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A processed gene homologous to the thymidine kinase (TK) gene in Chinese hamster cells. 1987

F G Barr, and M W Lieberman

UI MeSH Term Description Entries
D009693 Nucleic Acid Hybridization Widely used technique which exploits the ability of complementary sequences in single-stranded DNAs or RNAs to pair with each other to form a double helix. Hybridization can take place between two complimentary DNA sequences, between a single-stranded DNA and a complementary RNA, or between two RNA sequences. The technique is used to detect and isolate specific sequences, measure homology, or define other characteristics of one or both strands. (Kendrew, Encyclopedia of Molecular Biology, 1994, p503) Genomic Hybridization,Acid Hybridization, Nucleic,Acid Hybridizations, Nucleic,Genomic Hybridizations,Hybridization, Genomic,Hybridization, Nucleic Acid,Hybridizations, Genomic,Hybridizations, Nucleic Acid,Nucleic Acid Hybridizations
D002460 Cell Line Established cell cultures that have the potential to propagate indefinitely. Cell Lines,Line, Cell,Lines, Cell
D003412 Cricetulus A genus of the family Muridae consisting of eleven species. C. migratorius, the grey or Armenian hamster, and C. griseus, the Chinese hamster, are the two species used in biomedical research. Hamsters, Armenian,Hamsters, Chinese,Hamsters, Grey,Armenian Hamster,Armenian Hamsters,Chinese Hamster,Chinese Hamsters,Grey Hamster,Grey Hamsters,Hamster, Armenian,Hamster, Chinese,Hamster, Grey
D006224 Cricetinae A subfamily in the family MURIDAE, comprising the hamsters. Four of the more common genera are Cricetus, CRICETULUS; MESOCRICETUS; and PHODOPUS. Cricetus,Hamsters,Hamster
D000818 Animals Unicellular or multicellular, heterotrophic organisms, that have sensation and the power of voluntary movement. Under the older five kingdom paradigm, Animalia was one of the kingdoms. Under the modern three domain model, Animalia represents one of the many groups in the domain EUKARYOTA. Animal,Metazoa,Animalia
D013937 Thymidine Kinase An enzyme that catalyzes the conversion of ATP and thymidine to ADP and thymidine 5'-phosphate. Deoxyuridine can also act as an acceptor and dGTP as a donor. (From Enzyme Nomenclature, 1992) EC 2.7.1.21. Deoxythymidine Kinase,Deoxypyrimidine Kinase,Kinase, Deoxypyrimidine,Kinase, Deoxythymidine,Kinase, Thymidine

Related Publications

F G Barr, and M W Lieberman
Structure and expression of the Chinese hamster thymidine kinase gene.
June 1986, Molecular and cellular biology,
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Deletion and hypermethylation of thymidine kinase gene in V79 Chinese hamster cells resistant to bromodeoxyuridine.
November 1988, Somatic cell and molecular genetics,
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Induction of thymidine kinase in enzyme-deficient Chinese hamster cells.
June 1982, Cell,
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Isolation and preliminary characterization of the Chinese hamster thymidine kinase gene.
October 1983, Molecular and cellular biology,
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Mutagenicity of thymidine to cultured Chinese hamster cells.
August 1978, Nature,
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[Expression in Chinese hamster transformant TK+-cells of the bacterial gene for beta-lactamase].
June 1985, Tsitologiia,
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KSHV-TK: thymidine kinase or tyrosine kinase?
February 2015, The EMBO journal,
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Mutagenicity of thymidine in Chinese hamster cells?
March 1982, Mutation research,
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Transfer of the human genes coding for thymidine kinase and galactokinase to Chinese hamster cells and human-Chinese hamster cell hybrids.
May 1977, Somatic cell genetics,
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Synthesis of thymidine kinase (TK) in Epstein-Barr virus-superinfected Raji TK-negative cells.
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