Gene search

Sequence information

Select Gene Cds Cds_length GC_content Pep Pep_length
Eupl12g01142 ATGGCGTCTTCACATCATGTCGAAATGGAGGCAGCAAAGTTCCTGCAAAAGCTCATTCAGGATTCGAAAGACGAGCCTTTGAAATTGGCGACAAAACTTTACGTGATTTGCCAACACATGAAAATAAGTGGAAAGGAACAGTCCTTGCCGTATCAAGTGATATCCAGGGCTATGGAAACTGTCATCAATCAGCATGGTATTGATATTGAGGTTTTGAAGTCATCTCGCCTGCCTTTGACAGGTGGACCTCAAATAGGGGATTCTGGGAATGCAAGGTCAATGGACAAGGATGCACCTGATAATCCAGCACCTATAGGTGCTAGCGACATCCCTTTTAGAGGTGCACCTGTCAGTAAATGGCATGCTGCATCAAGTAGTGAGAAGAAGGAAGAAGTTTATGGAGGTTCTGTCCAGAGTGTTGGCATTTTGAAAGATTCTAAAACAGGTTTATCTGAGAATGAGATGGCCAGGCATGATGCAATTAATCCCCACAGACCACCTGTTGGGCTAAGCAGGGTGGAAAGTGGCGGACATGATTTTTATCAAGGATCTATATCTCAGAGAAGTAATAATTTATTTGAGCATGAAAGTCCATCCAGCCTGGACACCAGATCTGCGAACTCACAGGAAAGGCGTGATACTGCAAAACTAGATAAACAGGGACATCAGAAAAGTAAAAAAACAAGTGCTAAGAGAAAGAGAGCAGATTCAACATCGGCCACGGATGCGCACACTGACAACCTCCAGCAATTAGATAATCCCAACACTGGATTTAACCCACGGAAGGGGAAGGTGATGAACAAGGGTGATGCGCAGGGCCATTTTACTGTCAAAGGTGGAGATCATGATCACGCAAGTACTGTTCAGAACAGTGGTCATGTGGAGCATATGTCATTGCTGTCTAGTGGCATGGGATCCATATTTAGAGCAAAGCAAGAGAATCCAAGTTTTTCGGAAAGGTCGATGGAAAAAACACAAATTACAAATTCGTTACCAATGGCTCCAACTTCAAAATATCCCGAGGAGGGCGAAGGTTCTGCTGCTCATGGTGCCGTTGGACATCAGAAAGGAGGTTTGTTTCTGTCCAGACACGACACTGTCAATCCTAGGAGTGTTTGGAATCAATTTAAAGTGGGTTTACCCTCAGAAAATTCTCAATTTTCTAGGTTTGCTCCTAATGTTGTTTCAAGTTCGACAGCAGAAATTTCTATGCCCCAGTCAACAGCTCCATCTATTGGAACTAATAAGGAAGCTGTAACAATTGGAAATGAGATGAAAACTAATATTTATGATTCCAAGTTGACAGAAAACAAGGTTTTTGAGTTTTCGGGGCAGTCCTCTGAAGGAACGGTACTGAATAAGGCTGGTAAATTTTGGCAACAAAGGGTTCCTCACTCAGCACAGACGATTGGAGGAGAATTTCTTAATAACGAGGCCGAACTTGGGGGTCCTGGAAGATCTCCTGTTGTAAACAGTAATGCTTCACATGGCATTACTGGAATATCAGGTGGTATTGGCAAGGTTCATGGAGGAATGTCTGGACCTTTTAGCTCTTATGCGATGGTAAAGACAGGTTTCTCTGCTCCAATACAATTTAGCAGTTCTTTGTTTGATAGTCATGATCTGGCTTCAAATGTGCATAAGGAGAGAAGCACAGAAGCTTCTTCTGGTTCTCAGTTGCTGGAAAAGAGCAAAGACATGATGGCTACTGATGCTTCCATGAAATCTCCTTCCATTGACCTGTCTTCTGCTAAAGTTGCAGTTGATTCTGAACACAGGAAGTCTGGATTCATGAAAGATGCAGAACTAAGTATTTCTGAGAAAGTTATGGAAGCCCAGTTGGGTTCAGTTACTCGAGGGGAAGAAACATTAACTCCTCTGTCTGTCGGAAAGGTCTTAGAGCAGGATGGGGGCATTTTACACGCAGTAGGCAATACATATAAGATGGTTCAGGGCAGTGGATATCAGGGACACCAAATTAAGGAAAATCTTGATACGGGAAAAACTTCAATGTCTCCTCCAGTCTCCTCAGGCATGCCCTTTAAGGAACAACAGTTGAAACAACTCAGAGCCCAGTGCCTTGTTTTTCTAGCATTCAGAAATGGTTTGGTGCCGAGGAAACTACATCTTGAAATTGCACTTGGAGACAGTTCCCCAAAAGAAGATGGAGCTCGTCGAGAACTGAATGATAACAATTCTCTAAAGGAGCCCAGTAGTAGTAACGAAGCCACTGGTGCATTTGGAAGGCCAAATGATATCAGGGAAACTGAAAGAATTCCTCCAAGTTCGTCATCTACGGGAAGTCTAATAGAGACCGAGTCCTCATCAAAAGACACGGAGAATCCAAAGAAGATGAAGAACAAAAAGGGTCTACCTGCTGACCGGTCTGTACTTACAGAAGAAAGGAAACGGCTTTTAGCTGCGAGAAGAAAATCTGAGGCTGAGATGCAGGCTCAGGAAATGGCAGAATCAGAGGTAGCTCTAGCAAAGTCCTTGGAGCCCGAGTCTCCGATGAATAGTGGAAGGATTTCAGCTGAGAGTAATCATGATAAGGATGATCCGGAGAATAGTCATCAGCTAGCTGGAAGGGCGAATCAAGTCTGCTCTTCTGTACTAGGCATAAATAAACAGCTGAAGCCTGAGATGACTAGTTTGACAGGAATTGGAAGTTATAATGAGGCTTTTAGGGAAACACTAGTAGCTTCCATGGTTCAGCATGACTCAGTGCCTGGAAGAATAGATAATCCTCTAAACCACTCTCAAGCTCTTGGTGATGGAGTAGGGTATTTCTTTAAGTCAGAGACTCCTGTTATGCAAGCAAATCAAAGTGCAGATAAATACCCTTCCGCTTTTTTGTTAAAAGACAAACCTATTTTAGGAAAGGACGCTGAATATTCAAGGGATGTCAATTTGTTTCCAACACATGTGTCCCAGGGGGAGAGCCATACTTCGAAATCAGATTCTATTATCTCTAATAGCTTTGCGGATGCTTTCGTTAGTGGTGGAAATTGTGGTCCAGATGATCAGAGGGTTTTTGATATTCAAAAGCAATGCACTCCAGAAGGATGCAAGATGGTCACCCTCAATGATACACTAAAATATGGGAATCCAGTTACGGTACTGGAAAAATATACGGAGCAAGAAGAGGACAACAAGTCATTATCTTCTGACACACCTTCTCCAAAGTACACTACCTCTGAGAAGTGGATTATGGATCAGCAGAAAAGAAAGCTTATTGAAGAACAAAATTGGGCACTAAAACAGAGGAAGACCGGGGAAAGAATAGCAGTGTGCTTCGATAAATTAAAGGAAACTGTGAGTTCATCTGAAGATATTTCGGCCAAGACAAGAAGTGTTATTGAATTGAAAAAGCTTCAGCTGCTTCAGCTTCAACGCCGCTTACGGAGTGATTTTCTGCACGATTTCTTCAAACCTATCTCATCTGACATGGAGCGCTTGAAATCAATTAAGAAACATAGATATGGTAGGCGAATGAAACAGCTTGAAAAATTTGAACAGAAAATGAAGGAGGAGCGGCAAAAGAGAATCCGTGAGAGGCAGAAGGAATTTTTCAGTGAAATAGAAGTTCACAAGGAGAGACTGGATGACTGGTTTAAAATTAAGAGAGAACGCTGGAAGGGTTTCAATAAATATGTGAAGGAGTTCCATAAAAGGAAAGAACGGATACACCGTGAGAAGATTGACAGAATCCAGCGTGAGAAGATTAACTTATTAAAGAACAACGATGTGGAGGGGTACCTACGAATGGTTCAGGATGCAAAGTCAGATCGTGTTAAACAACTGCTCAAGGAGACAGAGAAATATCTTCAGAAGCTGGGATCCAAACTACGGGATGCAAAGGCCTTGTCAAGAAAGTTTGAGCTAGAAATGGATGAGAATCAGGCTTCAACTGTCGTGGAGAAGAATGACATTGCTGTTGAGAATGAAGACGAAAGTGACCAGGCTGAGCATTACCTGGAAAGCAATGAAAAGTACTATCTGATGGCTCATAGTATAAAAGAGGGCATAGCGGAGCAGCCAACTTCTCTTCAGGGTGGAAAATTAAGAGAGTATCAAATGAATGGTCTGCGTTGGTTGGTGTCACTATACAATAATCATTTGAATGGGATTCTTGCCGATGAAATGGGTCTGGGTAAAACTGTTCAGGTTATTGCTTTAATATGTTACTTAATGGAAACAAAAAATGACAGGGGGCCTTTTCTGGTGGTAGTACCATCCTCTGTTCTGTCAGGATGGGAGACAGAAATCAGCTTCTGGGCCCCTGGTATAAACAAGATTGCGTATGCTGGGCCTCCCGAGGAGCGGCGTAGGTTATTCAAGGAAAGGATTGTTCAACAGAAATTCAATGTCCTTCTGACAACATATGAGTATTTGATGAACAAACATGATAGACCAAAACTGTGCAAAGTAAATTGGCATTATATTATAATTGATGAAGGTCATCGAATAAAGAACGCCTCCTGCAAGCTGAACGCAGACCTGAGGCACTACCAGAGCTCTCATAGATTGCTGTTGACTGGAACACCTCTTCAGAATAATCTTGAGGAATTATGGGCGCTACTTAACTTTTTGTTGCCAAACATTTTCAACTCGTCAGAGGATTTTTCTCAATGGTTCAACAAACCGTTTGAGAGTAGTGGTGATACTTCACCTGATCAAGCTTTACTATCCGAGGAGGAGAATCTTTTGATTATAAACCGCCTTCACCAAGTTCTTCGACCTTTTGTACTTCGGAGACTGAAACACAAGGTTGAAAATCAATTGCCGGAGAAGATTGAAAGACTTGTAAGATGTGAAGCTTCAGCTTATCAAAACCTTTTGATGAAGAGGGTTGAAGATAATCTTGGCACCATTGGAAGTTCAAAGGGCCGGGCTGTGCATAACTCTGTGATGGAATTGCGCAATATATGCAATCATCCATATATCAGCCAACTTCATGCAGAGGAGATTGATAGCTTAATACCTAAACATTATCTGCCACCAATTGTGAGACTTTGTGGAAAGCTTGAGATGTTAGATCGATTACTACCCAAGCTAAAAGCAACTGATCATCGGGTTCTCTTCTTTTCCACAATGACTAGGCTGCTTGATGTTATGGAGGAATATCTTCGCTGGAAGCGTTACAGGTACCTTCGGTTGGATGGACATACATCAGGAGGTGACCGTGGAGCCCTTATTGAGGAATTCAATAGACCAGATTCTGCTGCTTTTATTTTTTTGCTCAGCATTCGGGCTGGAGGCGTTGGAGTGAATCTCCAAGCTGCTGATACCGTCATCATATTTGACACTGATTGGAATCCTCAGGTTGATCTGCAAGCACAGGCGAGGGCTCACAGGATTGGTCAAAAGAGGGATGTACTTGTTCTGCGATTCGAAACGGTTCGCACTGTGGAGGAACAAGTAAGAGCCGCAGCGGAGCACAAACTGGGAGTTGCTAATCAGAGCATCACTGCCGGTTTTTTTGACAATAATACAAGTGCAGAAGATCGAAGGGAATACTTGGAGTCCCTTTTGAGGGAATGCAAGAAAGAAGAGGTTGCCCCTGTTCTAGATGATGATGCTCTCAATGATCTTTTGGCCCGCAGTGAGTCCGAAATTGATATTTTTGAATCGATCGACAAACAAAGGCGTGAAGAAGAAATGGCATCATGGCAGAAGTTGGTACAGGGACCAGTCAAAGATGGTTCTGAGCCTCTACCCCCCATGCCTTCTCGACTTGTAACAGATCATGACTTGAAGGCATTCTATAAAGCTATGCAGATATACGAGGAATCTAATGCAGGTGTAAAACGGAAGAGTGAGCATCTTGGGGGGCTTGATACCCAACAATATGGAAGGGGTAAACGAGCTAGAGAGGTACGCTCCTATGAAGATCAATGGACGGAAGAAGAATTTGAAAAGATGTGTCAGGTTGACTCCCCTGAATCACCCAAACTGAAGGAAGGAACCAAGGACACGAGTATGGCAACAGATGCCAGTGAGTCTAAAGTGGCATTGGGCATTACAGAACAGACACCACCACCACCGCCGCCACCACAACCACCACTACCATCCAAAGAGCCCCTACCGCCATCAGGCAAAGAGCCAGCACTACCACCACCAACACCACCACCACCACCACCACCACCACCACTACCACCACCACTACCATCCAAAGAGCCCCTACCACCATCAGACAAAGAGCCAGCAGCAGCAGCAGCAGCAGCAGCACCCAAAGAGCCCCTACCGCCACCAGGCAAAGAGATACAACCGCCATCCAGACCACCACCACCACCACCATCCAAAGAGCCTCTACTGCCATCAGGCAAGGAGCTACAGCCGCCATCCAGACGAGGGCGTGGCAGGCCAAAGAGAGCAACAATTGATATCTCCCCATCTGCAGTGGTTCTCCCCCCTTCTGCAACTGTCAGCAAACTGGAAATGGGATCACAGAGAGAATCAATTCCAATCTCTACTACCACCCCTGGCCCTGACACTTATCCGGGTTCTATAACCATCAAAGGTCAGAGTGAAACGACACGACATGAGTTTGGTGTAGGGACTGCCCCTGGTTCCCTGACCACTACTCTTGGCACTTCTGTCCCCACGCAAGTTAAGGGACAAGGTCGGAAGGCTCAAGGTGGATTGGAAACACCTCGACGTAGGGCAAAGAAACAGAGTTCTGGGTCACCTGCTGTTGCTCCTGAAATTAATCCCATTTCAAGAATTTCAAAGGAAAAAGGCATGGCATCAGATAGCCCTCCAGGTTTTGCTTTCGGACAAGACAAGCAACAGTTAGTAAGTAGACCTTCGGGAACTTCAAATGCACCTACTGTCATTGGTCCTGTAATCAATCCACTTTCAAGAATTCCAACTGCAATGACCTTGGCATCAGATAGCTCTCCATCTGCTTTTTCCCAAGACAAGCAAAAGGTGTCAAGTAGACCATCTGGAACTTCAAATGCACCCACTATTGTTGGTTTTGAGGTTAACCCGGTTTCAGGGCTACAGAAGGTAGTTGAATTGGTTCCAGTTCGAACTCCAATCCCGTCCCTTGCTCAAGAGAAATATAAGAGTGTGGTTCCTGTCCTGGAAAAAAAAGAAACAGAAAGGGTAGTTCCCACTTCTGATACAAAAGTAGGCCCTTCTGAAACAATTTCGACAGCACGGACAGATCGCATAGGCTCTGTAGAATTAAAAAAGAACGAGGGTTTGAAAGTTAGTGTGATGCATGGTGGACAGGTGCACAAGGTTGACCAATCGTCTACGCCTGTGGTGTCTGCATTGGCGCAGGATTTGATGGAGAGGAGAACCCTTCGAATGGGGTCCGTGGATATGATGTCAGGTAAGAAGCAAAAACCATCTGACAAACCAGAATCTGCTTCTATCCAAAGTGTTCAGAAAGCTGGACCTGGTTTGAATCCCTCGAAGGCAGAACCCGAAAAAAGTTCAAGGGGTAATAGCGCTGCACATTTGGAACTTCCTGTGGTCAAACCTGTTGAATCTGTGACACGCCAAGACAATATGTGCATCGGCAGTGCACTGGTTATGAGCTCCCATGACATGAACGATCAGAAGTCATCTGTCCCTGCTTCCTCCCGTCAAACGAGATCCTCTGCAGAGAAAGATAAGAGCAAGGTACCTGTGGCAGTAAAGCGCGGTCCAAAAAAGAAAGATTTGGGAGTTACTAATAATAAACAAGCAGTTTCTGGGGTGAAAAGTTCAACTTTTGTTCAGATAGCATTACCCACAGCTCATGCTTACTCGGTGGGGTCACTGGAGGCTGAAAAGAATAATAGACCTATGGAAGCCATCATCACGAGAGATAAACAAGAGACTGATGCTAACAAACCTAGAAATGTTACCTCTGGTAAAGCTTATAACAGCCGTCCTGATATGATATCTGGCCAGAAGCCAAGCCCAACTGAAAAATCAGATTTTTCTGCCCCAAACAAGCAGGAAGTGGGTGCATCAATAGTGCAGAAGAATGCTGCCATTTCCATGGAGAAGAACTCGGCATGTACAGAAGCCAATGAAGGCCAAGTACCTCTTCAGTCAAAGGTGGAAGAGTTGCCACTTGAAGCTGGGTTATCTCAAACCCCTGTGGACTCATCCTTGTCCGCTGGACTAACTCTGGCAGGTGGTATGGATTATGTTGCTTCTGTGACAAAGGCTTCTGTGGACTCTTGCTCAGCAGAAAGTAAAAATGGGGAGTTTGTTGGAAGTAAAGCTATCATCATGACAGATAAACAAGAGACCAATATTCAGAAACCTGGAAATGTTCACTCTGAGCAAGCTTGTAACATCCGCCTTCTTGGTATAAAATCTGGTCAGGATCCAAACTCAACTGAGAAATCAGATTATTCTGCCCAAAGCAAGCAACAATCAGGTCTGTCAACTATGCTTCAGAATGCTGGCAGTGCCATGGACAATAGCTCTGCATGCATAGTAGTTAATGAAGTTAAAGCACCCGTTGAATCAAAGGATGAAGGCTTGCAAGTTGGGTTATCTCTAATCCCTGAAGATCCTCCCTCTTCCTCTGGACGTACTGAAGCAGGTGGCATAAATGATGTTTCTGTGATGAAGGAGGTCTTGTTTGAAACATGCTCATCAGAAACTAGAAGTGGGGAATCTAAGGGAAGTAAAGACGGGGATATCCTGGCTACACCCGTAACGAGTAGAATTTTCACTGAAGGTACCAAATCCCATCTTTCAGAGAACTTAAATTCTGCAACATTGTCATCCATTGATACCGTGTCTCCAGTTTCCAACCTGCCAGTTGAAAAACATGAAAATCGATCCACTGAAGAAAATGCTGCAAACCCACCAGAGGGTAGAGGTCCGATTGAAAGTTTGGCAGATGATACTACTGCTATCACTTCTGAAGTGAATGTGAAAGTTAAGGTTGGTGAAGCTGAAACCGAGCTTGTATCTGGATCTGTTGAAAACTTGGCAGATTCAGGACAGCTTAGCCAAGAGAAGTCTCTTCCAGCAGTTAGTATGGTGGTTACTTACTCTGTTCCTGTTGGTGCCTACCAAAACGTTGATGTTTCGTGTGATAAACCACTTGCTTATGATGGGGAAGGAGCAGTGGCTCCAAATGATTCTTGTACAGGTGCTTCTAGTATGCAGGTAGATGCATCTTTGGAGTCTAAAGGTGATAATAAGTCTCCTGTAATGACCAAGAATGATACTGGAAGCAAAGCTGAGTTTGTTCCTAATGAGTCTCCACAATCTTCTCTCCTTGAGGTTAATAATGAGTGCACTTGCACTACAGACACATCAAAACAAGATCTTTACCAGGCTGAATTCACAATGAGGGACCTTCACTTGGTCAAATCTTCAGTTGACCTTGTAGCGGAAGACATGCAAAATTCTGAAGCTGCAGTTGGCCACTATGAAATTTGTTATGCTGGACCTGCCGAAAACCAGTCCACTTTGGAGATAAAACGAGCCATGCTTGTGGTTGACAACCTAGATAACCCAGTCAACAGACAGGTAGAGGTAGAGGAGAGTGTAACACCTCCCAAAATCAACATTGCTTCTACTTTAGATCCCTCTGAACCAGCTGGCGTTTTATCTCGTACGAATGGGGCTGAATCCAACCATGATGCATTTGTTTCTGGAGTAGTCGAATGTGCATTAGAGGAGCCAAAGAATGTTTCTGCTGTAGATGAATTGGCAGAAGTTGGGTTTGCGTCAGTTTCTGAGAAATCTGAGGAGCCTGACGGCACTACCATACTTGGTCAGAGTGAAGTACCGGATCGACCTAATACTGCTGCAATTGTGTCTGTATCTGGCCTGCTTTCTCAATTAGATGAGCAGATATCCTATCCTTGTAGTACTCATGGTGCGACTGATGATATTGTCGGTCCTGTGGATCCAGAGATTCCTGGGAAAACAGATGATTCTAAGAGACTTGAAGGCACTGCCATACATAGTGAGAGTGAAGCACAAGATTTACCCAATACTGCTCCTTCTGTATCTGCATGTGATCAGGTTCCTCCACCATATGAGCAGATCCCTGATCCTCCCAGCTCCCACAGTGCAGGTGCTGATTCTGCAGGATCCATGAATTCTGAGAATCCAGGGAAAGAAGATGATTCTAAGAAACATGAGAGCACTACTACACTTGGTCAGAATAAAGTACCAGATCTACCTGATACTGCTCCATCCGTGTCTCTGTGTGGCCAGATTCTTCAACTAGATAAGCAGATCGTTGATCTTCCCAGTACCCATAGTCCGGGTGTTGATTCTGCAGGTTCCATGAATCCAGAGAATTATGGGAAAGCAGGTTCTAAGAAACATGACCATGACAGCACTACTGCACTTGGTCAGAGTGAAGTACCTGATCTACCTGATACCACTCTATCTGTATCTCTGTGTGGCCAGGTTCCTCAACCAGAGGAGCAGATCGTTGATCCTCCCAGTACCCACTGTGCAGGTGCTGATTCTGCAGGTTCCATGATTCCAGATGATCCTGGGAAAGCAGATGATTCTAGGAAACATGAGAGCACTACTGCACTTGGTCAGAGTGAAGTACCTGATCTATCTAATACTGCCCCAGCTGTATCTGCATTTGATCGGGTTCCTGAATTGGATGAGCAGGCCCCAAATTCCTCTAGTTCCTATGGCGCAGGTAATGATTCTGAAGATTCCTTGAATCCAGAGAAAGCAGATGATTCTAATGGAGTAAGTGACTCTACACGTCTATGTCATATGAAAGATCCAGATCATCAAGTAAGTGTTGCTTCACATGCGGCTTCCTCCAATGAGGACAAGATGGAACGGTTTACTTTGAAAGCTACTGATACCATTAATGGAGTTATTGGTCGAGAAGGTCCCACGAATTCTGAGAAAGATGATAATGGTGGAGATCGTCCTGGTATTGTACTGACTGAACCTGCTGGTACCTGTGGTATTGTTGATTTGCATGGGGTTTCTTCTGATGGGGACATGTTGCATGGAGATACATCGCTAGCTGCTGATGTCAGGAATGAATGTATTAATCCAGAACGCCCCTTGTATCCCGAGAGAGCTGGTGATGGTGGAGATCTACCTGGTGTTGCGCCTACTGTGACTGCTTCTGGCCAGGATACCCTGTGTGACGATATGAATTTGGAAGCCACGTGTGTTGAAAGTGAAGACAACGAGACTCCCGTCTTGGAAGCTGTGCCCTCTGGAGCTGTGGAATCTTGCATTTTGCAGCCCGTTCCAGAAGGTCGTGCGGTCCAACAGCCAGCATTAGTTGAAAGCAGTAACAAAGAGGCTCCTGTCTTAGAAGCTGTGCCCTCTGTTGCAGCTGAATCTTGCAGTTCAGAGCCTGTTCCAGAAGATTGTTGTGAGGTTCAACGGCTAGCATTAGTTGAAAGCAGTAACAAAGAGGCTCCTGTCTTAGAAGCTGTACCCTCTGTTGCAGCCGAATCTTGCAGTTCAGAGCCTGTTCCAGAAGATTGTTGTGAGGTTCAACGGCTAGCATTAGTTGAAAGCAGTAACAAAGAGGCTCCTGTCTTGGAGGCTGTGCCCTCTGTTGCAGCTGAATCTTGCCTTTCAGAGCCTGTTCCAGAAGATTGTTGTGAGGTTCAACAGCTAGTATTAGTTGAAAGCAGTAACAAAGAGGCTCCTGCCTTTGAAGCTGTGCCCTCTTTTGGAGCTGAATCTTGCAGTCCAGAGCCTGTTCCAGAAGATTGTTGTGAGGTTCAACAGCTAGCATTAGTTGAAAGCAGTAACAAAGAGGCTCCTGCCTTAGAAGCCGTGTCCTCTGTTGCCGCTGAATCTTGCAGTCCAGAGCCTGTTCCAGAAGATTGTTGTGAGGTTCAACAGCTAGCATTAGTTGAAAGCAGTAACAAAGAGGCTCCTGCCTTAGAAGCCATGTCCTCTGTTGCCGCTGAATCTTGCAGTTCAGAGCCTGTTCCAGAAGATTGTTGTGAGGTTCAACAGCCGGCATTAGTTGAAAGCAGTAACAAAGAGGCTTCTGTCTTAGAATCTGTGCCGTCTGTTGCTGCCGAATCTTGCAGTTCAGAACCAGTTCCAAAAGATCGTTGTGAGGTTCCGCAGGCAGCGTTAGTTGAAACTAGTACAAATAGCTGTGATGAGAATCACAGTAAAGAGGCTTCTGTCTTAGAATCTGTGCCCTCTGTTGCTGCTGAATCTTGCTGTTCAGAACCTGTTCCAAAAGATCTTTTTGAGGATCCACAGCCCGCATTCGTTGAAACTAGTACAAATAGCTGTGATGAGAATCACAATAAAGAAGCAAACCCCTCAGTAACAGAAGTATCTCCTCGGCAAGTTGTTGATGATTGTATCGAGGATCGTGAAGCTGCAGGAATGCCGATTGCTGAGAAGAATGATCTAATGGACACACAGATTGGTGGGGTTGAAGCGTTGGGAGGAAGTGTTGATTCACTCTCTTCTTCGGCAAGAGAGGAAAATGAGAAGATCGATGGCACATCCGAGAAGGTTCCATCGGGGAGTTCGGTGACTGGGGGATCAGAAGGGAACCAAGCAGAGTAA 12513 0.4476 MASSHHVEMEAAKFLQKLIQDSKDEPLKLATKLYVICQHMKISGKEQSLPYQVISRAMETVINQHGIDIEVLKSSRLPLTGGPQIGDSGNARSMDKDAPDNPAPIGASDIPFRGAPVSKWHAASSSEKKEEVYGGSVQSVGILKDSKTGLSENEMARHDAINPHRPPVGLSRVESGGHDFYQGSISQRSNNLFEHESPSSLDTRSANSQERRDTAKLDKQGHQKSKKTSAKRKRADSTSATDAHTDNLQQLDNPNTGFNPRKGKVMNKGDAQGHFTVKGGDHDHASTVQNSGHVEHMSLLSSGMGSIFRAKQENPSFSERSMEKTQITNSLPMAPTSKYPEEGEGSAAHGAVGHQKGGLFLSRHDTVNPRSVWNQFKVGLPSENSQFSRFAPNVVSSSTAEISMPQSTAPSIGTNKEAVTIGNEMKTNIYDSKLTENKVFEFSGQSSEGTVLNKAGKFWQQRVPHSAQTIGGEFLNNEAELGGPGRSPVVNSNASHGITGISGGIGKVHGGMSGPFSSYAMVKTGFSAPIQFSSSLFDSHDLASNVHKERSTEASSGSQLLEKSKDMMATDASMKSPSIDLSSAKVAVDSEHRKSGFMKDAELSISEKVMEAQLGSVTRGEETLTPLSVGKVLEQDGGILHAVGNTYKMVQGSGYQGHQIKENLDTGKTSMSPPVSSGMPFKEQQLKQLRAQCLVFLAFRNGLVPRKLHLEIALGDSSPKEDGARRELNDNNSLKEPSSSNEATGAFGRPNDIRETERIPPSSSSTGSLIETESSSKDTENPKKMKNKKGLPADRSVLTEERKRLLAARRKSEAEMQAQEMAESEVALAKSLEPESPMNSGRISAESNHDKDDPENSHQLAGRANQVCSSVLGINKQLKPEMTSLTGIGSYNEAFRETLVASMVQHDSVPGRIDNPLNHSQALGDGVGYFFKSETPVMQANQSADKYPSAFLLKDKPILGKDAEYSRDVNLFPTHVSQGESHTSKSDSIISNSFADAFVSGGNCGPDDQRVFDIQKQCTPEGCKMVTLNDTLKYGNPVTVLEKYTEQEEDNKSLSSDTPSPKYTTSEKWIMDQQKRKLIEEQNWALKQRKTGERIAVCFDKLKETVSSSEDISAKTRSVIELKKLQLLQLQRRLRSDFLHDFFKPISSDMERLKSIKKHRYGRRMKQLEKFEQKMKEERQKRIRERQKEFFSEIEVHKERLDDWFKIKRERWKGFNKYVKEFHKRKERIHREKIDRIQREKINLLKNNDVEGYLRMVQDAKSDRVKQLLKETEKYLQKLGSKLRDAKALSRKFELEMDENQASTVVEKNDIAVENEDESDQAEHYLESNEKYYLMAHSIKEGIAEQPTSLQGGKLREYQMNGLRWLVSLYNNHLNGILADEMGLGKTVQVIALICYLMETKNDRGPFLVVVPSSVLSGWETEISFWAPGINKIAYAGPPEERRRLFKERIVQQKFNVLLTTYEYLMNKHDRPKLCKVNWHYIIIDEGHRIKNASCKLNADLRHYQSSHRLLLTGTPLQNNLEELWALLNFLLPNIFNSSEDFSQWFNKPFESSGDTSPDQALLSEEENLLIINRLHQVLRPFVLRRLKHKVENQLPEKIERLVRCEASAYQNLLMKRVEDNLGTIGSSKGRAVHNSVMELRNICNHPYISQLHAEEIDSLIPKHYLPPIVRLCGKLEMLDRLLPKLKATDHRVLFFSTMTRLLDVMEEYLRWKRYRYLRLDGHTSGGDRGALIEEFNRPDSAAFIFLLSIRAGGVGVNLQAADTVIIFDTDWNPQVDLQAQARAHRIGQKRDVLVLRFETVRTVEEQVRAAAEHKLGVANQSITAGFFDNNTSAEDRREYLESLLRECKKEEVAPVLDDDALNDLLARSESEIDIFESIDKQRREEEMASWQKLVQGPVKDGSEPLPPMPSRLVTDHDLKAFYKAMQIYEESNAGVKRKSEHLGGLDTQQYGRGKRAREVRSYEDQWTEEEFEKMCQVDSPESPKLKEGTKDTSMATDASESKVALGITEQTPPPPPPPQPPLPSKEPLPPSGKEPALPPPTPPPPPPPPPLPPPLPSKEPLPPSDKEPAAAAAAAAPKEPLPPPGKEIQPPSRPPPPPPSKEPLLPSGKELQPPSRRGRGRPKRATIDISPSAVVLPPSATVSKLEMGSQRESIPISTTTPGPDTYPGSITIKGQSETTRHEFGVGTAPGSLTTTLGTSVPTQVKGQGRKAQGGLETPRRRAKKQSSGSPAVAPEINPISRISKEKGMASDSPPGFAFGQDKQQLVSRPSGTSNAPTVIGPVINPLSRIPTAMTLASDSSPSAFSQDKQKVSSRPSGTSNAPTIVGFEVNPVSGLQKVVELVPVRTPIPSLAQEKYKSVVPVLEKKETERVVPTSDTKVGPSETISTARTDRIGSVELKKNEGLKVSVMHGGQVHKVDQSSTPVVSALAQDLMERRTLRMGSVDMMSGKKQKPSDKPESASIQSVQKAGPGLNPSKAEPEKSSRGNSAAHLELPVVKPVESVTRQDNMCIGSALVMSSHDMNDQKSSVPASSRQTRSSAEKDKSKVPVAVKRGPKKKDLGVTNNKQAVSGVKSSTFVQIALPTAHAYSVGSLEAEKNNRPMEAIITRDKQETDANKPRNVTSGKAYNSRPDMISGQKPSPTEKSDFSAPNKQEVGASIVQKNAAISMEKNSACTEANEGQVPLQSKVEELPLEAGLSQTPVDSSLSAGLTLAGGMDYVASVTKASVDSCSAESKNGEFVGSKAIIMTDKQETNIQKPGNVHSEQACNIRLLGIKSGQDPNSTEKSDYSAQSKQQSGLSTMLQNAGSAMDNSSACIVVNEVKAPVESKDEGLQVGLSLIPEDPPSSSGRTEAGGINDVSVMKEVLFETCSSETRSGESKGSKDGDILATPVTSRIFTEGTKSHLSENLNSATLSSIDTVSPVSNLPVEKHENRSTEENAANPPEGRGPIESLADDTTAITSEVNVKVKVGEAETELVSGSVENLADSGQLSQEKSLPAVSMVVTYSVPVGAYQNVDVSCDKPLAYDGEGAVAPNDSCTGASSMQVDASLESKGDNKSPVMTKNDTGSKAEFVPNESPQSSLLEVNNECTCTTDTSKQDLYQAEFTMRDLHLVKSSVDLVAEDMQNSEAAVGHYEICYAGPAENQSTLEIKRAMLVVDNLDNPVNRQVEVEESVTPPKINIASTLDPSEPAGVLSRTNGAESNHDAFVSGVVECALEEPKNVSAVDELAEVGFASVSEKSEEPDGTTILGQSEVPDRPNTAAIVSVSGLLSQLDEQISYPCSTHGATDDIVGPVDPEIPGKTDDSKRLEGTAIHSESEAQDLPNTAPSVSACDQVPPPYEQIPDPPSSHSAGADSAGSMNSENPGKEDDSKKHESTTTLGQNKVPDLPDTAPSVSLCGQILQLDKQIVDLPSTHSPGVDSAGSMNPENYGKAGSKKHDHDSTTALGQSEVPDLPDTTLSVSLCGQVPQPEEQIVDPPSTHCAGADSAGSMIPDDPGKADDSRKHESTTALGQSEVPDLSNTAPAVSAFDRVPELDEQAPNSSSSYGAGNDSEDSLNPEKADDSNGVSDSTRLCHMKDPDHQVSVASHAASSNEDKMERFTLKATDTINGVIGREGPTNSEKDDNGGDRPGIVLTEPAGTCGIVDLHGVSSDGDMLHGDTSLAADVRNECINPERPLYPERAGDGGDLPGVAPTVTASGQDTLCDDMNLEATCVESEDNETPVLEAVPSGAVESCILQPVPEGRAVQQPALVESSNKEAPVLEAVPSVAAESCSSEPVPEDCCEVQRLALVESSNKEAPVLEAVPSVAAESCSSEPVPEDCCEVQRLALVESSNKEAPVLEAVPSVAAESCLSEPVPEDCCEVQQLVLVESSNKEAPAFEAVPSFGAESCSPEPVPEDCCEVQQLALVESSNKEAPALEAVSSVAAESCSPEPVPEDCCEVQQLALVESSNKEAPALEAMSSVAAESCSSEPVPEDCCEVQQPALVESSNKEASVLESVPSVAAESCSSEPVPKDRCEVPQAALVETSTNSCDENHSKEASVLESVPSVAAESCCSEPVPKDLFEDPQPAFVETSTNSCDENHNKEANPSVTEVSPRQVVDDCIEDREAAGMPIAEKNDLMDTQIGGVEALGGSVDSLSSSAREENEKIDGTSEKVPSGSSVTGGSEGNQAE* 4171
       

Annotation information

