CDS
| Accession Number | TCMCG063C44602 |
| gbkey | CDS |
| Protein Id | KAF7844965.1 |
| Location | join(27048599..27049192,27049464..27049838,27050049..27050117,27050841..27051047,27051140..27051193,27051286..27051347,27051617..27051749,27053774..27053884,27054020..27054116,27054325..27054440,27055336..27055380,27055651..27055851,27055933..27055988,27056088..27056145,27056223..27056326,27056422..27056478,27056935..27057061,27057640..27057774,27057892..27058131,27059338..27059412,27059599..27059714,27059803..27059875,27059974..27060078,27060190..27060357,27061529..27061598,27061673..27061824,27062784..27062861,27062961..27063053,27063137..27063274,27063490..27063529,27063635..27063708,27063793..27063930,27064191..27064310,27064457..27064615) |
| Organism | Senna tora |
| locus_tag | G2W53_001870 |
Protein
| Length | 1479aa |
| Molecule type | protein |
| Topology | linear |
| Data_file_division | PLN |
| dblink | BioProject:PRJNA605066, BioSample:SAMN14013601 |
| db_source | JAAIUW010000001.1 |
| Definition | DNA replication ATP-dependent helicase/nuclease DNA2 isoform X1 [Senna tora] |
| Locus_tag | G2W53_001870 |
EGGNOG-MAPPER Annotation
| COG_category | L |
| Description | DNA replication ATP-dependent helicase nuclease |
| KEGG_TC | - |
| KEGG_Module | - |
| KEGG_Reaction | - |
| KEGG_rclass | - |
| BRITE |
ko00000
[VIEW IN KEGG] ko00001 [VIEW IN KEGG] ko01000 [VIEW IN KEGG] ko03032 [VIEW IN KEGG] |
| KEGG_ko |
ko:K10742
[VIEW IN KEGG] |
| EC |
3.6.4.12
[VIEW IN KEGG]
[VIEW IN INGREDIENT] |
| KEGG_Pathway |
ko03030
[VIEW IN KEGG] map03030 [VIEW IN KEGG] |
| GOs | - |
Sequence
| CDS: ATGCCTCCAAAGAAGAAGCCGAAGAAGCCCAGTTCTTCTTCTTCTTCTTCTTCTTCCTCCTCCAAGAAGTCAAATCCGAACAACCAAGCTCAGCCTTCCAAGTTCGGCATCCAGCATTTCTTCGAGCGCCATACCCAGAATGCTCTTCTGGCCTCTCAGAAGCAACCAAAGAATGATGCAACTGCTAAAACTTCCAATTCTGCCCCTCAAGATTCCAAATCCGTTGCATCACCCACCTCTCGGAATGTTCCATGTGCTACTGGGTCGGACGCCGTTGCTTCAAAAAAGTCAGATTCCGTTCTTCCCAAAGCTGAAAGTGATTTGAACCCAAAGTCGGATGCCGTTGCTCCAAAAAAGTTAGGTTCTGCTCTTCCCAAAGCTGAAAATGATTTGAAATCAAAGGGGGATTCGGAGTTGCAAAATCCGAAAGACTGCGCGCCATTACCCGCAAATGAAGCTAATTTCTCGTCACAGAATACGCCTTCAGAGAATTTGGCAATACCTGGGTTTAATGCTGCGGAGAATCTCACCGATGTGTCTCCAGAAATATCTAAGACTGTGGCCCATAAGCGCTTTAAGTTTTCGCCTGGGATGTTTATAAAGCAAAGCCAGGACGAAGGGATTGATGAGGTTACGTGGAAGATATCCCCAGTGAATGAAAGACTCCAAGCAGTTTCAAAACACACACCTCAGATAATTCAAGCGTTGGCTGACTCTTCTAAGATCAACTTGTTGCCCATCGCAAACTCCTCCGAGGATAAGGCAAAATTTGAAAAGTTGCTTGCATCACCTATTCCCAAGGTTGCTGAAAGATCAATAGTGTCGAAGAATAAAAGAGGCTTGAAAAGGATAAATCCAGACCAAGATATGGGTTTTAATGTTAATGCAACTAATATGAGTAGCTCTGGAGTAACGCGTGAACAGAGTCCTTTCAGAACTCCTCCATCTTTATCTTTTTGCCCTGATAAGATGCAACTTGTCAGGGATGTTGAGCACAATGGATCATCTGACCAGTTTTATTTAAGACAACATAAAAAGGCATTGCTTGAACTGTTAGATCAAGTTGAAGATGCCATTTGTGTTGAAGATGCTACAATTTGTAATAAAAGCACCCATTTCTTTAAATCTCAAGATGGAATTACTGATAGTTTGCCGGTCAAAGTGGACCATGCAGTAGAAAGGACAATGTCTCATACACCAAAAGAGGTTATTGGTGTTTCCAATTCTAATTACCTGGTATTGGAGGTGTCTGAAAAGCGTAGGTCTGCTGATTCATCTGCTGTTCAATGCCCGTACAAGGTGCTTCGTTTACTAAATGAACAAACTGGAGAAGAGCGGGCTGCAAACTTGTGGGAAGAGTGGTCTTACAGTGTTATTGCACCTGGAGATACTGTGAATATAATTGGTCAATTTGATGAACAGGGAAACTGTGATGTAGACCATGATAATAATTTTTTGATTGTACACCCAAATATTCTGGTTTCTGGAACTCGGGTTGCTGGTAGTTTTAGTTGTCCAAGGAGAACTGTCTTAGACGAGAGGCTAAAATACAATGAGCACTCAATCGCAGCATTAACTGGAACTTTGCTTCACCAAATCTTTCAGGCTGGACTTATGAAGGATTGTCCTACAATAAACTTCTTAGAAGAATATGCTCGAGTGGTACTACAAAGAAACATTGAAAGTTTGTATGCATGTGGAGGAGAATTAATTTATTTCTCTTCAAGTATTTCAGTAAATGAGAATGATGTTCAGAAAACCTTGATTGATGCAATCCCAAGACTTTTGAACTGGATCAAGCTGTTCAAGAAGTCAGAGGAAAAAAAGAAAGACGCTTATGTTGATTTTGGATCTGATGATGGGGTAATTGATATTGAGGAGATGGCATGGGCTCCAAAATATGGTTTAAAAGGAATGATTGATGCTTCTCTCAGCGTGAAAGTTCAACCAAATAAAAATGAAGCGGATGAGAAGATCATGCCATTAGAATTCAAAACTGGGAAATCAACTTATAGCCAGGCAAGATTCTGGTCCTTAGTACTAATATCTACTATAAAAGGACAGTCATCTGTAGAGCACCGTGCCCAAGTAATCTTATACACTCTTCTGATGTCTGAAAGGTATCAGAAGAATATAAATTCTGGTCTTCTATATTATCTCCAGTCAGATCAGACAGAGGGCATTGTGGTTCGAAGATCTGACTTAGTTGGGCTAATCATGCGACGTAATGAGCTTGCAAGTGATATTCTTAAGGCATTGACTATGCAACAACTGCCTCCAATAGTCCTAGCATTTGCAGAGGTTGTCGCCATCTTAATGTTTGTAGCATTTATCATAAGCAGATTGTTGTGGAAACTGGACACAAGTTTTAAAATGGAATTTTTGATGAGTGGCATTGTGGCAGGTATTATTACAAGTGCTATTGGAACTGTCATTATCAGACTATCTATTGGAGTCAGGATTGAGGTACATGGGGGAAGCACAGAGAGTAGTGGATTGGGAGATGCGTTTGATTCTCATACTAATCACCTAACACCTGTTCATTCGAAGTTCCTCTGCCATTGGGATCGACTGATTGACCTAGAAGCTAAAGAGACTGAGCTTGTAAAGAAAGAGATGTGGCGATCACTTACTTCTAAGAGACAGAACTGTGGTGGTCTTTCTTCTATTGTTCTTGATGCTTCAGATAGGATTCCATGCCAGAAATCTCCCAAAGATAACCGTTTCGTTTATCGTTTTGTACGACATGATCCATCTTCTCTCTCTGAAGTGTCAAATGGTGATCCTTCTGTCGAGTCATCAAATTATTTAGATCTCACACTTAGAAGTGGAGACTACGTGATATTGAGCACTGAATCTAGCTGTCAAACTATTGCGAGTGGGGTGATTACTGATATTAGTCACACCCATATTTCTGTTTCCTTTTCAAAGCGCTTGCGGATTCCTGGGAGTACTTCCACCACACGGGATCTTCTTCAACAGTTTTGGAGAATTAACAAGGATGAAAGTGTGACTTCATTTGCCATTATGAGGTTTAATCTTGTACAACTATTTCTACAAAATGATCAAAGTACTCATCTACGGAGGATGATTGTTGATCTTGAGGCTCCTAAATTTGACAGTGGTTCTATGCTCAGCCAGGATCCGGCAATATCGTATGTGTGGTCAGAGAAAAATTTGAATGATGATCAACGGAGAGCAATTCTCAAGATACTTACTGCAAAGGATTACACACTTATTCTAGGGATGCCAGGAACAGGGAAGACATCCACCATGGTTCATGCTGTGAAAGCCTTATTAATTAGAGGAACATCTATTTTGCTGACAGCCTATACAAATTCTGCTGTTGATAATTTACTTATCAAATTAAAAGCTCAGGGCATTGATTTTGTACGTATTGGAAGACACGAAGCTGTGCATGAGGAGGTTAGAGGACACTGTATTTCAGCGACGAATGTACAAAATGTTGAAGAGATTAAAATAAGGTTAGAACAAGTTAAAGTTGTTGCGGTTACATGTCTGGGCATCACCAGTCCCTTGCTTGCCAACAGGACATTTGATGTATGCATTATGGACGAAGCTGGACAGACAACTTTACCAGTGTCCCTGGGCCCTCTCATATTTTCTTCAATGTTTGTACTTGTTGGGGATCATTATCAACTACCTCCACTTGTCCAGAGTACAGAGGCTCGAGAGAATGGCATGGGTATAAGTTTGTTTTGTAGGCTCTCTGAAGCTCATCCACAAGCAATTTCAGCATTACAGAGTCAGTACCGCATGTGCCAGAGCATTATGGACCTGTCAAATGCCTTGATATATGGTGACAGGTTGAGGTGCGGTTCCTCTGAGATAGCTAATGCAAAGCTTGAGTTTGTAAGCTTACAATGTGGCTTGCCTTGGCTTAAAAATGTTTTGAATCCAGGAAGGCCAGTGATCTTTATTAATACTGATAAGCTGCCTGCTTTAGAGGCGCGAGAACAAAAAAATGTAAATAACCCTGTGGAAGCTCACATAATAGCAGAGATTGCAAAGGAATTGATAAAAAATGGAATTGGAGGAGAACAGATTGGCATTATTACTCCCTATAATTCTCAGGCAAACCTCATACGGCATGCTGCTTGCATGACATCGTTGGAGATACATACCATTGACAAATACCAGGGCAGAGATAAGGACTGCATATTAGTGTCTTTTGTGAGGTCTAGTGAAAATCCATCAAGCTGTGCTTCTTCTCTGCTTGGAGACTGGCACAGGATAAATGTGGCTCTCACTCGTGGCAAGAAAAAACTGATAATGGTGGGTTCTTGTAGAACTCTATCAAAGGTTCCACTGCTAAAGCTTCTGATCAAGAAGGTTGAGGAGCAATCAGGAATTTTGAGTTTCTCCAAGAAGGATATCTATCAACAAGGAGAGCTAAAAAGATGTTCCCATATGAGATGA |
| Protein: MPPKKKPKKPSSSSSSSSSSSKKSNPNNQAQPSKFGIQHFFERHTQNALLASQKQPKNDATAKTSNSAPQDSKSVASPTSRNVPCATGSDAVASKKSDSVLPKAESDLNPKSDAVAPKKLGSALPKAENDLKSKGDSELQNPKDCAPLPANEANFSSQNTPSENLAIPGFNAAENLTDVSPEISKTVAHKRFKFSPGMFIKQSQDEGIDEVTWKISPVNERLQAVSKHTPQIIQALADSSKINLLPIANSSEDKAKFEKLLASPIPKVAERSIVSKNKRGLKRINPDQDMGFNVNATNMSSSGVTREQSPFRTPPSLSFCPDKMQLVRDVEHNGSSDQFYLRQHKKALLELLDQVEDAICVEDATICNKSTHFFKSQDGITDSLPVKVDHAVERTMSHTPKEVIGVSNSNYLVLEVSEKRRSADSSAVQCPYKVLRLLNEQTGEERAANLWEEWSYSVIAPGDTVNIIGQFDEQGNCDVDHDNNFLIVHPNILVSGTRVAGSFSCPRRTVLDERLKYNEHSIAALTGTLLHQIFQAGLMKDCPTINFLEEYARVVLQRNIESLYACGGELIYFSSSISVNENDVQKTLIDAIPRLLNWIKLFKKSEEKKKDAYVDFGSDDGVIDIEEMAWAPKYGLKGMIDASLSVKVQPNKNEADEKIMPLEFKTGKSTYSQARFWSLVLISTIKGQSSVEHRAQVILYTLLMSERYQKNINSGLLYYLQSDQTEGIVVRRSDLVGLIMRRNELASDILKALTMQQLPPIVLAFAEVVAILMFVAFIISRLLWKLDTSFKMEFLMSGIVAGIITSAIGTVIIRLSIGVRIEVHGGSTESSGLGDAFDSHTNHLTPVHSKFLCHWDRLIDLEAKETELVKKEMWRSLTSKRQNCGGLSSIVLDASDRIPCQKSPKDNRFVYRFVRHDPSSLSEVSNGDPSVESSNYLDLTLRSGDYVILSTESSCQTIASGVITDISHTHISVSFSKRLRIPGSTSTTRDLLQQFWRINKDESVTSFAIMRFNLVQLFLQNDQSTHLRRMIVDLEAPKFDSGSMLSQDPAISYVWSEKNLNDDQRRAILKILTAKDYTLILGMPGTGKTSTMVHAVKALLIRGTSILLTAYTNSAVDNLLIKLKAQGIDFVRIGRHEAVHEEVRGHCISATNVQNVEEIKIRLEQVKVVAVTCLGITSPLLANRTFDVCIMDEAGQTTLPVSLGPLIFSSMFVLVGDHYQLPPLVQSTEARENGMGISLFCRLSEAHPQAISALQSQYRMCQSIMDLSNALIYGDRLRCGSSEIANAKLEFVSLQCGLPWLKNVLNPGRPVIFINTDKLPALEAREQKNVNNPVEAHIIAEIAKELIKNGIGGEQIGIITPYNSQANLIRHAACMTSLEIHTIDKYQGRDKDCILVSFVRSSENPSSCASSLLGDWHRINVALTRGKKKLIMVGSCRTLSKVPLLKLLIKKVEEQSGILSFSKKDIYQQGELKRCSHMR |