| Analysis | Hit | start | end | length | Note | Hit coverage | Hit length | Hit pident | Hit pcons | eValue | Hit description |
| blastp_kegg | bfu:BC1G_09864 | 26 | 1126 | 1101 | n/a | 97.78 | 1126 | 91.19 | 0.00 | 0.0 | hypothetical protein |
| ssl:SS1G_05055 | 33 | 1126 | 1094 | Gaps:68 | 99.29 | 1126 | 54.56 | 10.29 | 0.0 | hypothetical protein |
| ssl:SS1G_00377 | 216 | 1042 | 827 | Gaps:43 | 70.72 | 789 | 40.50 | 15.23 | 5e-76 | hypothetical protein K00558 DNA (cytosine-5-)-methyltransferase [EC:2.1.1.37] |
| bfu:BC1G_00725 | 261 | 1042 | 782 | Gaps:49 | 57.49 | 861 | 43.03 | 14.34 | 8e-75 | hypothetical protein K00558 DNA (cytosine-5-)-methyltransferase [EC:2.1.1.37] |
| ang:An15g01770 | 713 | 1036 | 324 | Gaps:24 | 52.53 | 613 | 41.61 | 19.57 | 7e-62 | hypothetical protein K00558 DNA (cytosine-5-)-methyltransferase [EC:2.1.1.37] |
| nfi:NFIA_050260 | 731 | 1036 | 306 | Gaps:19 | 47.31 | 632 | 44.15 | 17.73 | 2e-61 | C-5 cytosine methyltransferase DmtA K00558 DNA (cytosine-5-)-methyltransferase [EC:2.1.1.37] |
| pan:PODANSg4442 | 276 | 1039 | 764 | Gaps:45 | 66.49 | 752 | 40.00 | 14.60 | 1e-60 | hypothetical protein K00558 DNA (cytosine-5-)-methyltransferase [EC:2.1.1.37] |
| ani:AN6638.2 | 731 | 1036 | 306 | Gaps:33 | 48.62 | 615 | 44.15 | 17.06 | 6e-60 | similar to AF428247_1 c5 cytosine methyltransferase DmtA K00558 DNA (cytosine-5-)-methyltransferase [EC:2.1.1.37] |
| afm:AFUA_6G03740 | 731 | 1036 | 306 | Gaps:19 | 47.61 | 628 | 43.48 | 18.39 | 7e-60 | C-5 cytosine methyltransferase DmtA K00558 DNA (cytosine-5-)-methyltransferase [EC:2.1.1.37] |
| ure:UREG_03572 | 264 | 1040 | 777 | Gaps:47 | 88.27 | 571 | 38.10 | 18.25 | 2e-58 | hypothetical protein K00558 DNA (cytosine-5-)-methyltransferase [EC:2.1.1.37] |
| blastp_uniprot_sprot | sp|Q59606|MTF7_NEIGO | 737 | 1018 | 282 | Gaps:52 | 81.82 | 374 | 28.76 | 13.73 | 1e-16 | Modification methylase NgoFVII OS Neisseria gonorrhoeae GN ngoFVIIM PE 3 SV 1 |
| sp|P50192|MTHA_HAEPH | 719 | 1030 | 312 | Gaps:59 | 89.52 | 372 | 26.43 | 15.62 | 4e-14 | Modification methylase HphIA OS Haemophilus parahaemolyticus GN hphIAM PE 3 SV 1 |
| sp|P50188|MTN1_NOCAE | 738 | 903 | 166 | Gaps:12 | 37.77 | 413 | 30.77 | 16.03 | 5e-10 | Modification methylase NaeI OS Nocardia aerocolonigenes GN naeIM PE 3 SV 1 |
| sp|P31033|MTM4_NEIGO | 738 | 1036 | 299 | Gaps:68 | 97.12 | 312 | 28.05 | 14.85 | 3e-09 | Modification methylase NgoMIV OS Neisseria gonorrhoeae GN ngoMIVM PE 3 SV 1 |
| sp|Q27746|DNMT1_PARLI | 735 | 904 | 170 | Gaps:8 | 10.92 | 1612 | 26.70 | 16.48 | 3e-09 | DNA (cytosine-5)-methyltransferase PliMCI OS Paracentrotus lividus GN DNMT PE 2 SV 1 |
