Abstract: In certain aspects, the disclosure relates to compositions and methods relating to mutant bacteriophage that target Propionibacterium acnes. In certain aspects, compositions and methods described herein are useful for the treatment of acne.

Abstract: Methods of diagnosing and treating patients afflicted with acne, including diagnosing one as having acne if the individual possesses RT4, RT5, RT7, RT8, RT9, or RT10. Methods for treating acne include administering an effective amount of a drug specifically targeting RT4, RT5, RT7, RT8, RT9, or RT10, such as small molecules, antisense molecules, siRNAs, biologics, antibodies, phages, vaccines, or combination thereof.

Abstract: Methods of diagnosing and treating patients afflicted with acne, including diagnosing one as having acne if the individual possesses RT4, RT5, RT7, RT8, RT9, or RT10. Methods for treating acne include administering an effective amount of a drug specifically targeting RT4, RT5, RT7, RT8, RT9, or RT10, such as small molecules, antisense molecules, siRNAs, biologics, antibodies, phages, vaccines, or combination thereof.

Abstract: Burkholderia pseudomallei (Bp) and Burkholderia mallei (Bm) are Tier-1 select pathogens that cause highly lethal human infections with limited therapeutic options. Intercellular spread is a hallmark of Burkholderia pathogenesis and its prominent ties to virulence make it an attractive therapeutic target. We developed a high-throughput cell-based phenotypic assay and screened ˜220,000 small molecules for their ability to disrupt intercellular spread by Burkholderia thailandensis, a BSL-2 surrogate for these pathogens. 268 hits were identified, and cross-species validation found 32 hits that also disrupt intercellular spread by Bp and/or Bm. In a fulminant murine model of respiratory melioidosis, treatment with a number of these agents was significantly more effective than ceftazidime, the current drug of choice, for improving patient survival and decreasing bacterial counts in major organs.

Abstract: Methods of diagnosing and treating patients afflicted with acne, including diagnosing one as having acne if the individual possesses RT4, RT5, RT7, RT8, RT9, or RT10. Methods for treating acne include administering an effective amount of a drug specifically targeting RT4, RT5, RT7, RT8, RT9, or RT10, such as small molecules, antisense molecules, siRNAs, biologics, antibodies, phages, vaccines, or combination thereof.

Abstract: Methods of diagnosing and treating patients afflicted with acne, including diagnosing one as having acne if the individual possesses RT4, RT5, RT7, RT8, RT9, or RT10. Methods for treating acne include administering an effective amount of a drug specifically targeting RT4, RT5, RT7, RT8, RT9, or RT10, such as small molecules, antisense molecules, siRNAs, biologics, antibodies, phages, vaccines, or combination thereof.

Abstract: In certain aspects, the disclosure relates to compositions and methods relating to mutant bacteriophage that target Propionibacterium acnes. In certain aspects, compositions and methods described herein are useful for the treatment of acne.

Abstract: Methods of diagnosing and treating patients afflicted with acne, including diagnosing one as having acne if the individual possesses RT4, RT5, RT7, RT8, RT9, or RT10. Methods for treating acne include administering an effective amount of a drug specifically targeting RT4, RT5, RT7, RT8, RT9, or RT10, such as small molecules, antisense molecules, siRNAs, biologics, antibodies, phages, vaccines, or combination thereof.

Abstract: This invention relates to the diversification of nucleic acid sequences by use of a nucleic acid molecule containing a region of sequence that acts as a template for diversification. The invention thus provides nucleic acid molecules to be diversified, as well as those which act as the template region (TR) and in concert with the TR for directional, site-specific diversification. Further provided are methods of preparing and using these nucleic acid sequences.

Abstract: This invention relates to the diversification of nucleic acid sequences by use of a nucleic acid molecule containing a region of sequence that acts as a template for diversification. The invention thus provides nucleic acid molecules to be diversified, as well as those which act as the template region (TR) and in concert with the TR for directional, site-specific diversification. Further provided are methods of preparing and using these nucleic acid sequences.

Abstract: The present invention involves the use of Leishmania antigens and nucleic acids coding therefor as vaccines. It also provides a method of inducing protective immune responses in a subject through the use of specific delivery systems such as protein and/or DNA vaccines and Listeria monocytogenes vectors.