Gene search
Sequence information
| Select | Gene | Cds | Cds_length | GC_content | Pep | Pep_length |
|---|---|---|---|---|---|---|
| Vian5g01442 | ATGTGGTTCAAAACACTAGGGCATGTGAATAGTTGCTTCTGCAATAACATCTTCTGCATAATCAAGCAGATCCAATATTTCTTTGACAGCAATAGCACGATGACTGGTGCAGAGAGGTACCCAGACTTCTTCAAAGTCTTCCTTCAAGAGCAGCACTTGGAAAGAATACTTATTCCCAATGCTTTTGTGAAGTTGGAACGGTTACAGGGAAAGATCCCTGAGGATGTCCTCCTCAGGAATAGTAGTGAGAGAGTGTGGCATGTTAAAACACGGTTTTTTGGAGACAGATTATATTTCGATGAAGGGTGGAAGATTTTCCATGAAGAAAACTGCTTAAGAAATGTAGATTTTCTGATATTTAGATATGACGGAGTTAATGAGTTCAGGGTCAAAATCCTTGAAAGATCAACACAGTGTGAGAAAACTCTGGTAAAGATGGAGGAGGAGGAAGGGAATGAAGAAGAGAAAGCAGCAACACAAGAAGTTGAAGAGACAAGTGAAGAAGAAATCTTCGTTGATCCTGTTGGATACACCAGTCAAAGTTATCGAAAAACTTGCAGAAGGGACACTGCATCAAATTCGTACCCCCAGACTGAAGACCCTTTCAAAGAAGATGAATTTGACCCAGAAACGTGCATTCAGCCAGAGAATAATTTTTTTGAAGCAAAACTCTACAGAAGTAGACCCAACGAATTGCATATTCCAGGAATCGCCATTCAAGATTTTTCTCTCAGTTTTCCTGAAAAGATTACCCTTAAATGTTGTCAACACTGCCAGCGTAAGGATATTCAAAGAAACAAATTACAAGACTATCATCTCAACTTGGCACAAGAGACACCCATCAGAAAAAGATATTTAGAAGTGACGGGAAAAGTGTGTAGACGAAGACCAAGTAGTAAGAACATTTCTGGTGCACGTTATAGGTTGGAGACCCTTGTTCCGTCGATTTTGGTCGGAATCGGCGAGGAAATCTTCGATGTTGTAGACGACGGTGATATAGAGAGAGCAGCTAGGGCACCGAGCAATCTCTTCACCGAGTTTGAGGTCTTCCTTCGTGATCTGGAAGAGATCCCCGCAAGGGCACGGGTACGTGTAGGCCTGCAACTCCTCGTTCCACTCCATGTCCTCGATCTCCACCTCGTCGTACGACATCTGATGCAAGGAATTCACCAACACCAACAACACCAACACCTCGCTGCACTCGTCTCCGCGGCCCTCCCCAAGGACGATTCCGACGAAGACCCCTCCCCTCGCCTAGCAGCGATCCACTCCCTCCACCGCGCCATCCTCCACCCTCACAACTCCCTCCTCCTCTCTCACTCCGCCACTTTCCTCGCCCAGGCCTTCTCCCAACTTCTCTCCGACAAATGCTACGAGGTGCGGCAGGCCGCGGTCACAGCCTACGGTGCGCTCTGCGCTGTGGCCGCTTCAATCCCTGTCGCTTCCAATGGAAGACAAAACCTCCTCTTGGTCGTCGACCGCTTCATCGGCTGGGCGTTGCCGTCTCTCAGCACAGCCGTCGCAGTCGATGGCACTAAAGAGCTCGCGCTGGAAGGCCTCCGCGAGTTCCTCAACGTTGGTGGAACAGACAGGTACGCTTTGCCTATTCTGAAGGCCTGTCAGGTGCTGCTTGAGGATGAGAGAACCTCTCTGGCTCTGTTACACAGACTTATTGGTGTTATTACTTTGATATCGTTGAAGTTTGTGAGGTGCTTTCAGCCTCATTTCCCTGACATTGTTGACTTGCTTCTTGGTTGGGCTTTGATGCCGGATTTAGCTCAGTCGGATAGGCGTGTTATTTTGGATAGCTTCTTGCAGTTTCAGAAGCATTGGGTTGGCAGTCTTCCCATGTCCTTGAGATTGCTCACTAAGTTCTTGGGGGACATGGAGGTTTTGCTTCATGATGGAACTCCAGGCACGCCGCAACAGTTTCGGCGGCTTCTTGCTCTGCTTTCTTGTTTTTCAACTATTCTGCAGTCCACTGCCTCGGGATTACTGGAGATGAACCTTCTTGAACAGATATGCGAGCCGCTTAGCGCCCTGTTGCCAAGATTGCTACGGTGTTTATCAATGATTGGGCAGAAATTTGGGTGGTCTGAGTGGATTGAGGATTCCTGGAAGTGTTTGACTCTTTTGGCTGAGATTTTGCAGGAGCGGTTTTCAAGTTTTTATCCTCTTGCTGTTGATATTTTGTTTCAGAGCTTGGAGTTTGGAGTGACAGTGCAGCGGCCAGGGTTGAAGAAGATTAGCTCTTTCCAAGTCCATGGGGTTTTGAAGACTAATCTTCAGTTGTTGTCGTTGCAAAAGCTTGGCCTCCTTCCATTGTCCGTGAAGAAGTTATTGAAGTTTGATGCATCGGTCTCTCAACTGCGGTTGCATCCAAATCATTTGGTGACTGGGAGTTCTGCAGCTACTTACGTTTTTTTGCTTCAGCATGCGAATAAAGAAGTCGTTGATGAAGCAGTCACCTCGTTGATTGAGGAACTGGAGCTCTTGAAGAGTTTAATAGGAAACAACAATGGCCATTCATATGAATTTAATCGTATTGTAGATACTAAAACATTTTCAGAAGCTGAGTTATTGGCCTTAATCAAGTTTGATTTGAAAGTACTATTAGCGTGTGTTTGCATGGGTGGGGACAACAGTTTGATTGGACAAAAGGATATTGCTTCATTGTATCTCAGGAGGTTAGAAAAGTTAGAGTTATTTATAACAAAACAGATGAATCCTTTTGAATTACCAATCCAGAATTTCATGGAGTTGCAGATCACTGTTGTTAAGACATTGGAGCGGCTAAATTCGGTTGAGTTCTTAATTAAGTGTTCTGTGAGAGAACAGAATTGTGAGAAGACTTTAGTTGAATTTCCAACTGAAAAGGAGGACAGAGATGATCAATTCAGTAATGAGCGTTTGGCTGTGATTACTGAGCATTTGGAGAAGTACAGCAAGCTCGTTGTAAAAGCCTTTCATATTTCTTCTCCTCTGGCAATTAAATTAATTGTTCTAGATTGGGGACAAAAGTTCTGCGAGAGTGTAATGGCAGTTAATAAGATCTCAAGCATTAGCGGTTTTTCCTACGAAGCATGTGAGTATGCTAGTGTAATCATGAACTTAGTTTTTTCACTTTTAGGTGGTACATTTGAGAGGGAACAGGAAGTGAGGTCACATGTTGCAATAACTCTGGAGATGTTTATGCAGGCAAAACTTTTGCATCCTGTGTGTTTTTATCCCTTAGCTGAAGTCATACTGGAGAAACTTGGGGATCCAACCATAGAAATACGGGATGCATATGTAAGACTTCTTGCCCATATTTTGCCTACTACTATATATTCTTGTGGTCTGTATGATTATGGAAGATTTAGGTCTGTTGACCCTGTGTTAGGAAACAATTCTAAGCTGCACTGGAAACAATTATTTGCCCTGAAGCAGTTGCCACTGCAACTGCACTCCCAACATCTTGTGTCAATCTTAAGTTACATTTCACAAAGATGGAAGGTACCTCTTTCTTCTTGGATCCAACGCCTCATTCATAGTTGCCGGAGTTCAAAGGATGCTATTTTAAGTCTGCCTGAAGAAACAGGAATTTTTGGTGCTAATTCTCCATGGTTGGATATACGAGTGGATGAAGACATACTTGAAAAAATCTGTTCTGTCAATAATTTGGCTGGTGCCTGGTGGGCTGTACAAGAAGCAGCTCGGTACTGTATTGCTACAAGACTACGGACTAACCTTGGTGGCCCCACCCAAACATTTGCTGCTCTAGAGCGTATGCTTTTGGACATTGCACACCTTTTGCAACTTGATAATGAGCAAAGCGATGGGAACTTAAGTATGATAGGGTCTTCTGGTGCTCACTTGCTACCAATGAGATTATTGTTGGATTTTGTTGAGGCTCTTAAGAAAAATGTATATAATGCATACGAGGGGTCTGTCATTTTACCACCTGCTACTCGTCAGAGTACTTTATTTTTTCGAGCAAACAAAAAAGTATGTGAGGATTGGTTTTCTCGTATTTGTGAGCCAATGATGAATGCTGGGTTGGCTGTACATTGTAATGATGCTGTTATTCAGTATTGTACACTGCGTTTGCAGGAGCTCAAGAATCTTTCTGTGTCAACTTTGAAGGAAAAATCTAGGACCCAGGTAACTGATAACCTCCACAATATCAGAGGAAGGTATAGAGGAGATGTCTTGAAAGTTTTAAGAGATGTTTCACTAGCTCTTTGCAAGAGTTCTGATCCAGAGTCTTTAATTGGCCTTCAAAAATGGGTTTCCATTACCTTCTCCTTACTCGGGGACGAAAACCAGTCCTTCAGTGAGGGTGGAACTGTTGGATCACTTTCTTGGATAAGTGGGCTTATATATCAGGCAAGAGGTGAGTATGAAAATGCTGCAGCTCACTTTACGCATTTGCTACAGACAGAAGAGTCACTCAGCTCCCTTGGTTCTGATGGTATACAGTTTGTCATAGCACGCATAATTGAGAGTTACACGGCTGTATCTGATTGGAGATCTCTTGAAACCTGGCTGTTAGAATTACAACAGCTTCGTGCTAAACATACTGGTCGAAGTTATTCTGGTGCTCTAACAATGGCTGGAAATGAAGTTAATGCAATCCATGCATTAGCACGTTTTGATGAGGGTGATTATCAGGCTGCATGGTCAAGCCTTGATTTGACACCTAAAAGCAATAGTGAGCTTACCCTTGATCCAAAAATAGCCTTGCAACGGAGTGAGCAGATGCTCTTGCAATCTCTGCTCTTCCAGAAGGAGGAAAAAAGTGATAAGGTACTGCGTGATCTGCAGAAAGCTAGGTCAATGTTGGAGGAACCACTTTCTGTTCTGCCACTTGATGGCTTAGCTGAAGCAACACCTCTTGCAATTCAATTGCACTGCATTTTCCTTGTAGAAGATAATTGCAAGCTTAAAACAAATCATGAGAAGGCCAAACAACTACCATCAATACTGAATTCTCTTGAATCACTGCCATCTTCCATTAGTAAAATCCGTCAAGATTGTAATCCATGGCTGAAAGTTCTTAGGGTTTATAAAACCATTTCCCCAAGTTCTCCCGTTACTCTAAAATTTTGCATTAATTTGCATAATTTAGCCCGCAAGCAAAATAATCTTTTGTTGGCAAATCGTCTGAACAACTACATAAAAGATCATGTATTTGCTTGCCCAGAGGAGAGGCATCGAAATCTTCTGGTCTTAAACTTGCAGTACGAGAGCATTTTACTACAGTATGCTGAAAACAAGTTTGAAGACGCTTTCACAAACCTTTGGTCATTTTTGCATCCTTGCATGGTTTCTCCCAAACCATCTATAATATCTGATGTTAAAGAGAGGATTCTGAAGGCCAAAGCATGCTTGAAACTCTCAGATTGGCTGAGACGAGATTATTCAGACTGGAGTCCAGAGGGTGTTGTTCTAAAGATGGCAGCAGATTTTGATTTGGCTGAATCGTCTCCACATGGCAAAGATGGCAGCAAAGAAAACTTAAGTTGCAAATCAAATTTGGGTTCTATTATTGAGGAAATTGTTGGTACAACAACAAAATTGTCTTCTAGTATTTGCCCCACCATGGGCAAGTCATGGATTTCTTATGCTTCTTGGTGCTTTAAGCAAGCAACAGACTCACTCCATGTTCAGAGTGAAACCATCCTTCATTCATGCTCGTTTTCTTCCATGCTTGTTCCAGAAATTCTACCTGACAGATTCAAGTTGACTGAGGATGAGGTTCAAAGAATTAAGTCATTGGTTTTGTGTCTTTTTCAGGACAATATTGATATGAAAGGTTTCACAGATGAACAGGAAGAACAAAGCTCTTGGCTTGATTCTGCAGAGCTCTCAATTAGTGAGAGTCCTCTGCAGAAATTGGTTTGGAATATAGTGAATGTTATAGAAACCGCTGCAGGGGCATCAGGTGCAGAAAACTCTGGTGGTGAATGTCTTTCAGACATGGTATCTTCTCAATTGAGGATTTGTTTGTTAAGCACAAATTTTGGGCTCAAAGAATCTGACATTAGTTTTGCATTGGATAATTTTGTTGATATTTGGTGGTCTTTGAGAAGGAGGAGAGTGTCCTTGTTTGGACATGCTGCTCATGGTTACATACAATATCTTTCTTATTCATCTTCCCGTATTTGCCATAGTCAAGTGCCTGGTTCTGAATATGAGACTTTGAAGCAAAAAGCTGGCAGCTACACCCTGAAGGCTACATTGTATATATTGCATATACTTCTCAATTATGGTGTGGAATTGAAAGATACTCTTGAATCTGCTCTTCTGGTTGTTCCTTTGTTGCCGTGGCAGGAGGTTACACCTCAACTGTTTGCACGTATAAGTTCACATCCTGAACAAGTGATTCGAAAGCAGTTGGAGGGTTTACTAACAATGCTGGCGAAACAATCTCCATATTCTATAGTGTACCCAATACTAGTTGATGTTAATGCTTATGAAGAGAAACCTTCCGAAGAGCTTCATCATGTGTTGAGCTGTCTGAGAGAACTTTACCCCCGACTGGTTCAGGATGTTCAGCTTATGATAAATGAACTCGGAAATGTTACTGTTCTCTGGGAGGAGTTATGGCTGAGTACTCTTCAGGATCTTCATACAGATGTGATGAGACGGATAAACTTACTGAAAGAAGAGGCAGCAAGAATTGCAGAAAATGTAACACTTAGTCAGAACGAGAAGAACAAGATAAATTCTGCTCGATATTCTGCAATGATGGCTCCAATAGTTGTGGCTTTGGAGCGTCGGTTAGCTTCAACGTCTCGAAAACCTGAGACTCCTCATGAAGCTTGGTTCCAGGAAGAGTATAAAGACCAACTAAAATCAGCCCTGGTATCATTTAAAATCCCTCCAGTATCTTCTGCAGCTATAGGTGATGTGTGGCGACCTTTTGATAGTATTGCTGCATCCTTGGCCTCATATCAGAGGAAGTCTTCAGTTTCCTTGGGAGAAGTGGCTCCACATTTGGCTTTGTTATCATCTTCAGATGTTCCAATGCCAGGTCTTGAGAAACAAATGCAAGTACCGGACTCTGACAAAGCAACTGATCACCAAGGGGTTGTCACAATTGCTTCTTTTCATGAGCAAGTTACCATCTTACCAACAAAGACAAAGCCTAAGAAACTAGGTATACTTGGTTCAGATGGTCATAAATACACATATCTCCTCAAAGGACGAGAAGATTTGCGCCTTGATGCTAGAATCATGCAATTATTGCAGGCTATAAATGGTTTTCTGCATTCTTCATCTTCTGCATGTAGCAATTCTCTTACCATTCGCTATTATTCTGTGACTCCAATCAGTGACTGGCCTCATGAAGTCAAATGTAAAGTTCTTCTTGATCTCATGAAGGAAGTGCCTAGGCATCTTCTTTACCAGGAGCTGTGGTGTGCTAGTGAAGGATATAAAGCTTTCAGCTCAAAATTGAAGAGGTATACAGGAAGTGTTGCTGCAATGAGTATGGTTGGTCATGTTTTGGGACTGGGAGACAGGCATTTAGACAACATTCTTATAGATTTTTGTAATGGGGATATCGTACACATTGATTACAATGTGTGTTTTGACAAGGGACAAAGACTAAAAATTCCAGAGATTGTTCCTTTCCGTTTGACCCAAATAATTGAAGCAGCTTTAGGGCTAACTGGAATAGAGGGTAGCTTCAGATCAAACTGCGAGAAAGTTATTGGTGTTTTAAGGAAGAACAAAGATGTGCTTTTGATGTTATTGGAAGTGTTTGTTTGGGATCCACTTGTGGAATGGACACGAGGTGATTTTCATGACGAAGCTGCAATTGGCGGTGAAGAGAGAAAAGGTATGGAGTTGGCTGTCAGCTTAAGTCTATTTGCATCTCGAGTACAGGAAATTCGGGTTCCCTTACAGGAACACCATGATCAATTATTGACTAGCCTGCCAGCTGTTGAATCGGCACTTGAGAGGTTTGGTGACGTTCTAAACAAATATGAGCTTGCCTCTAGTCTGTACTGTCGAGCTGACCAGGAGAGGTCAAGCCTTATATTGCATGAGACGTCTGCAAAGTCAATTGTTGCTGAAGCAACCAGTAATTCAGAGAAAATTCGAGCTTCTTTTGAAATTCAGGCTCGGGAATTTGCTCAAGCAAAGGCTATGGTTGCTGAGAAAGCTCAGGAGGCAATGACTTGGGCTGAGCAGCATGGAAGGATTCTTGATGCTTTACGGTGTAACTTAATCCCAGAAATAAATGCTTCTTTTAAGCTGAATAACATGGAAACGGTCATATCTCTTACATCTGCTGTCATTGCAGCAGGGGTTCCACTAACTGTTGTTCCTGAGCCAACACAGGCACAATGCCATGATATAGATAGGGAAGTTTCTCAATTCATAGTTGAGTTGGGTGATGGACTAACTTCTGCCACAGCTTCTTTGCAAGCATACTCCTTGGCCCTGCAAAGAATTCTACCGTTAAATTACCTTTCAACCAGTGCAGTGCATAACTGGGCACAAGTTCTACAACTTTCTATCAATGCCCTGTCATCAGATATGCTCTCTCTTGCCAGAAGACAGGCTTCTGAACTTATTGCAAAGTTTCATGTAGATAACAGTGATTCTATTAAATTCAGTCATGATGATCTCTGTTTCAGAGTGGAGAAGTATGCAGTTGAAATAGAAAAAATAGAAAAAGAGTGTGCTGAAATAGAGAGTTCTATTGGCTCTGAATCAGAATCAAAAACTAAGGATCGACTGGTTAGTCAAATGACAGAAGTTGTTCTGCCAGATGTAATACGAGCTGCTGTTTCATTAAATTCAGAGGTTATGGATGCATTTGGATTGATCTCACAAGTTCGGGGATCTATAGAAACTGCACTGGAGCAGCTTATGGAGGTTGAAATGGAGAGAGTATCACTTATTGAACTTGAACAGAATTATTTTGTTAAGGTTGGTCTTATTACTGAGCAGCAGCTGGCCCTTGAAGAAGCTGCAGTTAAGGGCAGAGATCATCTTTCTTGGGAAGAGGCAGAGGAACTTGCATCCCAAGAGGAAGCTTGTAGAGTACAACTGGACCAACTTCATCAAACATGGAATCAAAGGGATGTAAGGACTTCGTCTCTTACCAAGAGAGAAACAGACATTAAAAATGCCTTGATTTCTGTGAATTGTCAATTTCAATCTCTTGTTGGTGTGGAAGAAGAAAGGGAGCTACATATTTTGAGAAGCAAAGCACTACTGGCCTCACTTGTTAAGCCTTTCTTGGAATTGGAATCCATTGATATTTTGCTGTCTTCGACTGATGGTTCAGTTGCCATGCCCACGAGTAAATTTCATACTTTGACAGATTTGATAAACTCTGGGAATTCTATATCTGAATATGTCTGGAAAGTAGGAGGTCTATTGGATAATCATTCCTTCTTTATTTGGAAAATAGGAGTCATAGATTCTTTTCTTGATGCATGCATTCATGACATAGCTTCATCAGTTGAGCAAAATCTAGGCTTTGACCAATCACTCAATTTTATGAAGAAAAAACTTGAAATCCAACTTCAGAAACACATTGGTCACTATTTAAAAGAAAGAGTTGCTCCTAGTTTACTGGCTTGTTTAGATAAAGAAAATGAGCACTTGAAGCAACTTACAGAGTCATCAAAGGAACTTGCTTTAGACCAGGGGAAAAAGGATGGGGCTGTGAAAAAAGTTCTACTTATGCTCGAAGAATATTGTAATGCACATGAAACTGCTAGAGCAGCAAAATCAGCTGCTTCTATCATGAAAAAACAAGTGAATGAGTTAAAAGAAGCTCTTCGAAAAACTGCCCTTGAGAGAGCAATGGCTTGGGCTTGTGGAAATTCTAGTAATTCTGGAAATACTTCAACCACAAATTCAGGAATTCCTCCTGAGTTCCATGAACATATTAAGAATCGGAGGCAGATTTTATGGGAATCTAGAGAAAAGGCATCGGACATTGTGAAGTTGTGTGTGTCAGTGTTAGAGTTTGAAGCATCAAGAGATGGGTATTTGTTTATACCAGACCAACCTTATCCCTTTAGGAGTAGTGTTGATGCCAAGACATGGCAGCAGGTGTACCTGAATGCACTAACAAGATTAGATGTTACTTTCCATTCTTATTCACGTACTGAACAAGAGTGGAAGCTTGCACAATGCACTGTTGAAGCTGCTTCCAATGGATTATATACTGCTACCAATGAACTCTCCATTGCCTCTCTAAAAGCAAAGTCAGCTTCAGGTGATTTACAAAACACGGTTCTTTCAATGAGGGACTGTGCATACGAGGCTAGTGTTACACTGTCTGCTTTTGCTCGGATTTCGAGGATCCAAACTGCACTAACTTCAGAAAGTGGTTCAATGCTTGAAGAGGTTTTAGCAATAACTGAAGATATACATGATGTTTACAATCTGGGGAAAGAGGCAGCTGGTATCCACCTTTCTCTTATGGAAGGCCTTTCAAAGGCAAATGCAATCCTTTTTCCACTTGAATCGGTGCTGTCTAAGGATGTAGCTGCTATGGCTGATGCAATTGATAGGGAAAGTGAGACCAAGAAGGAAATATCACACATCCATGGGCAAGCTATATATCAATCATATTGTTTAAGAATCAGGGAGGCTTGTCAGACCTTTAAGCCCTTGGTACCCTCTCTGATGTTAGCTGTGAAGGGACTTTATTCATTGTTGACAAGGCTAGCAAGAACCGCTAATGCGCTTGAAGGAATAGGAGAAAGTCAGGAAGTAAAATCAGTGACTACTACTTTGTCAAGATCAGATGGCGGGGGTGGTGATGCTGTTGAGTTTGATGGTAAAGAAGGGGTGGGTCTCTCTAGGTCTGAAGATGATAAAACTGATGATTTCATTGGCTTTTCTCGACTTAGTTTGGAAGACAAAGGATGGATATCACCCCCAGATAGCATCTGCTGTACTGACTCTGGATCTGACATGACAGCAACCGAAGTTAGTCTTCCTGATAGCTTGAATGATTCAGCAGGAAATAAAGACCTGCTTTCACAGGGGTCTAGTAGTAGAAACCCCACAGGTCATATGCATACTGCTCTATTCTTTCAAACTGAAGTAGAAGAAATCTCACCCTTTGGGCTGTCACAATCTTCTCCTGTAGAAACTGATCTTAATGGTTCTGGTTCTGTGAAATCAATCAATGAGGCCACTGAACATTCTGAAGCAATAGTTGTACTAGGTGATAAAACTGCTGCCATCCCTGCTAACTCCCAAAATCCAACAAATGAGAACATAGACAAATTTGATTCAGCAGATGAGCCCCTTTCTGCAAAAGAAATTAAAAATGCTACAGAACACCGTGAAGCTCGTGATCTGAACGTAAATGCCAATACTCGTGTTGGAAGGGGTAAAAATGGTTATGCCTTGTCAGTATTGAGGCGGGTTGAGATGAAAATTGATGGTCGAGATATCTCTGAAAGCAGAGAAATTGATATTGCAGAGCAAGTAGATTATCTACTAAAGCAAGCCACTAGTGTAGATAATCTATGCAACATGTACGAAGGGCCAAACTGTGTAGCTTCTGCCGTCCTCTTGATTTCAGCTTTTGTCGAGGCAGAGTTACTATTTTTCACCTTACATGTGGACTTTCATCTACCATCCCACAGTGAAGTCCCAGGCTCACAGCTGGTCTCGTGGGAGATGAACAAGGATTACCATGCCTTCCTTCCCTCCTGGTTTAAACAGTGTAGTGTAGCTTTTAGCTCCTGCAACTTGCATAGCCATACTGATTGA | 11745 | 0.4196 | MWFKTLGHVNSCFCNNIFCIIKQIQYFFDSNSTMTGAERYPDFFKVFLQEQHLERILIPNAFVKLERLQGKIPEDVLLRNSSERVWHVKTRFFGDRLYFDEGWKIFHEENCLRNVDFLIFRYDGVNEFRVKILERSTQCEKTLVKMEEEEGNEEEKAATQEVEETSEEEIFVDPVGYTSQSYRKTCRRDTASNSYPQTEDPFKEDEFDPETCIQPENNFFEAKLYRSRPNELHIPGIAIQDFSLSFPEKITLKCCQHCQRKDIQRNKLQDYHLNLAQETPIRKRYLEVTGKVCRRRPSSKNISGARYRLETLVPSILVGIGEEIFDVVDDGDIERAARAPSNLFTEFEVFLRDLEEIPARARVRVGLQLLVPLHVLDLHLVVRHLMQGIHQHQQHQHLAALVSAALPKDDSDEDPSPRLAAIHSLHRAILHPHNSLLLSHSATFLAQAFSQLLSDKCYEVRQAAVTAYGALCAVAASIPVASNGRQNLLLVVDRFIGWALPSLSTAVAVDGTKELALEGLREFLNVGGTDRYALPILKACQVLLEDERTSLALLHRLIGVITLISLKFVRCFQPHFPDIVDLLLGWALMPDLAQSDRRVILDSFLQFQKHWVGSLPMSLRLLTKFLGDMEVLLHDGTPGTPQQFRRLLALLSCFSTILQSTASGLLEMNLLEQICEPLSALLPRLLRCLSMIGQKFGWSEWIEDSWKCLTLLAEILQERFSSFYPLAVDILFQSLEFGVTVQRPGLKKISSFQVHGVLKTNLQLLSLQKLGLLPLSVKKLLKFDASVSQLRLHPNHLVTGSSAATYVFLLQHANKEVVDEAVTSLIEELELLKSLIGNNNGHSYEFNRIVDTKTFSEAELLALIKFDLKVLLACVCMGGDNSLIGQKDIASLYLRRLEKLELFITKQMNPFELPIQNFMELQITVVKTLERLNSVEFLIKCSVREQNCEKTLVEFPTEKEDRDDQFSNERLAVITEHLEKYSKLVVKAFHISSPLAIKLIVLDWGQKFCESVMAVNKISSISGFSYEACEYASVIMNLVFSLLGGTFEREQEVRSHVAITLEMFMQAKLLHPVCFYPLAEVILEKLGDPTIEIRDAYVRLLAHILPTTIYSCGLYDYGRFRSVDPVLGNNSKLHWKQLFALKQLPLQLHSQHLVSILSYISQRWKVPLSSWIQRLIHSCRSSKDAILSLPEETGIFGANSPWLDIRVDEDILEKICSVNNLAGAWWAVQEAARYCIATRLRTNLGGPTQTFAALERMLLDIAHLLQLDNEQSDGNLSMIGSSGAHLLPMRLLLDFVEALKKNVYNAYEGSVILPPATRQSTLFFRANKKVCEDWFSRICEPMMNAGLAVHCNDAVIQYCTLRLQELKNLSVSTLKEKSRTQVTDNLHNIRGRYRGDVLKVLRDVSLALCKSSDPESLIGLQKWVSITFSLLGDENQSFSEGGTVGSLSWISGLIYQARGEYENAAAHFTHLLQTEESLSSLGSDGIQFVIARIIESYTAVSDWRSLETWLLELQQLRAKHTGRSYSGALTMAGNEVNAIHALARFDEGDYQAAWSSLDLTPKSNSELTLDPKIALQRSEQMLLQSLLFQKEEKSDKVLRDLQKARSMLEEPLSVLPLDGLAEATPLAIQLHCIFLVEDNCKLKTNHEKAKQLPSILNSLESLPSSISKIRQDCNPWLKVLRVYKTISPSSPVTLKFCINLHNLARKQNNLLLANRLNNYIKDHVFACPEERHRNLLVLNLQYESILLQYAENKFEDAFTNLWSFLHPCMVSPKPSIISDVKERILKAKACLKLSDWLRRDYSDWSPEGVVLKMAADFDLAESSPHGKDGSKENLSCKSNLGSIIEEIVGTTTKLSSSICPTMGKSWISYASWCFKQATDSLHVQSETILHSCSFSSMLVPEILPDRFKLTEDEVQRIKSLVLCLFQDNIDMKGFTDEQEEQSSWLDSAELSISESPLQKLVWNIVNVIETAAGASGAENSGGECLSDMVSSQLRICLLSTNFGLKESDISFALDNFVDIWWSLRRRRVSLFGHAAHGYIQYLSYSSSRICHSQVPGSEYETLKQKAGSYTLKATLYILHILLNYGVELKDTLESALLVVPLLPWQEVTPQLFARISSHPEQVIRKQLEGLLTMLAKQSPYSIVYPILVDVNAYEEKPSEELHHVLSCLRELYPRLVQDVQLMINELGNVTVLWEELWLSTLQDLHTDVMRRINLLKEEAARIAENVTLSQNEKNKINSARYSAMMAPIVVALERRLASTSRKPETPHEAWFQEEYKDQLKSALVSFKIPPVSSAAIGDVWRPFDSIAASLASYQRKSSVSLGEVAPHLALLSSSDVPMPGLEKQMQVPDSDKATDHQGVVTIASFHEQVTILPTKTKPKKLGILGSDGHKYTYLLKGREDLRLDARIMQLLQAINGFLHSSSSACSNSLTIRYYSVTPISDWPHEVKCKVLLDLMKEVPRHLLYQELWCASEGYKAFSSKLKRYTGSVAAMSMVGHVLGLGDRHLDNILIDFCNGDIVHIDYNVCFDKGQRLKIPEIVPFRLTQIIEAALGLTGIEGSFRSNCEKVIGVLRKNKDVLLMLLEVFVWDPLVEWTRGDFHDEAAIGGEERKGMELAVSLSLFASRVQEIRVPLQEHHDQLLTSLPAVESALERFGDVLNKYELASSLYCRADQERSSLILHETSAKSIVAEATSNSEKIRASFEIQAREFAQAKAMVAEKAQEAMTWAEQHGRILDALRCNLIPEINASFKLNNMETVISLTSAVIAAGVPLTVVPEPTQAQCHDIDREVSQFIVELGDGLTSATASLQAYSLALQRILPLNYLSTSAVHNWAQVLQLSINALSSDMLSLARRQASELIAKFHVDNSDSIKFSHDDLCFRVEKYAVEIEKIEKECAEIESSIGSESESKTKDRLVSQMTEVVLPDVIRAAVSLNSEVMDAFGLISQVRGSIETALEQLMEVEMERVSLIELEQNYFVKVGLITEQQLALEEAAVKGRDHLSWEEAEELASQEEACRVQLDQLHQTWNQRDVRTSSLTKRETDIKNALISVNCQFQSLVGVEEERELHILRSKALLASLVKPFLELESIDILLSSTDGSVAMPTSKFHTLTDLINSGNSISEYVWKVGGLLDNHSFFIWKIGVIDSFLDACIHDIASSVEQNLGFDQSLNFMKKKLEIQLQKHIGHYLKERVAPSLLACLDKENEHLKQLTESSKELALDQGKKDGAVKKVLLMLEEYCNAHETARAAKSAASIMKKQVNELKEALRKTALERAMAWACGNSSNSGNTSTTNSGIPPEFHEHIKNRRQILWESREKASDIVKLCVSVLEFEASRDGYLFIPDQPYPFRSSVDAKTWQQVYLNALTRLDVTFHSYSRTEQEWKLAQCTVEAASNGLYTATNELSIASLKAKSASGDLQNTVLSMRDCAYEASVTLSAFARISRIQTALTSESGSMLEEVLAITEDIHDVYNLGKEAAGIHLSLMEGLSKANAILFPLESVLSKDVAAMADAIDRESETKKEISHIHGQAIYQSYCLRIREACQTFKPLVPSLMLAVKGLYSLLTRLARTANALEGIGESQEVKSVTTTLSRSDGGGGDAVEFDGKEGVGLSRSEDDKTDDFIGFSRLSLEDKGWISPPDSICCTDSGSDMTATEVSLPDSLNDSAGNKDLLSQGSSSRNPTGHMHTALFFQTEVEEISPFGLSQSSPVETDLNGSGSVKSINEATEHSEAIVVLGDKTAAIPANSQNPTNENIDKFDSADEPLSAKEIKNATEHREARDLNVNANTRVGRGKNGYALSVLRRVEMKIDGRDISESREIDIAEQVDYLLKQATSVDNLCNMYEGPNCVASAVLLISAFVEAELLFFTLHVDFHLPSHSEVPGSQLVSWEMNKDYHAFLPSWFKQCSVAFSSCNLHSHTD | 3914 |
Annotation information
| Select | Seq ID | Length | Analysis | Description | Start | End | IPR | GO |
|---|---|---|---|---|---|---|---|---|
| Vian5g01442 | 3914 | Gene3D | - | 35 | 139 | IPR015300 | - | |
| Vian5g01442 | 3914 | Pfam | Serine/threonine-protein kinase smg-1 | 1073 | 1549 | IPR031559 | GO:0000184|GO:0004674|GO:0016310 | |
| Vian5g01442 | 3914 | SMART | FATC_2 | 3812 | 3842 | IPR003152 | GO:0005515 | |
| Vian5g01442 | 3914 | ProSiteProfiles | Phosphatidylinositol 3- and 4-kinases catalytic domain profile. | 2365 | 2632 | IPR000403 | - | |
| Vian5g01442 | 3914 | ProSiteProfiles | FATC domain profile. | 3812 | 3854 | IPR003152 | GO:0005515 | |
| Vian5g01442 | 3914 | Coils | Coil | 2212 | 2232 | - | - | |
| Vian5g01442 | 3914 | ProSitePatterns | Phosphatidylinositol 3- and 4-kinases signature 2. | 2487 | 2507 | IPR018936 | GO:0016301 | |
| Vian5g01442 | 3914 | Gene3D | - | 2457 | 2626 | IPR036940 | - | |
| Vian5g01442 | 3914 | Pfam | FATC domain | 3815 | 3839 | IPR003152 | GO:0005515 | |
| Vian5g01442 | 3914 | Coils | Coil | 143 | 168 | - | - | |
| Vian5g01442 | 3914 | Pfam | Phosphatidylinositol 3- and 4-kinase | 2456 | 2593 | IPR000403 | - | |