| sp|O52702|MTA1_ACEPA | 737 | 904 | 168 | Gaps:10 | 37.30 | 429 | 31.25 | 18.75 | 4e-09 | Modification methylase ApaLI OS Acetobacter pasteurianus GN apaLIM PE 3 SV 1 |
| sp|P94147|MTA1_RUEGE | 735 | 905 | 171 | Gaps:15 | 38.69 | 429 | 25.90 | 19.88 | 3e-08 | Modification methylase AgeI OS Ruegeria gelatinovora GN ageIM PE 3 SV 1 |
| sp|P50196|MTE8_ECOLX | 730 | 903 | 174 | Gaps:12 | 39.33 | 417 | 32.93 | 12.20 | 3e-08 | Modification methylase Eco47II OS Escherichia coli GN eco47IIM PE 3 SV 1 |
| sp|O33481|MTP1_PSYTA | 721 | 1032 | 312 | Gaps:55 | 81.97 | 416 | 26.69 | 12.02 | 1e-07 | Modification methylase PspPI OS Psychrobacter sp. (strain TA137) GN pspPIM PE 3 SV 1 |
| blastp_pdb | 3g7u_A | 735 | 903 | 169 | Gaps:6 | 43.35 | 376 | 27.61 | 13.50 | 4e-08 | mol:protein length:376 Cytosine-specific methyltransferase |
| rpsblast_cdd | gnl|CDD|30619 | 729 | 1033 | 305 | Gaps:41 | 98.78 | 328 | 23.77 | 13.89 | 8e-33 | COG0270 Dcm Site-specific DNA methylase [DNA replication recombination and repair]. |
| gnl|CDD|73191 | 731 | 1030 | 300 | Gaps:33 | 100.00 | 275 | 26.18 | 14.18 | 8e-29 | cd00315 Cyt_C5_DNA_methylase Cytosine-C5 specific DNA methylases Methyl transfer reactions play an important role in many aspects of biology. Cytosine-specific DNA methylases are found both in prokaryotes and eukaryotes. DNA methylation or the covalent addition of a methyl group to cytosine within the context of the CpG dinucleotide has profound effects on the mammalian genome. These effects include transcriptional repression via inhibition of transcription factor binding or the recruitment of methyl-binding proteins and their associated chromatin remodeling factors X chromosome inactivation imprinting and the suppression of parasitic DNA sequences. DNA methylation is also essential for proper embryonic development and is an important player in both DNA repair and genome stability.. |
| gnl|CDD|143915 | 731 | 1030 | 300 | Gaps:49 | 100.00 | 319 | 26.65 | 12.23 | 2e-27 | pfam00145 DNA_methylase C-5 cytosine-specific DNA methylase. |
| gnl|CDD|161991 | 735 | 1028 | 294 | Gaps:53 | 99.37 | 315 | 25.88 | 13.10 | 6e-21 | TIGR00675 dcm DNA-methyltransferase (dcm). All proteins in this family for which functions are known are DNA-cytosine methyltransferases. This family is based on the phylogenomic analysis of JA Eisen (1999 Ph.D. Thesis Stanford University). |
| gnl|CDD|165575 | 714 | 921 | 208 | Gaps:18 | 26.55 | 791 | 31.43 | 10.48 | 4e-18 | PHA03331 PHA03331 DNA (cytosine-5-)-methyltransferase Provisional. |
| rpsblast_kog | no results |
Gene Identifier
Genome Report System - copyright INRA 2011