| scholarly article | Q13442814 |
| P6179 | Dimensions Publication ID | 1022963114 |
| P356 | DOI | 10.1186/1471-2148-2-3 |
| P932 | PMC publication ID | 102321 |
| P698 | PubMed publication ID | 11914127 |
| P5875 | ResearchGate publication ID | 11450639 |
| P50 | author | Janusz Bujnicki | Q11720088 |
| P2860 | cites work | Circular Permutations in the Molecular Evolution of DNA Methyltransferases | Q21045391 |
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| SWISS-MODEL and the Swiss-PdbViewer: an environment for comparative protein modeling | Q27860614 | ||
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| Molecular evolution of DNA-(cytosine-N4) methyltransferases: evidence for their polyphyletic origin | Q30583278 | ||
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| On the evolution of protein folds: are similar motifs in different protein folds the result of convergence, insertion, or relics of an ancient peptide world? | Q34364840 | ||
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| Cytosine-specific type II DNA methyltransferases. A conserved enzyme core with variable target-recognizing domains | Q34525794 | ||
| Understanding the evolution of restriction-modification systems: clues from sequence and structure comparisons. | Q34627894 | ||
| Conserved plant genes with similarity to mammalian de novo DNA methyltransferases. | Q35702821 | ||
| Agmenellum quadruplicatum M.AquI, a novel modification methylase | Q36156622 | ||
| Cloning of the BssHII restriction-modification system in Escherichia coli : BssHII methyltransferase contains circularly permuted cytosine-5 methyltransferase motifs | Q39721447 | ||
| Predictive motifs derived from cytosine methyltransferases | Q40448394 | ||
| Circular permutation of polypeptide chains: implications for protein folding and stability | Q41296871 | ||
| High plasticity of multispecific DNA methyltransferases in the region carrying DNA target recognizing enzyme modules | Q41545417 | ||
| M.(phi)BssHII, a novel cytosine-C5-DNA-methyltransferase with target-recognizing domains at separated locations of the enzyme | Q42283657 | ||
| Cloning and characterization of M.LmoA118I, a novel DNA:m4C methyltransferase from the Listeria monocytogenes phage A118, a close homolog of M.NgoMXV. | Q42664382 | ||
| Characterization and cloning of MwoI (GCN7GC), a new type-II restriction-modification system from Methanobacterium wolfei | Q43018253 | ||
| Homology modelling of the DNA 5mC methyltransferase M.BssHII. Is permutation of functional subdomains common to all subfamilies of DNA methyltransferases? | Q47858375 | ||
| Structure-guided analysis reveals nine sequence motifs conserved among DNA amino-methyltransferases, and suggests a catalytic mechanism for these enzymes | Q48069333 | ||
| Cloning of enterohemorrhagic Escherichia coli phage VT-2 dam methyltransferase | Q50112274 | ||
| On the Substrate Specificity of DNA Methyltransferases | Q57267693 | ||
| Evolution of sequence recognition by restriction-modification enzymes: selective pressure for specificity decrease | Q73168470 | ||
| Structural characterization of two tandemly arranged DNA methyltransferase genes from Neisseria gonorrhoeae MS11: N4-cytosine specific M.NgoMXV and nonfunctional 5-cytosine-type M.NgoMorf2P | Q73393627 | ||
| Comparison between Pyrococcus horikoshii and Pyrococcus abyssi genome sequences reveals linkage of restriction-modification genes with large genome polymorphisms | Q73408438 | ||
| Comparison of protein structures reveals monophyletic origin of the AdoMet-dependent methyltransferase family and mechanistic convergence rather than recent differentiation of N4-cytosine and N6-adenine DNA methylation | Q74294989 | ||
| Structure prediction meta server | Q74428462 | ||
| Molecular phylogenetics of DNA 5mC-methyltransferases | Q78193778 | ||
| P433 | issue | 1 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 3 | |
| P577 | publication date | 2002-03-12 | |
