摘要:
The present invention encompasses novel mammalian cell cycle checkpoint genes/DNA repair genes, cDNA or genomic DNA, isolated nucleic acids corresponding thereto, expression vectors comprising said nucleic acids, host cells transformed with said expression vectors, pharmaceutical compositions and the formulation of such compositions comprising said nucleic acids or proteins expressed therefrom, methods for treating a cell using such nucleic acids, proteins or pharmaceutical compositions, and the use of such nucleic acids or proteins in formulating a pharmaceutical preparation.
摘要:
The present invention encompasses novel mammalian cell cycle checkpoint genes/DNA repair genes, cDNA or genomic DNA, isolated nucleic acids corresponding thereto, proteins encoded thereby, expression vectors comprising said nucleic acids, host cells transformed with said expression vectors, and methods for treating a cell using such nucleic acids or proteins.
摘要:
The present invention encompasses novel mammalian cell cycle checkpoint genes/DNA repair genes, cDNA or genomic DNA, isolated nucleic acids corresponding thereto, expression vectors comprising said nucleic acids, host cells transformed with said expression vectors, pharmaceutical compositions and the formulation of such compositions comprising said nucleic acids or proteins expressed therefrom, methods for treating a cell using such nucleic acids, proteins or pharmaceutical compositions, and the use of such nucleic acids or proteins in formulating a pharmaceutical preparation.
摘要:
The present invention encompasses novel mammalian cell cycle checkpoint genes/DNA repair genes, cDNA or genomic DNA, isolated nucleic acids corresponding thereto, proteins encoded thereby, expression vectors comprising said nucleic acids, host cells transformed with said expression vectors, and methods for treating a cell using such nucleic acids or proteins.
摘要:
The present invention relates to the discovery, identification and characterization of nucleotide sequences that encode novel substrate-targeting subunits of ubiquitin ligases. The invention encompasses nucleotides encoding novel substrate-targeting subunits of ubiquitin ligases: FBP1, FBP2, FBP3, FBP4, FBP5, FBP6, FBP7, FBP8, FBP9, FBP10, FBP11, FBP12, FBP13, FBP14, FBP15, FBP16, FBP17, FBP18, FBP19, FBP20, FBP21, FBP22, FBP23, FBP24, and FBP25, transgenic mice, knock-out mice, host-cell expression systems and proteins encoded by the nucleotides of the novel substrate-targeting subunits. The present invention relates to screening assays that use novel and known substrate-targeting subunits of ubiquitin ligases to identify potential therapeutic agents such as small molecules, compounds or derivatives and analogues of the novel and known ubiquitin ligases which modulate activity of the novel and known ubiquitin ligases for the treatment of proliferative and differentiative disorders, such as cancer, major opportunistic infections, immune disorders, certain cardiovascular diseases, and inflammatory disorders. The invention further encompasses therapeutic protocols and pharmaceutical compositions designed to target ubiquitin ligases and their substrates for the treatment of proliferative and differentiative disorders.
摘要:
The present invention relates to the discovery, identification and characterization of nucleotide sequences that encode novel substrate-targeting subunits of ubiquitin ligases. The invention encompasses nucleotides encoding novel substrate-targeting subunits of ubiquitin ligases, and transgenic mice, knock-out mice, host-cell expression systems and proteins encoded by the nucleotides of the novel substrate-targeting subunits. The present invention relates to screening assays that use novel and known substrate-targeting subunits of ubiquitin ligases to identify potential therapeutic agents such as small molecules, compounds or derivatives and analogues of the novel and known ubiquitin ligases which modulate activity of the novel and known ubiquitin ligases for the treatment of proliferative and differentiative disorders, such as cancer, major opportunistic infections, immune disorders, certain cardiovascular diseases, and inflammatory disorders. The invention further encompasses therapeutic protocols and pharmaceutical compositions designed to target ubiquitin ligases and their substrates for the treatment of proliferative and differentiative disorders.
摘要:
The present invention relates to the discovery, identification and characterization of nucleotide sequences that encode novel substrate-targeting subunits of ubiquitin ligases. The invention encompasses nucleotides encoding novel substrate-targeting subunits of ubiquitin ligases: FBP1, FBP2, FBP3, FBP4, FBP5, FBP6, FBP7, FBP8, FBP9, FBP10, FBP11, FBP12, FBP13, FBP14, FBP15, FBP16, FBP17, FBP18, FBP19, FBP20, FBP21, FBP22, FBP23, FBP24, and FBP25, transgenic mice, knock-out mice, host-cell expression systems and proteins encoded by the nucleotides of the novel substrate-targeting subunits. The present invention relates to screening assays that use novel and known substrate-targeting subunits of ubiquitin ligases to identify potential therapeutic agents such as small molecules, compounds or derivatives and analogues of the novel and known ubiquitin ligases which modulate activity of the novel and known ubiquitin ligases for the treatment of proliferative and differentiative disorders, such as cancer, major opportunistic infections, immune disorders, certain cardiovascular diseases, and inflammatory disorders. The invention further encompasses therapeutic protocols and pharmaceutical compositions designed to target ubiquitin ligases and their substrates for the treatment of proliferative and differentiative disorders.
摘要:
The present invention relates to the discovery, identification and characterization of nucleotide sequences that encode novel substrate-targeting subunits of ubiquitin ligases. The invention encompasses nucleotides encoding novel substrate-targeting subunits of ubiquitin ligases: FBP1, FBP2, FBP3, FBP4, FBP5, FBP6, FBP7, FBP8, FBP9, FBP10, FBP11, FBP12, FBP13, FBP14, FBP15, FBP16, FBP17, FBP18, FBP19, FBP20, FBP21, FBP22, FBP23, FBP24, and FBP25, transgenic mice, knock-out mice, host-cell expression systems and proteins encoded by the nucleotides of the novel substrate-targeting subunits. The present invention relates to screening assays that use novel and known substrate-targeting subunits of ubiquitin ligases to identify potential therapeutic agents such as small molecules, compounds or derivatives and analogues of the novel and known ubiquitin ligases which modulate activity of the novel and known ubiquitin ligases for the treatment of proliferative and differentiative disorders, such as cancer, major opportunistic infections, immune disorders, certain cardiovascular diseases, and inflammatory disorders. The invention further encompasses therapeutic protocols and pharmaceutical compositions designed to target ubiquitin ligases and their substrates for the treatment of proliferative and differentiative disorders.