Abstract: Methods and compositions for accurate identification of Parkinson's disease are disclosed. More particularly, the disclosure is directed to the determination of Parkinson's disease in ante-mortem tissue samples.

Abstract: A scoring functions is developed and used for identifying patients who might be responsive to a PD-1 axis directed therapy. The scoring functions are obtained by extracting features from multiplex-stained sections, selecting features that correlate with response to the therapy using a feature selection function, and fitting one or more of the selected features to a plurality of candidate scoring functions. A candidate scoring function showing the desired balance between predictive sensitivity and specificity may then selected for incorporation into a scoring system that includes at least an image analysis system.

Abstract: Methods and reagents for detecting high-risk human papilloma virus (HPV) DNA types in cells on a Pap smear which indicates the patient is at higher risk for cancer are described. The method differentiates high-risk from low-risk HPV DNA in cells, which indicates the patient's risk for cancer.

Abstract: The invention provides novel reagents, reagent kits, and methods for automated hybridization. More particularly, the invention provides reagents, reagent kits, and methods for automated in situ hybridization and automated hybridization on a microarray. The use of automated instruments for in situ hybridization and microarray hybridization dramatically reduces the amount of labor and time involved and also facilitates standardization of protocols and consistency between results.

Abstract: The present invention relates to a molecular motor actin binding protein, in particular, to Nuclear Myosin I&bgr; (NMI&bgr;) containing a 16 amino acid N-terminal extension involved in transcription. More particularly, this invention is directed to a molecule with oligonucleotide sequence coding for a protein nuclear Myosin I&bgr; (NMI&bgr;) containing a 16 amino acid N-terminal extension that co-localizes with, and forms functional complexes with, RNA polymerase II. This invention is also directed to polyclonal and monoclonal antibodies to the 16 amino acid N-terminal extension that block in vitro RNA synthesis. This invention is also directed to administration to a cell of polyclonal or monoclonal antibodies to the NMI&bgr; 16 amino acid N-terminal extension sequence or to an epitope within that sequence to inhibit transcription. Other inhibitors are also suitable. This invention may be used to treat illness through targeted inhibition of cell proliferation.

Abstract: The present invention relates to a molecular motor actin binding protein, in particular, to Nuclear Myosin I &bgr; (NMI &bgr;) containing a 16 amino acid N-terminal extension involved in transcription. More particularly, this invention is directed to a molecule with oligonucleotide sequence coding for a protein nuclear Myosin I &bgr; (NMI &bgr;) containing a 16 amino acid N-terminal extension that co-localizes with, and forms functional complexes with, RNA polymerase II. This invention is also directed to polyclonal and monoclonal antibodies to the 16 amino acid N-terminal extension that block in vitro RNA synthesis. This invention is also directed to administration to a cell of polyclonal or monoclonal antibodies to the NMI &bgr; 16 amino acid N-terminal extension sequence or to an epitope within that sequence to inhibit transcription. Other inhibitors are also suitable. This invention may be used to treat illness through targeted inhibition of cell proliferation.

Abstract: The invention provides novel reagents, reagent kits, and methods for automated hybridization. More particularly, the invention provides reagents, reagent kits, and methods for automated in situ hybridization and automated hybridization on a microarray. The use of automated instruments for in situ hybridization and microarray hybridization dramatically reduces the amount of labor and time involved and also facilitates standardization of protocols and consistency between results.

Abstract: The present invention relates to a molecular motor actin binding protein, in particular, to Nuclear Myosin I&bgr; (NMI&bgr;) containing a 16 amino acid N-terminal extension involved in transcription. More particularly, this invention is directed to a molecule with oligonucleotide sequence coding for a protein nuclear Myosin I&bgr; (NMI&bgr;) containing a 16 amino acid N-terminal extension that co-localizes with, and forms functional complexes with, RNA polymerase II. This invention is also directed to polyclonal and monoclonal antibodies to the 16 amino acid N-terminal extension that block in vitro RNA synthesis. This invention is also directed to administration to a cell of polyclonal or monoclonal antibodies to the NMI&bgr; 16 amino acid N-terminal extension sequence or to an epitope within that sequence to inhibit transcription. Other inhibitors are also suitable. This invention may be used to treat illness through targeted inhibition of cell proliferation.