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Literature DB >> 8065896

Self-methylation of BspRI DNA-methyltransferase.

L Szilák¹, C Finta, A Patthy, P Venetianer, A Kiss.

Abstract

The DNA (cytosine-5)-methyltransferase (m5C-MTase) M.BspRI is able to accept the methyl group from the methyl donor S-adenosyl-L-methionine (AdoMet) in the absence of DNA. Transfer of the methyl group to the enzyme is a slow reaction relative to DNA methylation. Self-methylation is dependent on the native conformation of the enzyme and is inhibited by S-adenosyl-L-homocysteine, DNA and sulfhydryl reagents. Amino acid sequencing of proteolytic peptides obtained from M.BspRI, which had been methylated with [methyl-3H]AdoMet, and thin layer chromatography of the modified amino acid identified two cysteines, Cys156 and Cys181 that bind the methyl group in form of S-methylcysteine. One of the acceptor residues, Cys156 is the highly conserved cysteine which plays the role of the catalytic nucleophile of m5C-MTases.

Entities: Chemical Species

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Year: 1994 PMID： 8065896 PMCID： PMC310249 DOI： 10.1093/nar/22.15.2876

Source DB: PubMed Journal: Nucleic Acids Res ISSN： 0305-1048 Impact factor: 16.971

33 in total

1. The sequence specificity domain of cytosine-C5 methylases.

Authors: S Klimasauskas; J L Nelson; R J Roberts
Journal: Nucleic Acids Res Date: 1991-11-25 Impact factor: 16.971

2. Stereochemical studies of the C-methylation of deoxycytidine catalyzed by HhaI methylase and the N-methylation of deoxyadenosine catalyzed by EcoRI methylase.

Authors: D K Ho; J C Wu; D V Santi; H G Floss
Journal: Arch Biochem Biophys Date: 1991-02-01 Impact factor: 4.013

3. High level expression of the EcoP1 modification methylase gene and characterisation of the gene product.

Authors: D P Hornby; M Müller; T A Bickle
Journal: Gene Date: 1987 Impact factor: 3.688

4. Sequence motifs characteristic of DNA[cytosine-N4]methyltransferases: similarity to adenine and cytosine-C5 DNA-methylases.

Authors: S Klimasauskas; A Timinskas; S Menkevicius; D Butkienè; V Butkus; A Janulaitis
Journal: Nucleic Acids Res Date: 1989-12-11 Impact factor: 16.971

5. Cloning and sequencing of a cDNA encoding DNA methyltransferase of mouse cells. The carboxyl-terminal domain of the mammalian enzymes is related to bacterial restriction methyltransferases.

Authors: T Bestor; A Laudano; R Mattaliano; V Ingram
Journal: J Mol Biol Date: 1988-10-20 Impact factor: 5.469

6. Type III DNA restriction and modification systems EcoP1 and EcoP15. Nucleotide sequence of the EcoP1 operon, the EcoP15 mod gene and some EcoP1 mod mutants.

Authors: M Hümbelin; B Suri; D N Rao; D P Hornby; H Eberle; T Pripfl; S Kenel; T A Bickle
Journal: J Mol Biol Date: 1988-03-05 Impact factor: 5.469

7. Direct identification of the active-site nucleophile in a DNA (cytosine-5)-methyltransferase.

Authors: L Chen; A M MacMillan; W Chang; K Ezaz-Nikpay; W S Lane; G L Verdine
Journal: Biochemistry Date: 1991-11-19 Impact factor: 3.162

8. Identification of a highly conserved domain in the EcoRII methyltransferase which can be photolabeled with S-adenosyl-L-[methyl-3H]methionine. Evidence for UV-induced transmethylation of cysteine 186.

Authors: S Som; S Friedman
Journal: J Biol Chem Date: 1991-02-15 Impact factor: 5.157

9. Sequential order of target-recognizing domains in multispecific DNA-methyltransferases.

Authors: K Wilke; E Rauhut; M Noyer-Weidner; R Lauster; B Pawlek; B Behrens; T A Trautner
Journal: EMBO J Date: 1988-08 Impact factor: 11.598

10. Construction and use of chimeric SPR/phi 3T DNA methyltransferases in the definition of sequence recognizing enzyme regions.

Authors: T S Balganesh; L Reiners; R Lauster; M Noyer-Weidner; K Wilke; T A Trautner
Journal: EMBO J Date: 1987-11 Impact factor: 11.598

3 in total