Abstract: A diagnostic tool for use in diagnosing diseases, the tool is a detector for detecting a presence of an array of markers being used to determine gene expression changes that are related to cellular immortalization, the presence of the markers being indicative of a specific disease and the markers and treatments found by the tool. A tool for interpreting results of a microarray, wherein the tool is a computer program for analyzing the results of microrarrays. A method of creating an array of markers for diagnosing the presence of disease by microarraying sera obtained from a patient to obtain molecular markers of disease and detecting markers that are present only in the sera of patients with a specific disease thereby detecting molecular markers being used to determine gene expression changes that are related to cellular immortalization and for use in diagnosing disease.

Abstract: A biosensor for use in detecting the presence of diseases, the biosensor comprising a detector for detecting a presence of at least one marker indicative of a specific disease. A method of determining efficacy of a pharmaceutical for treating a disease or staging disease by administering a pharmaceutical to a sample containing markers for a disease, detecting the amount of at least one marker of the disease in the sample, and analyzing the amount of the marker in the sample, whereby the amount of marker correlates to pharmaceutical efficacy or disease stage. Markers for gynecological disease selected from the list in Table 8. An immuno-imaging agent comprising labeled antibodies, whereby the labeled antibodies are isolated and reactive to proteins overexpressed in vivo. Informatics software for analyzing the arrays of claim 17, the software including analyzing means for analyzing the arrays.

Abstract: There is provided a diagnostic tool for use in diagnosing diseases, the tool having a detector for detecting the presence of an array of markers indicative of disease. Also provided is a combination of markers for disease, the combination including at least two markers of the disease. A method of choosing such combinations of markers for a given disease as well as a method for detecting a combination of markers for diagnosing the presence of a disease state or determining a disease stage is also provided. The method includes selectively biopanning sera obtained from a patient to obtain cDNA clones to array for analysis and determining if the markers are present among the cDNA clones present in the disease. Epitopes found using this method are also provided as well as a database incorporating these epitopes. A biochip for detecting the presence of a disease marker in a patient's sera is provided, wherein the biochip has a detector contained within the biochip for detecting disease markers in a patient's sera.

Abstract: Disclosed are methods and compositions for the selective inhibition gene expression through the application of antisense RNA technology. Antisense RNA constructs of the present invention employ the use of antisense intron DNA corresponding to distinct intron regions of the gene whose expression is targeted for down-regulation. In an exemplary embodiment, a human lung cancer cell line (NCI-H460a) with a homozygous spontaneous K-ras mutation was transfected with a recombinant plasmid that synthesizes a genomic segment of K-ras in antisense orientation. Translation of the mutated K-ras mRNA was specifically inhibited, whereas expression of H-ras and N-ras was unchanged. A three-fold growth inhibition occurred in H460a cells when expression of the mutated ras p21 protein was down-regulated by antisense RNA and cells remained viable. The growth of H460a tumors in nu/nu mice was substantially reduced by expressed K-ras antisense RNA.

Abstract: Disclosed are methods and compositions for the selective inhibition gene expression through the application of antisense RNA technology. Antisense RNA constructs of the present invention employ the use of antisense intron DNA corresponding to distinct intron regions of the gene whose expression is targeted for down-regulation. In an exemplary embodiment, a human lung cancer cell line (NCI-H460a) with a homozygous spontaneous K-ras mutation was transfected with a recombinant plasmid that synthesizes a genomic segment of K-ras in antisense orientation. Translation of the mutated K-ras mRNA was specifically inhibited, whereas expression of H-ras and N-ras was unchanged. A three-fold growth inhibition occurred in H460a cells when expression of the mutated ras p21 protein was down-regulated by antisense RNA and cells remained viable. The growth of H460a tumors in nu/nu mice was substantially reduced by expressed K-ras antisense RNA.

Abstract: Disclosed are methods and compositions for the selective manipulation of gene expression through the preparation of retroviral expression vectors for expressing antisense sequences, such as K-ras oncogene antisense sequences, or sequences encoding a desired product, such as wild type p53 sequences. Preferred retroviral vectors of the present invention incorporate the .beta.-actin promoter in a reverse orientation with respect to retroviral transcription. Preferred antisense RNA constructs of the present invention employ the use of antisense intron DNA corresponding to distinct intron regions of the gene whose expression is targeted for down-regulation. In an exemplary embodiment, a human lung cancer cell line (NCI-H460a) with a homozygous spontaneous K-ras mutation was transfected with a recombinant plasmid that synthesizes a genomic segment of K-ras in antisense orientation. Translation of the mutated K-ras mRNA was specifically inhibited, whereas expression of H-ras and N-ras was unchanged.