Abstract: The present invention relates to DNA expression vector or a mixture of DNA expression vectors which encodes at least two CD4 epitopes of telomerase reverse transcriptase (TERT) and at least one tumor, viral, bacterial, or parasitic CD8 epitope.

Abstract: The present invention provides a nucleic acid, or an immunogenic composition thereof, that comprises a sequence encoding a cat telomerase deprived of telomerase catalytic activity, or a fragment thereof. The present invention also provides methods for triggering an immune response in a cat and methods for treating or preventing a tumor in a cat using the immunogenic composition of the invention.

Abstract: The present invention provides an immunogenic composition comprising a nucleic acid that comprises a sequence encoding a dog telomerase deprived of telomerase catalytic activity, or a fragment thereof.

Abstract: The invention provides a nucleic acid construct comprising a sequence that encodes a human telomerase reverse transcriptase (hTERT) protein which is devoid of telomerase catalytic activity and of a nucleolar localization signal. The construct is useful triggering an immune response in a subject, against cells that overexpress telomerase, preferably dysplasia cells or tumor cells.

Abstract: The invention provides a nucleic acid construct comprising a sequence that encodes a human telomerase reverse transcriptase (hTERT) protein which is devoid of telomerase catalytic activity and of a nucleolar localization signal. The construct is useful triggering an immune response in a subject, against cells that overexpress telomerase, preferably dysplasia cells or tumor cells.

Abstract: The present invention provides an immunogenic composition comprising a nucleic acid that comprises a sequence encoding a dog telomerase deprived of telomerase catalytic activity, or a fragment thereof.

Abstract: The present invention provides an immunogenic composition comprising a nucleic acid that comprises a sequence encoding a cat telomerase deprived of telomerase catalytic activity, or a fragment thereof.

Abstract: The present invention relates to DNA expression vector or a mixture of DNA expression vectors which encodes at least two CD4 epitopes of telomerase reverse transcriptase (TERT) and at least one tumor, viral, bacterial, or parasitic CD8 epitope.

Abstract: The present invention relates to the use of a nucleic acid that comprises a sequence encoding an APOBEC3A protein, in preventing or treating a tumor in a patient.

Abstract: The present invention provides a nucleic acid, or an immunogenic composition thereof, that comprises a sequence encoding a cat telomerase deprived of telomerase catalytic activity, or a fragment thereof. The present invention also provides methods for triggering an immune response in a cat and methods for treating or preventing a tumor in a cat using the immunogenic composition of the invention.

Abstract: The invention provides a nucleic acid construct comprising a sequence that encodes a human telomerase reverse transcriptase (hTERT) protein which is devoid of telomerase catalytic activity and of a nucleolar localization signal. The construct is useful triggering an immune response in a subject, against cells that overexpress telomerase, preferably dysplasia cells or tumor cells.

Abstract: The present invention relates to the use of a nucleic acid that comprises a sequence encoding an APOBEC3A protein, in preventing or treating a tumor in a patient.

Abstract: The present invention provides an immunogenic composition comprising a nucleic acid that comprises a sequence encoding a cat telomerase deprived of telomerase catalytic activity, or a fragment thereof.

Abstract: The present invention provides an immunogenic composition comprising a nucleic acid that comprises a sequence encoding a dog telomerase deprived of telomerase catalytic activity, or a fragment thereof.

Abstract: A method for enriching a mutant nucleic acid in a mixture of nucleic acids, wherein the method comprises: (a) providing a nucleic acid mixture comprising a parental nucleic acid and a mutant nucleic acid of the parental nucleic acid; and (b) amplifying the nucleic acids in the nucleic acid mixture by polymerase chain reaction (PCR); wherein the mutant nucleic acid is a G?A mutant of the parental nucleic acid, which pairs with a fully complementary nucleic acid sequence to form an AT-rich nucleic acid variant of the parental nucleic acid; and wherein the AT-rich nucleic acid variant is denatured and selectively amplified by carrying out PCR using a denaturation temperature 1-3° C. lower than the lowest denaturation temperature (Tp) that allows amplification of the parental nucleic acid to thereby enrich the mutant nucleic acid in the nucleic acid mixture.

Abstract: This invention is in the field of lymphadenopathy virus. This invention relates to a diagnostic means and method to detect the presence of DNA, RNA, or antibodies of the lymphadenopathy retrovirus associated with the acquired immune deficiency syndrome or of the lymphadenopathy syndrome by the use of DNA fragments or the peptides encoded by said DNA fragments. The invention further relates to the DNA fragments, vectors comprising them, and the proteins expressed.

Abstract: This invention is in the field of lymphadenopathy virus. This invention relates to a diagnostic means and method of detecting lymphadenopathy associated virus or related viruses or DNA pro-viruses with cloned DNA sequences which are hybridizable to genomic RNA and DNA of lymphadenopathy associated virus. It further relates to the cloned DNA sequences and a process for their preparation.

Abstract: The present invention relates to methods and compositions for preventing the occurrence or progression of a cancer or pre-cancerous condition associated with expression, or over-expression of human cytidine deaminases of the APOBEC3 family. The invention also relates to drug screening assays designed to identify compounds that regulate the activity, or level of expression, of hA3A, hA3C and hA3H. The invention further relates to transgenic mice, as well as cells derived from said mice, that have been genetically engineered to express, or over-express hA3A, hA3C and/or hA3H. Such mice may be utilized to screen for, or identify, compounds that modulate the activity, or expression, of the human cytidine deaminases. The present invention also provides topical compositions such as cosmetic lotion, crème, or sunscreen for use on the skin, which comprise one or more inhibitors of human cytidine deaminase activity.

Abstract: The present invention relates to methods and compositions for preventing the occurance or progression of a cancer or pre-cancerous condition associated with expression, or over-expression of human cytidine deaminases of the APOBEC3 family. The invention also relates to drug screening assays designed to identify compounds that regulate the activity, or level of expression, of hA3A, hA3C and hA3H. The invention further relates to transgenic mice, as well as cells derived from said mice, that have been genetically engineered to express, or over-express hA3A, hA3C and/or hA3H. Such mice may be utilized to screen for, or identify, compounds that modulate the activity, or expression, of the human cytidine deaminases. The present invention also provides topical compositions such as cosmetic lotion, crème, or sunscreen for use on the skin, which comprise one or more inhibitors of human cytidine deaminase activity.

Abstract: A method for enriching a mutant nucleic acid in a mixture of nucleic acids, wherein the method comprises: (a) providing a nucleic acid mixture comprising a parental nucleic acid and a mutant nucleic acid of the parental nucleic acid; and (b) amplifying the nucleic acids in the nucleic acid mixture by polymerase chain reaction (PCR); wherein the mutant nucleic acid is a G?A mutant of the parental nucleic acid, which pairs with a fully complementary nucleic acid sequence to form an AT-rich nucleic acid variant of the parental nucleic acid; and wherein the AT-rich nucleic acid variant is denatured and selectively amplified by carrying out PCR using a denaturation temperature 1-3° C. lower than the lowest denaturation temperature (Tp) that allows amplification of the parental nucleic acid to thereby enrich the mutant nucleic acid in the nucleic acid mixture.