| Vian5g01442 | 3914 | MobiDBLite | consensus disorder prediction | 3584 | 3609 | - | - | |
| Vian5g01442 | 3914 | Coils | Coil | 3197 | 3217 | - | - | |
| Vian5g01442 | 3914 | Coils | Coil | 2879 | 2899 | - | - | |
| Vian5g01442 | 3914 | SMART | pi3k_hr1_6 | 2392 | 2648 | IPR000403 | - | |
| Vian5g01442 | 3914 | PANTHER | ATAXIA TELANGIECTASIA MUTATED ATM -RELATED | 1470 | 2593 | - | - | |
| Vian5g01442 | 3914 | MobiDBLite | consensus disorder prediction | 146 | 165 | - | - | |
| Vian5g01442 | 3914 | SUPERFAMILY | Protein kinase-like (PK-like) | 2332 | 2596 | IPR011009 | - | |
| Vian5g01442 | 3914 | SUPERFAMILY | DNA-binding pseudobarrel domain | 40 | 136 | IPR015300 | - | |
| Vian5g01442 | 3914 | Pfam | B3 DNA binding domain | 43 | 135 | IPR003340 | GO:0003677 | |
| Vian5g01442 | 3914 | Coils | Coil | 3242 | 3269 | - | - | |
| Vian5g01442 | 3914 | Gene3D | - | 2332 | 2442 | - | - | |
| Vian5g01442 | 3914 | ProSiteProfiles | FAT domain profile. | 1528 | 2152 | IPR014009 | - | |
| Vian5g01442 | 3914 | SMART | B3_2 | 43 | 136 | IPR003340 | GO:0003677 | |
| Vian5g01442 | 3914 | SUPERFAMILY | ARM repeat | 266 | 735 | IPR016024 | - | |
| Vian5g01442 | 3914 | CDD | B3_DNA | 41 | 133 | IPR003340 | GO:0003677 | |
| Vian5g01442 | 3914 | MobiDBLite | consensus disorder prediction | 3641 | 3678 | - | - | |
| Vian5g01442 | 3914 | FunFam | serine/threonine-protein kinase SMG1 isoform X1 | 2454 | 2626 | - | - | |
| Vian5g01442 | 3914 | FunFam | Serine/threonine-protein kinase SMG1 | 2316 | 2443 | - | - | |
| Vian5g01442 | 3914 | ProSiteProfiles | B3 DNA-binding domain profile. | 41 | 136 | IPR003340 | GO:0003677 |
Duplication type information
| Select | Gene | Chromosome | Start | End | Duplicated_type |
|---|---|---|---|---|---|
| Vian5g01442 | Vian-Chr5 | 37034716 | 37057962 | Dispersed/Wgd |
Functional genes information
| Select | Gene | Gene_start | Gene_end | Function | Ath_gene | Identity(%) | E-value | Score |
|---|---|---|---|---|---|---|---|---|
| Vian5g01442 | 37 | 135 | REM Transcription Factor Family | AT3G53310 | 36.364 | 5.96e-12 | 67.8 |
Transcription factors information
| Select | Regulatory Factors | Family | Gene | Hmm_acc | Hmm_name | E_value | Clan |
|---|---|---|---|---|---|---|---|
| TF | B3 | Vian5g01442 | SMG1 | 2.4e-40 | No_clan |
Pathway information
| Select | Query | KO | Definition | Second KO | KEGG Genes ID | GHOSTX Score |
|---|---|---|---|---|---|---|
| Vian5g01442 | K08873 | - | gmx:100808763 | 3563.85 |