Abstract: The invention is based on the elucidation of a mechanism by which HPV promotes oncogenesis and provides a methods of diagnosing malignant tumors and methods of preventing the development of malignancies or inhibiting tumor growth. A method for diagnosing a neoplasm in a mammal is carried out by measuring the level of helicase-like transcription factor (HLTF) in tissue of the mammal. An increase in the level of HLTF in the tissue compared to the level in a normal control tissue indicates the presence of a neoplasm in the tissue.

Abstract: The invention is based on the elucidation of a mechanism by which HPV promotes oncogenesis and provides a methods of diagnosing malignant tumors and methods of preventing the development of malignancies or inhibiting tumor growth. A method for diagnosing a neoplasm in a mammal is carried out by measuring the level of helicase-like transcription factor (HLTF) in tissue of the mammal. An increase in the level of HLTF in the tissue compared to the level in a normal control tissue indicates the presence of a neoplasm in the tissue.

Abstract: E6-BP polypeptide, nucleic acids encoding E6-BP polypeptides, and uses thereof.

Abstract: E6-BP polypeptides, nucleic acids encoding E6-BP polypeptides, and uses thereof.

Abstract: E2-BP polypeptides, nucleic acids encoding E2-BP polypeptides, and uses thereof.

Abstract: E2-BP polypeptides, nucleic acids encoding E2-BP polypeptides, and uses thereof.

Abstract: A method of inhibiting the growth of a virus, the DNA of the virus including the nucleic acid sequence 5' ACCXNNNPyCGGTXY3', wherein each N, X, and Y is, independently, any nucleotide, and Py is C or T, the nucleic acid sequence being capable of binding to a protein encoded by the DNA of the virus, the protein, upon binding to the nucleic acid sequence, being capable of causing the enhancement of the transcription of DNA of the virus, the method including inhibiting the protein from binding to the nucleic acid sequence to repress the transcription of DNA of said virus to inhibit the growth of the virus.

Abstract: This invention relates to E2 trans-activation repressors which interfere with normal functioning of the native full-length E2 transcriptional activation protein of the papillomavirus. Native full-length E2 trans-activation protein activates transcription of papillomavirus only through binding to DNA, and it binds to DNA only in the form of a pre-formed homodimer--a pair of identical polypeptide subunits held together by non-covalent interactions. The E2 trans-activation repressors of this invention are proteins, polypeptides or other molecules that dimerize with full-length native E2 polypeptides to form inactive heterodimers, thus interfering with the formation of active homodimers comprising full-length native E2 polypeptides, thereby repressing papillomavirus transcription and replication. The E2 trans-activation repressors of this invention are advantageously used in the treatment of papillomavirus infections and their associated diseases.

Abstract: This invention relates to E2 trans-activation repressors which interfere with normal functioning of the native full-length E2 transcriptional activation protein of the papillomavirus. Native full-length E2 trans-activation protein activates transcription of papillomavirus only through binding to DNA, and it binds to DNA only in the form of a pre-formed homodimer--a pair of identical polypeptide subunits held together by non-covalent interactions. The E2 trans-activation repressors of this invention are proteins, polypeptides or other molecules that dimerize with full-length native E2 polypeptides to form inactive heterodimers, thus interfering with the formation of active homodimers comprising full-length native E2 polypeptides, thereby repressing papillomavirus transcription and replication. The E2 trans-activation repressors of this invention are advantageously used in the treatment of papillomavirus infections and their associated diseases.

Abstract: This invention relates to E2 trans-activation repressors which interfere with normal functioning of the native full-length E2 transcriptional activation protein of the papillomavirus. Native full-length E2 trans-activation protein activates transcription of papillomavirus only through binding to DNA, and it binds to DNA only in the form of a pre-formed homodimer--a pair of identical polypeptide subunits held together by non-covalent interactions. The E2 trans-activation repressors of this invention are proteins, polypeptides or other molecules that dimerize with full-length native E2 polypeptides to form inactive heterodimers, thus interfering with the formation of active homodimers comprising full-length native E2 polypeptides, thereby repressing papillomavirus transcription and replication. The E2 trans-activation repressors of this invention are advantageously used in the treatment of papillomavirus infections and their associated diseases.

Abstract: This invention relates to E2 trans-activation repressors which interfere with normal functioning of the native full-length E2 transcriptional activation protein of the papillomavirus. This invention also relates to DNA sequences and recombinant DNA molecules encoding such repressors, unicellular hosts transformed with such DNA molecules, and processes for producing and using such repressors. Native full-length E2 trans-activation protein activates transcription of papillomavirus only through binding to DNA, and it binds to DNA only in the form of a pre-formed homodimer--a pair of identical polypeptide subunits held together by non-covalent interactions. The E2 trans-activation repressors of this invention are proteins, polypeptides or other molecules that dimerize with full-length native E2 polypeptides to form inactive heterodimers, thus interfering with the formation of active homodimers comprising full-length native E2 polypeptides, thereby repressing papillomavirus transcription and replication.

Abstract: This invention relates to E2 trans-activation repressors which interfere with normal functioning of the native full-length E2 transcriptional activation protein of the papillomavirus. Native full-length E2 trans-activation protein activates transcription of papillomavirus only through binding to DNA, and it binds to DNA only in the form of a pre-formed homodimer--a pair of identical polypeptide subunits held together by non-covalent interactions. The E2 trans-activation repressors of this invention are proteins, polypeptides or other molecules that dimerize with full-length native E2 polypeptides to form inactive heterodimers, thus interfering with the formation of active homodimers comprising full-length native E2 polypeptides, thereby repressing papillomavirus transcription and replication. The E2 trans-activation repressors of this invention are advantageously used in the treatment of papillomavirus infections and their associated diseases.