| P1433 | published in | BMC Evolutionary Biology | Q13418959 |
| P1476 | title | Sequence permutations in the molecular evolution of DNA methyltransferases | |
| P478 | volume | 2 |
| Q42717756 | A rewired green fluorescent protein: folding and function in a nonsequential, noncircular GFP permutant |
| Q34140884 | Atomic Structure of Bordetella Bacteriophage Reveals a Jellyroll Fold in CementProtein and a Topologically Distinct HK97-like Fold in Major Capsid Protein |
| Q26825752 | Bacteriophage orphan DNA methyltransferases: insights from their bacterial origin, function, and occurrence |
| Q21045415 | CPSARST: an efficient circular permutation search tool applied to the detection of novel protein structural relationships |
| Q55085413 | Characterizing the DNA Methyltransferases of Haloferax volcanii via Bioinformatics, Gene Deletion, and SMRT Sequencing. |
| Q5121672 | Circular permutation in proteins |
| Q55023866 | Circularly permuted variants of two CG-specific prokaryotic DNA methyltransferases. |
| Q34168395 | Deciphering the preference and predicting the viability of circular permutations in proteins |
| Q56899286 | Evolution of new protein topologies through multistep gene rearrangements |
| Q37735364 | From local structure to a global framework: recognition of protein folds. |
| Q52571195 | Functional analysis of amino acid residues at the dimerisation interface of KpnI DNA methyltransferase. |
| Q33255252 | Genome and proteome characterization of the psychrophilic Flavobacterium bacteriophage 11b. |
| Q33783220 | Genome comparison and context analysis reveals putative mobile forms of restriction-modification systems and related rearrangements |
| Q47233097 | Genome-wide analysis of restriction-modification system in unicellular and filamentous cyanobacteria |
| Q38107444 | Mapping and significance of the mRNA methylome. |
| Q38797211 | Mechanisms and Biological Roles of DNA Methyltransferases and DNA Methylation: From Past Achievements to Future Challenges |
| Q43880972 | Molecular cloning and characterization of the DNA adenine methyltransferase gene in Feldmannia sp. virus |
| Q36305686 | Movement of DNA sequence recognition domains between non-orthologous proteins. |
| Q33294515 | Multiple domain insertions and losses in the evolution of the Rab prenylation complex |
| Q24816614 | Natural history of S-adenosylmethionine-binding proteins |
| Q35115360 | Network analysis of circular permutations in multidomain proteins reveals functional linkages for uncharacterized proteins |
| Q34091253 | On the evolutionary origin of eukaryotic DNA methyltransferases and Dnmt2. |
| Q80773252 | Plant cytosine-5 DNA methyltransferases: structure, function, and molecular evolution |
| Q46000096 | Protein chainmail variants in dsDNA viruses. |
| Q21045410 | Rapid motif-based prediction of circular permutations in multi-domain proteins |
| Q31054232 | Related bifunctional restriction endonuclease-methyltransferase triplets: TspDTI, Tth111II/TthHB27I and TsoI with distinct specificities |
| Q33276931 | Structural and evolutionary bioinformatics of the SPOUT superfamily of methyltransferases |
| Q34687096 | Structural and functional studies of S-adenosyl-L-methionine binding proteins: a ligand-centric approach |
| Q36598928 | Structure, function and mechanism of exocyclic DNA methyltransferases |
| Q34416190 | Targeted DNA methylation using an artificially bisected M.HhaI fused to zinc fingers |
| Q64075885 | The Patchy Distribution of Restrictionā»Modification System Genes and the Conservation of Orphan Methyltransferases in Halobacteria |
| Q91287194 | The bacterial epigenome |
| Q38143721 | Type I restriction enzymes and their relatives. |
| Q33384948 | Type II restriction endonuclease R.Hpy188I belongs to the GIY-YIG nuclease superfamily, but exhibits an unusual active site |
| Q33440114 | iSARST: an integrated SARST web server for rapid protein structural similarity searches |
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