjugate.

Abstract: The invention provides a target and methods for specific binding and inhibition of RNAP from bacterial species. The invention is directed to a method for identifying agents that bind to a bacterial RNAP homologous RNA-exit-channel amino-acid sequence, comprising preparing a reaction solution comprising the agent to be tested and an entity comprising a bacterial RNAP homologous RNA-exit-channel amino-acid sequence, and detecting presence or amount of binding. The invention has applications in control of bacterial gene expression, control of bacterial growth, antibacterial chemistry, and antibacterial therapy.

Abstract: Disclosed is a method for the physico-chemical encoding of a collection of beaded resin (“beads”) allowing determination of the chemical identity of bead-anchored compounds, following identification of beads bearing compounds of interest in an assay, by in-situ interrogation of individual beads, which does not require isolation of the beads of interest. These methods can be used to implement color-coding strategies in applications and including the ultrahigh-throughput screening of bead-based combinatorial compounds libraries as well as multiplexed diagnostic and environmental testing and other biochemical assays.

Abstract: A molecule for labeling a target material is provided including two transition-metal chelates and a detectable group. The molecule has the general structural formula (I): wherein: (a) Y and Y? are each a transition metal, (b) R1 and R1? are each independently CH(COO?), CH(COOH), or absent; (c) R2 and R2? are linkers each having a length of from about 3.0 to about 20 ?; and (d) X is a detectable group. The linkers may be linear or branched, may contain aromatic moieties, and may optionally be further substituted. Methods of using the molecules of the invention as probes in detecting and analyzing target materials as well as kits including the molecule of the invention are also provided.