Select Seq ID Length Analysis Description Start End IPR GO
Eupl12g01142 4170 MobiDBLite consensus disorder prediction 78 112 - -
Eupl12g01142 4170 ProSiteProfiles HSA domain profile. 1173 1247 IPR014012 -
Eupl12g01142 4170 MobiDBLite consensus disorder prediction 832 860 - -
Eupl12g01142 4170 MobiDBLite consensus disorder prediction 2617 2652 - -
Eupl12g01142 4170 MobiDBLite consensus disorder prediction 716 800 - -
Eupl12g01142 4170 Coils Coil 1269 1289 - -
Eupl12g01142 4170 SUPERFAMILY P-loop containing nucleoside triphosphate hydrolases 1588 1878 IPR027417 -
Eupl12g01142 4170 MobiDBLite consensus disorder prediction 1045 1064 - -
Eupl12g01142 4170 FunFam Chromatin structure-remodeling complex protein SYD 1346 1595 - -
Eupl12g01142 4170 MobiDBLite consensus disorder prediction 3235 3255 - -
Eupl12g01142 4170 ProSiteProfiles Superfamilies 1 and 2 helicase C-terminal domain profile. 1678 1824 IPR001650 -
Eupl12g01142 4170 MobiDBLite consensus disorder prediction 4068 4093 - -
Eupl12g01142 4170 MobiDBLite consensus disorder prediction 180 205 - -
Eupl12g01142 4170 MobiDBLite consensus disorder prediction 2144 2283 - -
Eupl12g01142 4170 MobiDBLite consensus disorder prediction 2519 2565 - -
Eupl12g01142 4170 Pfam Snf2-ATP coupling, chromatin remodelling complex 1882 1973 IPR029295 GO:0042393
Eupl12g01142 4170 Coils Coil 1161 1188 - -
Eupl12g01142 4170 MobiDBLite consensus disorder prediction 4124 4170 - -
Eupl12g01142 4170 FunFam Chromatin structure-remodeling complex protein SYD 1596 1818 - -
Eupl12g01142 4170 MobiDBLite consensus disorder prediction 776 800 - -
Eupl12g01142 4170 MobiDBLite consensus disorder prediction 2440 2493 - -
Eupl12g01142 4170 MobiDBLite consensus disorder prediction 1952 1994 - -
Eupl12g01142 4170 ProSiteProfiles Superfamilies 1 and 2 helicase ATP-binding type-1 domain profile. 1367 1534 IPR014001 -
Eupl12g01142 4170 MobiDBLite consensus disorder prediction 3407 3634 - -
Eupl12g01142 4170 MobiDBLite consensus disorder prediction 2010 2064 - -
Eupl12g01142 4170 MobiDBLite consensus disorder prediction 2609 2652 - -
Eupl12g01142 4170 MobiDBLite consensus disorder prediction 157 263 - -
Eupl12g01142 4170 MobiDBLite consensus disorder prediction 2774 2798 - -
Eupl12g01142 4170 MobiDBLite consensus disorder prediction 716 732 - -
Eupl12g01142 4170 MobiDBLite consensus disorder prediction 808 827 - -
Eupl12g01142 4170 MobiDBLite consensus disorder prediction 2775 2798 - -
Eupl12g01142 4170 Coils Coil 1831 1851 - -
Eupl12g01142 4170 SMART ultradead3 1351 1545 IPR014001 -
Eupl12g01142 4170 MobiDBLite consensus disorder prediction 4151 4170 - -
Eupl12g01142 4170 SMART SnAC_2 1881 1973 IPR029295 GO:0042393
Eupl12g01142 4170 MobiDBLite consensus disorder prediction 757 775 - -
Eupl12g01142 4170 MobiDBLite consensus disorder prediction 3048 3078 - -
Eupl12g01142 4170 MobiDBLite consensus disorder prediction 3298 3313 - -
Eupl12g01142 4170 PANTHER SNF2/RAD54 HELICASE FAMILY 1011 1988 - -
Eupl12g01142 4170 PRINTS Proline rich extensin signature 2051 2068 - -
Eupl12g01142 4170 PRINTS Proline rich extensin signature 2010 2031 - -
Eupl12g01142 4170 PRINTS Proline rich extensin signature 2034 2050 - -
Eupl12g01142 4170 PRINTS Proline rich extensin signature 2079 2104 - -
Eupl12g01142 4170 Gene3D - 1596 1818 IPR027417 -
Eupl12g01142 4170 Gene3D - 1346 1595 IPR038718 -
Eupl12g01142 4170 MobiDBLite consensus disorder prediction 2264 2281 - -
Eupl12g01142 4170 MobiDBLite consensus disorder prediction 206 224 - -
Eupl12g01142 4170 MobiDBLite consensus disorder prediction 2921 2948 - -
Eupl12g01142 4170 SMART helicmild6 1704 1788 IPR001650 -
Eupl12g01142 4170 Pfam SNF2-related domain 1359 1648 IPR000330 GO:0005524|GO:0140658
Eupl12g01142 4170 MobiDBLite consensus disorder prediction 1934 2132 - -
Eupl12g01142 4170 MobiDBLite consensus disorder prediction 331 352 - -
Eupl12g01142 4170 Pfam Helicase conserved C-terminal domain 1675 1788 IPR001650 -
Eupl12g01142 4170 MobiDBLite consensus disorder prediction 241 257 - -
Eupl12g01142 4170 MobiDBLite consensus disorder prediction 3316 3330 - -
Eupl12g01142 4170 CDD DEXHc_SMARCA2_SMARCA4 1352 1588 - -
Eupl12g01142 4170 MobiDBLite consensus disorder prediction 3443 3465 - -
Eupl12g01142 4170 SUPERFAMILY P-loop containing nucleoside triphosphate hydrolases 1331 1586 IPR027417 -
Eupl12g01142 4170 MobiDBLite consensus disorder prediction 4063 4095 - -
Eupl12g01142 4170 CDD SF2_C_SNF 1666 1798 - -
Eupl12g01142 4170 MobiDBLite consensus disorder prediction 3279 3392 - -
Eupl12g01142 4170 MobiDBLite consensus disorder prediction 3535 3550 - -
Eupl12g01142 4170 MobiDBLite consensus disorder prediction 2519 2536 - -
Eupl12g01142 4170 MobiDBLite consensus disorder prediction 2144 2207 - -
Eupl12g01142 4170 MobiDBLite consensus disorder prediction 2537 2560 - -
Eupl12g01142 4170 MobiDBLite consensus disorder prediction 2078 2105 - -
Eupl12g01142 4170 MobiDBLite consensus disorder prediction 2298 2323 - -
Eupl12g01142 4170 SMART QLQ_2 679 714 IPR014978 GO:0005524|GO:0005634|GO:0006355
       

Duplication type information

Select Gene Chromosome Start End Duplicated_type
Eupl12g01142 Eupl-Chr12 27801775 27839934 Dispersed/Transposed
       

Functional genes information

Select Gene Gene_start Gene_end Function Ath_gene Identity(%) E-value Score
Eupl12g01142 1675 1846 RAD5 or RAD16-like Gene Family AT5G43530 37.931 1.08e-23 109
       

Transcription factors information

Select Regulatory Factors Family Gene Hmm_acc Hmm_name E_value Clan
TR SNF2 Eupl12g01142 SNF2_N 3.8e-67 CL0023
       

Pathway information

Select Query KO Definition Second KO KEGG Genes ID GHOSTX Score
Eupl12g01142 - - nnu:104590239 3353.53