Sequence-specific recognition of cytosine C5 and adenine N6 DNA methyltransferases requires different deformations of DNA.
- 23 July 1996
- journal article
- research article
- Published by Proceedings of the National Academy of Sciences in Proceedings of the National Academy of Sciences
- Vol. 93 (15) , 7618-7622
- https://doi.org/10.1073/pnas.93.15.7618
Abstract
DNA methyltransferases modify specific cytosines and adenines within 2-6 bp recognition sequences. We used scanning force microscopy and gel shift analysis to show that M.HhaI, a cytosine C-5 DNA methyltransferase, causes only a 2 degree bend upon binding its recognition site. Our results are consistent with prior crystallographic analysis showing that the enzyme stabilizes an extrahelical base while leaving the DNA duplex otherwise unperturbed. In contrast, similar analysis of M.EcoRI, an adenine N6 DNA methyltransferase, shows an average bend angle of approximately 52 degrees. This distortion of DNA conformation by M.EcoRI is shown to be important for sequence-specific binding.Keywords
This publication has 35 references indexed in Scilit:
- Mode of action of the Spiroplasma CpG methylase M.SssIPublished by Wiley ,2001
- Contribution of Facilitated Diffusion and Processive Catalysis to Enzyme Efficiency: Implications for the EcoRI Restriction−Modification SystemBiochemistry, 1996
- Atomic model of a pyrimidine dimer excision repair enzyme complexed with a dna substrate: Structural basis for damaged DNA recognitionCell, 1995
- Structure-guided Analysis Reveals Nine Sequence Motifs Conserved among DNA Amino-methyl-transferases, and Suggests a Catalytic Mechanism for these EnzymesJournal of Molecular Biology, 1995
- Universal Catalytic Domain Structure of AdoMet-dependent MethyltransferasesJournal of Molecular Biology, 1995
- Structure and function of the multifunctional DNA-repair enzyme exonuclease IIINature, 1995
- The structural basis of specific base-excision repair by uracil–DNA glycosylaseNature, 1995
- DNA bending by Cro protein in specific and nonspecific complexes: implications for protein site recognition and specificityScience, 1994
- Investigation of Ionizable Residues Critical for Sequence-Specific Enzymic DNA Modification: Protein Modification and Steady-State and Pre-Steady-State Kinetic pH Analyses of EcoRI DNA MethyltransferaseBiochemistry, 1994
- Crystal structure of a yeast TBP/TATA-box complexNature, 1993