kw.\*:("DNA (cytosine-5-)-methyltransferase")
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Eukaryotic DNA methylation : facts and problemsDOERFLER, W; TOTH, M; KOCHANEK, S et al.FEBS letters. 1990, Vol 268, Num 2, pp 329-333, issn 0014-5793Article
Reduced methyl group acceptance of 1-β-D-arabinofuranosylcytosine-containing DNA polymersGRÜNWALD, S; DRIEVER, P. H; HOELZER, D et al.Biochimica et biophysica acta. 1988, Vol 950, Num 3, pp 366-373, issn 0006-3002Article
The irreversible binding of azacytosine-containing DNA fragments to bacterial DNA (cytosine)methyltransferasesFRIEDMAN, S.The Journal of biological chemistry (Print). 1985, Vol 260, Num 9, pp 5698-5705, issn 0021-9258Article
Evidence that Escherichia coli virus T1 induces a DNA methyltransferaseAUER, B; SCHWEIGER, M.Journal of virology. 1984, Vol 49, Num 2, pp 588-590, issn 0022-538XArticle
Purification of human DNA (cytosine-5-)-methyltransferaseZUCKER, K. E; RIGGS, A. D; SMITH, S. S et al.Journal of cellular biochemistry. 1985, Vol 29, Num 4, pp 337-349, issn 0730-2312Article
Activation of mammalian DNA methyltransferase by cleavage of a Zn binding regulatory domainBESTOR, T. H.EMBO journal (Print). 1992, Vol 11, Num 7, pp 2611-2617, issn 0261-4189Article
High plasticity of multispecific DNA methyltransferases in the region carrying DNA target recognizing enzyme modulesWALTER, J; TRAUTNER, T. A; NOYER-WEIDNER, M et al.EMBO journal (Print). 1992, Vol 11, Num 12, pp 4445-4450, issn 0261-4189Article
Survival and mutagenic effects of 5-azacytidine in Escherichia coliLAL, D; SOM, S; FRIEDMAN, S et al.Mutation research. 1988, Vol 193, Num 3, pp 229-236, issn 0027-5107Article
Molecular Cloning, Expression, and Characterization of Starfish DNA (Cytosine-5)-methyltransferasesFUJIHARA, Yoshihito; MIYASAKO, Hiroshi; KATO, Kumiko et al.Bioscience, biotechnology, and biochemistry. 2012, Vol 76, Num 9, pp 1661-1671, issn 0916-8451, 11 p.Article
Dnmt3a-Dependent Nonpromoter DNA Methylation Facilitates Transcription of Neurogenic GenesHAO WU; COSKUN, Volkan; JIFANG TAO et al.Science (Washington, D.C.). 2010, Vol 329, Num 5990, pp 444-448, issn 0036-8075, 5 p.Article
Inactivation of de novo DNA methyltransferase activity by high concentrations of double-stranded DNAPALITTI, F; CAROTTI, D; GRUNWALD, S et al.Biochimica et biophysica acta. 1987, Vol 910, Num 3, pp 292-296, issn 0006-3002Article
Subunit and functional size of human placental DNA methyltransferase involved in de novo and maintenance methylationYOO, H; NOSHARI, J; LAPEYRE, J.-N et al.The Journal of biological chemistry (Print). 1987, Vol 262, Num 17, pp 8066-8070, issn 0021-9258Article
Assignment of candidate DNA methyltransferase gene (DNMT2) to human chromosome band 10p15.1 by in situ hybridizationVILAIN, A; APIOU, F; DUTRILLAUX, B et al.Cytogenetics and cell genetics. 1998, Vol 82, Num 1-2, issn 0301-0171, p. 120Conference Paper
An amazing distortion in DNA induced by a methyltransferase (Nobel lecture)ROBERTS, R. J.Angewandte Chemie. International edition in English. 1994, Vol 33, Num 12, pp 1222-1228, issn 0570-0833Article
Increased expression of hepatic DNA methyltransferase in smokersHAMMONS, G. J; YAN, Y; LOPATINA, N. G et al.Cell biology and toxicology. 1999, Vol 15, Num 6, pp 389-394, issn 0742-2091Article
Recognition of foldback DNA by human DNA (cytosine-5-)-methyltransferaseSMITH, S. S; LINGEMAN, R. G; KAPLAN, B. E et al.Biochemistry (Easton). 1992, Vol 31, Num 3, pp 850-854, issn 0006-2960Article
Determination of the DNA methylase activity and the change in the acceptor capacity of nuclear DNA of wheat sprouts during the cell cycle after heterologous methylation of M. Eco RIIVLASOVA, T. I; KIRNOS, M. D; VANYUSHIN, B. F et al.Biochemistry (New York). 1989, Vol 54, Num 9, pp 1261-1265, issn 0006-2979, 1Article
Sequence motifs characteristic of DNA[cytosine-N4]methyltransferases: similarity to adenine and cytosine-C5 DNA-methylasesKLIMASAUSKAS, S; TIMINSKAS, A; MENKEVICIUS, S et al.Nucleic acids research. 1989, Vol 17, Num 23, pp 9823-9832, issn 0305-1048Article
Eukaryotic DNA methylase ― Properties and action on native DNA and chromatinADAMS, R. L. P; DAVIS, T; FULTON, J et al.Current Topics in Microbiology and Immunology. 1984, Num 108, pp 143-156, issn 0070-217XArticle
The primary DNA sequence determines in vitro methylation by mammalian DNA methyltransferasesBOLDEN, A. H; WARD, C. A; NALIN, C. M et al.Progress in nucleic acid research and molecular biology. 1986, Vol 33, pp 231-250, issn 0079-6603Article
Does the DNA methylase Eco dam pair nucleotide sequences to form siter-specific duplexes?BURYANOV, YA. I; ZINOVIEV, V. V; VIENOZHINSKIS, M. T et al.FEBS letters. 1984, Vol 168, Num 1, pp 166-168, issn 0014-5793Article
DNA methylases separated through the HeLa cell cycle methodology show allosteric propertiesDELFINI, C; CREMA, A. L; ALFANI, E et al.FEBS letters. 1987, Vol 210, Num 1, pp 17-21, issn 0014-5793Article
Increased DNA methyltransferase expression in rhabdomyosarcomasCHEN, B; LIU, X; SAVELL, V. H et al.International journal of cancer. 1999, Vol 83, Num 1, pp 10-14, issn 0020-7136Article
Uracil as an alternative to 5-fluorocytosine in addressable protein targetingWENDEL, J. A; SMITH, S. S.Nanotechnology (Bristol. Print). 1998, Vol 9, Num 3, pp 297-304, issn 0957-4484Conference Paper
Human DNA-(cytosine-5) methyltransferase-PCNA complex as a target for p21WAF1CHUANG, L. S.-H; IAN, H.-I; KOH, T.-W et al.Science (Washington, D.C.). 1997, Vol 277, Num 5334, pp 1996-2000, issn 0036-8075Article