Gene search


Sequence information


Select Gene Cds Cds_length GC_content Pep Pep_length
Bma02g00118 ATGGGCCCCTCTGTCAAGTTTAACTCAGAGCCTCCTCCAAAAATTAAAGCCTTTATTGATAAAGTGATACAGTGCCCATTACATGACATAGCAATACCACTTTCTGGTTTCCGTTGGGAGTACAGTAAGGGAAATTTCCACCATTGGAGACTGCTGTTTTTACACTTCGACACATATTTTAAGACATATTTGTCTTGTCGGAATGACCTTCTCTTGTCAGATGAACTTTTAGATGATGACAGTCCATTTCCAAAACATTCTGTTCTCCAGATTTTACGAGTGATGCAAACAATTCTAGAGAACTGCCATAACAAGTCTTCATTTGATGGCTTAGAGCATTTTAAGCTCCTACTCGCTTCAACGGATCCTGAGATTCTAATAGCTACTCTAGAAACTCTTTCTGCACTTGTGAAAATAAATCCCTCTAAGTTGCATGGAAGACGGAAGCTGATTGGTTGTGGTTCTGTAAACAGCCATCTTCTATCTCTAGCACAGGGATGGGGAAGTAAGGAGGAGGGGTTGGGTTTATATTCATGTGTTATGGCCAATGAGCAAACTCAAGAGGAAGGACTCTGTTTATTTCCGTCAGATATGGAAAACGATTTTGACAAGTCTCAATATCGGATAGGTTCAACCCTCTACTTTGAGTTCCATGGGGTCAATGACCAAACCAGTGAGGAAAATAGTGTCAATGTAAATAATTCTAGTCTGAGAGTTATACATTTACCAGACCTGAATATGCGGAAGGAAAGTGATCTGGTTATATTGAAACAATGCAACGAGCAGTATAATGTACCGTCTGGCCTTCGTTTCCCGTTACTTACCAGAATTAGATATGCGCGGGCCTTTCGATCACCAAGAAGATGCAGGCTTTACAGCAGGATATGTCTTCTTGCATTCATTGTACTGGTTCAGTCTAGTGATGCTCATGAAGAACTTGTGTCCTTTTTCGCTAACGAGCCCGAGTACACAAATGAATTGATTAGAATTGTGCGATCTGAAGAAACTATTTCTGGATCACTTAGAACACTTGCGATGCTTGCTTTGGGAGCTCAGTTAGCTGCATACTCATCTTCTCATGAGCGTGCCCGAGTATTGAGTGGATCAAGTATAAGTTTTGCTGGTGGGAACCGCATGATTCTACTTAATGTCTTCCAGAGAGCTGTTCTGTCATTGAAAAACCCCAATGATCCCTCATCACTTGCCTTTGTTGAAGCGCTTCTTCAGTTTTATTTGCTCCATGTTGTTTCATCATCATCTTCTGGGAGCAACATACGAGGTTCAGGCATGGTTCCTACATTTTTACCTCTTCTTGAGGATGCAGATCCTAATCATCTTCATCTTGTTTGTTTTGCTGTGAAAACACTACAAAAGCTTATGGATTTTAGTAGTTCAGCTGTTACCCTGTTCAAAGAGTTGGGTGGAGTTGAACTTTTGGCCCAGAGGCTACAAATAGAAGTACATCGAGTAGTTGATTTGGCTGCAGTAAATGATACTCCTATGATTATTGGTGAAAGCTCCAAATATAATGATGATCAGTTGTACCCTCAAAAGAGGCTGATTAAGGTTTCATTGAAAGCTCTGGGGTCTGCCACATATGCCCCAACAAACCCTGCTAGAGCCCAAAACTCCCATGATAGTTCTTTACCTTCTATCTTATGTTTTATTTTTGGGAATGTAGATAAATTTGGAGGGGACATTTATTACTCAGCTGTGACTTTTATGAGTGAAATTATCCACAAAGACCCAACTTGCTTTTCTGCTTTGCATGAAGTGGGTCTTCCGGAAGCATTTTTATCTTCAGTGGTAGCTGGAATTCTTCCTTCATCTAAGGCTCTGACTTGCATCCCTAATGGTCTCGGAGCCATTTGTCTAAATGCCAAAGGTTTAGAGGCAGTTAAAGAAACCTCAGCAATGAGGTTCCTTTTTGACATTTTTACGAGCAAGAAATATGTTTTACCAATGAATGATGCTATTGTTCCCTTAGCAAATGCGGTGGAAGAGCTTTTGCGCCATGTCTCCTCATTGAGAAGTATCGGTGTTGATATTATCATTGAAATAATTGAAAAAATTGCTTCTTTTGGGGACAGTGACATTACAAGTTCATCGGGAAAGGCTAATGGAAGTACTGCAATGGAAATGGATTCTGAAGGGAAAGAAAATGACAGTCACTGCTCTCTGGCTGATCCAGCTGTGGAGGGGATTGGTAATGAACAATTCATCCAGTTTTGTACATTTCATTTGATGGTACTAGTACACAGGACGATGGAAAATTCTGAAACATGTCGAATATTTGTGGAGAAATCAGGAATCGAAGTTTTGCTTAAGCTTTTATTACGGTCCAGTATTGTACAGTCTTCTGAGGGGATGTCTATTGCTCTGCATAGCACTATGGTCTTTAAGGGGTTTGCACAACATCATTCTGCTCCACTGGCAAGCGCATTCTGCTCCTCCCTCAGGGATCATTTGAAGAAAGCTTTGAATGATTTTGGTGTGGTTTCAGGATCCTTTTTGTTGGATCCAAAAATGACCCCTGATGGAGGAATCTTTACCTCACTTTTTATTGTTGAGTTTCTTCTATTTCTTGCTGCCTCAAAAGACAACAGATGGGTAACTGCGTTGCTTACAGAATTTGGGAATGGCAGTAAGGATGTTTTGGAAGACATTGGACGTGTTCATCGCGAAGTCTTGTGGCAGATTGCATTTCTTGAAGGTGCCAAACAAGAAGTAGAAGATAGCATTGGTTCTAGTACAGAGCCGCAGACCTCAGAGCTGAATTCAAATGAAGCAGAAGAGCAAAGATTCAACTCCTTCAGGCACTTTCTTGATCCTTTATTGAGACGCAGAACATCTGGATGGAGTATTGAATCTCAGTTTTTTGACCTCATTAACCTTTATCGCGATCTTGGTCGTGCCAGTGGTTCTCACCAAAGAGTTGGTTCTGATGGTCCATTGCACATGCGATTTGGAGGTGGTCAATTCTATCAATCTGGTTCTTCAGACTTTTCTGGGGGTACTGTTAGAAAAGAATTTGACAAGCAGAGGTCCTACTATGCCTCTTGCTGTGACATGGTGAGATCTCTTTCTTTCCACATTACCCATTTGTTTCAAGAATTGGGGAAGGTAATGTTGCTTCCTTCACGTCGGCGCGATGACATTGTAAATGTATCTCCTGCATCAAAGTCAGTTGCTTCCATTTTTGCGTCTATTATTTTAGATCACATGAATTTTGGGGGCCATGTAAATGGCTCGGGATCTGAGGGGTCTATATCGACAAAGTGCCGCTACTTCGGTAAAGTTATTGATTTCGTGGATGGAATTCTACTTGACAGGCCAGATTCGTGTAATCCTGTTCTGCTAAACTGCTTGTATGGAAATGGAGGTGTGCAGTCGGTTTTGACCACATTTGAAGCTACCAGTCAATTACTCTTCACCATTAATAGAGCTCCTGCATCTCCAATGGAAACTGACGATGGGAACTTGAAGCTGGATGACAAGGAGGATAGTGATTATTCTTGGATTCATGGACCTTTAGCTGGTTATGGGAAACTGATGGATCACTTCGTGACTTCATCTTTTTTATTACATTCATCTACTAAACACTTGCTTGCACAACCTCTAATAGGTGGTGAAGTTCCGGTTCCGCAGGATGCTGAGACTTTTGTAAAGATTATCCAGTCTATGGTTCTGAAGGCGGTGCTTCCAGTCTGGACTCATCCACAGTTCATTGATTGCAGTTGTGAATTCATTACTACAGTTATTTCCATAATCAAACATATTTATTCTGGCGTGGAAGTGAAAAATGCCCATAGTAACATTGGTTCTCGCATAACTGCCCCCCCTCCAAATGAAACAGCTATTTCAACAATTGTAGAGATGGGGTTTTCTAGGACTCGAGCAGAAGAAGCTCTGAGGGAGATTGGCTCGAACAGTGTGGAGTTTGCAATGGAGTGGTTGTTCTCCCATCCGGAGGAGACCCAAGAAGATGATGAACTTGCTCGTGCACTTGCCATGTCCCTCAGGAACTCTGAATTGGAATCAAAGGAATCTGTTGCCAATGGAAGTCTTCAGCAGCTTGATGAAATAAAGGTACAGCTTCCTCCTGTTGAGGAATTGTTATTGACGTGCACAAAGCTTCTGCAAACGAAAGAACCTCTTGCTTTTCCAGTTAGAGACTTGCTTGTCATGATAAGTTCGCAAAATGAGGGCCAGAATAGGTCTAACATTGTCTCCTTCATTGTTGATCATATAAAGTGCTGTGATTCTGTTGCAAACAGTGGAAATAGTACAATGATGTCTGCTCTTTTTCATATTATTGCTTTAATTCTCCATGAAGATGCAGAAGCACGGGAAGTTGCCTCCAATAATGGTTTGGTGACTATTACCTTGGATTTGCTTTCCCAGTGGGATTCTTGCTTGGCTGATGGCAATAAAGGGGAAATTCCAAAGTGGGTAACTGCTGCTTTTCTTGCTATTGATCGGCTCCTGCAGGTGGATAAAAAGGTCCATTCGGAAATAGCAGAGCAGTTGAAAAGGGATAATGTTAATGGTCTGCAAACGCCTCTAGCCATCGAAGAAGATAAACAAAGTAAAGGATCTTCTCGTAAAAATATTGATGTAGATGAGCAGAAGAGGCTTGTTGAGATTGCATGTAGTTGTATTAAAAACAAAGTACCATCTGAAACAATGCATGCTGTTCTGCAGTTATGTTCTACTCTTACCAGATCTCATTCTGTGGCTGTTAGCTTCCTTGATGCTGGGGGTCTCAGTTTATTACTTTCTTTGCCAACAAGTACCCTATTTCCTGGGTTTGACAATGTTGCTTCTACTATTATTCGCCATGTACTTGAAGATCCCCAAACCCTCCAGCAGGCAATGGAATCTGAAATAAGGCACAGTCTTGCAGCTGCTGCAAATAGACATCCAAATGGAAAAGTCACTCCCCGGAACTTTTTGCTAGGTTTAAATGCAGTTATTTCTCGTGATCCAGTGATCTTTATGCAAGCTGCTCAATCTGTTTGCCAAGTTGAGATGATAGGTGAAAGACCTTACATCACTCTGGTGAAAGACCGTGAGAAAGATAAATGCAAGGAGAAAGATAAAGAAAAGGAGAAATCTTTGGAGAAGGATAACTTGCAGAGCAGTGATGGGAAAGTTTTGTCAATTAATGTGAATTCAGTGGCTTCTGGAAATTTACCCGGTAAACTTCATGATTCAAATTGGAAAAATACTAAAGCTCACCGAAGATGTTCTCAAAGTTTTATTAGCGTGGTTGAGCTTCTACTCGATACTGTATATTCTTATACACCTCCCTTGAAAGAAGATGTTGCTAAGGAGGTGTCCTTGAGTTTTCCATCATCATCTGCTATGGACATTGATGTTTGTGCTAAGGGAAAGGGTAAAGCTATCGCCACCACCTCTGAAGATAATGGGGCAAGCAGCAAAGAAGATTCTGCATCACTGGCTAAGGTCGTGTTTATTTTCAAGCTTTTAACAGAGATTTTATTGATGTATGCCTCCTCTGTCCATGTCTTTCTTCGTAGAGATGCTGAAGTTAGTAGCAGCAAAGGTTCTCATCAAAAGAGCTCGAGTGCTGTATGTACTGGTGGAATATTTTATCACATTCTTCACAAATTCATACAGTCTTCTAGAAATTCTAAGAAAGAGAAGAAAGTTGATGGTGACTGGAGACATAAATTAGCAACCAGAGCTAGTCAGTTTCTGGTTGCATCTTGTGTTCGTTCTAGTGAGGCAAGGAAGAGGGTTTTTACGGAGATTGGATATATCTTTAATGAATTTGTTGAATCATGCAATGGCTTTAGGCCTCCTAGCAATGATGTGCAAGCTTTTGTTGATCTGCTCAATGAAGTATTGGCAGCTCGTACGCCTACAGGTTCATACATTGCACCAGAAGCTTCTGCTAGTTTTATAGATGCTGGTTTGGTTGCATCAACTACTCACATTCTCGAAGTATTGGACTTAGACCATAATGATTCGCCAAAAGTTGTTACTGGTCTTATCAAAGCCCTTGAACTGGTTACCAAGGAACATGTTCATTCATCTGATTCTAATACTGGGAAGAGTGATAATTCAACAAAAAATCCTGAACACAGTCAATCTGGAAGGGAGGACATTGCTGGTGATGCATCCCGATCTATGGAAACAGGGTCTCAGATCATTCATGATGCCATGACAACCGAACGTATTGAGTCTTATGCGACGAATCAAACCTATGGTGGTTCTGAGGCAGTGACTGATGATATGGAGCATGATCAGGATCTTGACAGTGGTTTTGTTCCTACTAATGAGGATGAATACATGCAAGAAAATTCTGAGGATACTAGGGTCCATCACCTTCCACATCCTGATACAGATCAGGATGACCATGAGATTGATGATGACGAGTTTGATGAGGAAGTATTAGATGAGGATGCTGAGGATGATGAGGATGATGAAGATGAAGTAATACTAAGCCTGGAAGAGGGTATGAATGGAATAAATGTTTTTGACCATATTGAGGTATTCGGCAGAGATGATGCTTCTCAGAATGAAACTCTTCATGTGATGCCTGTTGAAATATTTGGTTCTAGACGCCAAGGCCGTACTACATCAATATACAGCCTCTTGGGTAGAACTGGTGACAATGTTTCTCCAGCGCAGCATCCTCTTTTAGGTGGACCTTCTACCCTCCAAACAGCCCTTCCTAGACAACCAGAAAATTTCAACAACGCAACTATTTCGGATAGGACCGCGGAGAACAGCTCCTCAGGTCTGGATACCATTTTCCGGTCGTTGAGGAGTGGACGCCATGGTCATCGCTTAAATTTGTGGGCGGTTGATAATCAGCAAATTGGTGGATCAAATGCAGGTGTAGTCCCACAAGGCCTAGAAGAGTTACTTGTTTCCAAATTGAAGCGTCCTACTCCTGAGAAGTCTTCTGATAAAAAAGCACTTATATCTGAGACACAGACAGAAATTGAAGTTGGGCAAGTGCAACCATCTTTAACTTGCGCTAGGGATGAAAGTCTTGTTGAAAACATTGGACAGGGGGAAAGAGATAATTTACCTTCTCCATCTATGGCAATAAATAATTCTAGTGCTGCTGATGTTGGGCCTTCTGCCAGTGAATTACGACAAGAAACAGATGTCTCCACTCAATCTCAATCTGTTGAGATGCAATTTGAACATAATGATGGTGCTGTACGAGATGTTGAAGCTGTAAGCCAAGAAAGCAGTGGAAGTGGGGCAACTTTAGGGGAGAGCCTTCGAAGTCTAGATGTTGAAATTGGCAGTGCTGATGGTCATGATGATGGTGGGGACAGGCAAGGTTCTGCAGATAGAATGTCAATGAGTGATTCGCATGTAGCTCGCACAAGAAGGGCAAATGTTTCTTTTGGTATCTCTGCACTTGTAAGTGGAAGAGATGCATCCCTTCACAGTGTATCTGAAGTTTCAGAAAATTCCAGCCGAGAAGCAGATCAGGAGGGTCCATTGTTGGAGCAGCAACTTAACAGTGATGCTGGCTCAGGAGCTATAGATCCTGCATTTTTGGATGCTCTTCCAGAGGAGTTACGTGCTGAAGTTCTTTCAGCCCAACAGGGTCAAGTTGCTCAGCCTTCAAATAGTGAGTCACAAAATACAGGAGATATTGATCCTGAATTTCTTGCTGCTCTTCCCCCAGATATCCGAGCAGAGGTTCTTGCCCAACAACAAGCACAAAGGTTGCTTCAGTCCCAGGAACTGGAAGGTCAACCGGTTGAAATGGACACTGTTTCAATAATTGCTACATTCCCTTCTGACCTGCGGGAAGAGGTTCTTTTAACTTCATCTGATGCCATCCTAGCAAATCTCACTCCAGCTCTTGTTGCTGAGGCAAATATGTTACGTGAAAGATTTGCTCATAGTTACCATAATCGTACTCTTTTTGGTATGTATCCTAGAAATCGTAGAGGTGAAACGTCTCGACGAGGTGAAGGTGTTGGCACTGGTTTGGACAGAGCTGGGGGAAATAATTCATCTCGTAAATCTGTTGGAGCTAGATTTGTTGAGGCTGATGGAGCACCTTTAATTGACACGGGTGCTTTGCATGGAATTATTAGATTGCTTCGTGTTGTTCAGCCATTGTATAAAGGTCAGCTACAGAGGCTTCTTTTGAATTTATGTTCACATCATGAAACGAGAATGGCCTTGGTCGAAATTCTTATGGACATGTTAATGCTTGACGCAAGAAAACCAGCCAATCGATGTTCCACCGCCGAACCTCCATTCAGGCTCTATGCTTGTCAAAGTAATGTCATGTATTCCCGTCCTCAATCTTTTGATGGAGTTCCTCCCTTGGTTTTGCGGCGTATCCTTGAAACTCTTACTTATTTGGCTCGGAATCATCCCTATGTTGCTGAAATACTGCTTCAGTTTAAGATATCTAATTCTTCCTGGCAAGAGCCAGAGAAAGCTGATCAGAGCCGTGGGAAAGCTTTGTCAATGGTTGAAAATGAAACCAAGTATGAAAAGTCGCCACAGGAAGGATATTTTTCAATTGCATTGCTTTTAGGTCTTTTGAATCAACCCCTCTATATGAGAAGCATAGCTCATCTTGAGCAGTTACTTAATTTGTTGGAAGTCATCATTGATAATGCTGAAAGGAAATCATTCTCTGACAAATCAACTGCAACAGCTGCTGACCGACCATCTGGTATTGATTCCACTTCAGATGCTGAAATGAATGTGGAATCCACAGAAATTTCCTCTGGTGTTGGGTCATCATTAAGAGTTAGTGATTCCTCTAAACCCACGACATCAGGTGCTGAACATCATCAGTTCGAAACACAAAGTATTCTGCTTAACCTGCCACAGCCTGACCTTCGTCTACTATGCTCATTACTTGCACGCGAGGGCCTGTCCGATAATGCATATTCTCTAGTGGCGGAGGTAATGAAGAAGATGGTAGCAATAGCTCCAAATTATTGCTGCCTGTTTATTTCTGAGCTTGCTGAAGCTGTTCAGAATTTGACAAGATCTGCCATGGATGAGTTGCGGTTGTTTGGTGAGGCAGTGAGAGCACTGTTGAGCACATCATCATCTGATGGAGCTGCAATTTTAAGAGTTCTTCAGGCGTTGAACAGTCTTGTGACCACACTATTTGAGAAAAAAAAAGATGCTCAGATTTTACCTAAAGAAGAGCATGATTCTGCTCTTTCTCAGGTGCGGAACATAAATGCAGCTTTAGAACCATTATGGCAAGAGTTGAGCTTTTGCATCACCAAAATAGAAAGCTATTCAGAATCTCCTCTTGAACTTTTGACTTCACTTAGAGCTTCCACATCCAAGCCATCTGGCACAATGCCACCTCTACCTCCTGGTAGTCAAAATGTTTTGCCATATATTGAATCTTTCTTTGTAGTGTGTGAAAAGTTACATCCTTCCCAGACAAGTTCAAGCCAGGACCTAGATACTGCAGTTTCTGAGGTTGAGGATGTCCATGGTCAGCAAAAGAATTTAGGGCCAGCCGTAAAGGTCGATGATAAACATATTGCTTTTGTGAAGTTTTCAGAGAAGCATAGAAAGCTACTGAATGCTTTCATTAGGCAAAATCCTGGGTTGCTTGAGAAGTCCTTTTCTCTCATGTTGAAAGTTCCTCGGTTCATTGAGTTTGACAATAAGCGTGCTCATTTCAGATCAAAGATTAAGCACCAGCATGATCATCATCACAATCCTTTAAGAATATCGGTTCGGAGAGCTTACATCCTTGAAGATTCATATAATCAGTTGCGGATGCGATCATCACTAGATTTGAAAGGTAGGTTGACGGTTCACTTTCAAGGGGAGGAAGGTATTGATGCTGGAGGACTTACGAGGGAATGGTATCAGTTGCTGTCTAGGGTAATATTTGATAAGGGGGCGTTGCTGTTTACAACAGTTGGTAATGAATCAACCTTTCAGCCAAATCCAAACTCCGTTTACCAGACGGAGCATCTTTCATATTTCAAGTTTGTTGGACGTGTGGTTGGAAAAGCATTATTTGATGGGCAACTCTTGGATGTTCATTTTACCCGATCCTTCTACAAGCATATTTTGGGGGTCAAGGTTACGTATCATGACATTGAAGCAATTGATCCTGATTACTTTAAAAACCTGAAATGGATGCTTGAGAATGACATCAATGATATCTTGGACCTTACTTTTAGCATCGATGCAGATGAAGAGAAGCTGATTCTATGTGAAAGGACAGAAGTAACTGATTATGAACTAATATCTGGTGGACGGAACATTAAGGTCACCGAGGAAAATAAGCACCAATATGTTGACTTAGTTGCTGAACATCGTTTGACAACTGCCATCAGACCTCAGATTAATGCATTTATGGAGGGATTCAATGAGTTAATTCAAAGAGACCTAATATCTATTTTTAATGATAAAGAACTTGAATTATTGATCAGTGGGCTTCCGGATATTGATTTGGACGACATGAGAGCAAATACAGAGTATTCTGGATACAGTGCTGCATCATCTGTCATACAGTGGTTTTGGGAGGTTGTACAGGGATTCAGCAAGGAGGATAAGGCTCGTCTGTTGCAATTTGTAACTGGCACCTCAAAGGTACCTTTAGAAGGTTTCAGTGCACTTCAAGGAATTTCAGGCTCACAAAAGTTTCAAATACACAAGGCATATGGCAGCCCTGATCACCTGCCTTCCGCACATACCTGTTTCAACCAGTTGGATCTGCCAGAATACCCCTCAAAGGAACGTCTAGAAGAGAGGCTGCTTCTCGCCATACACGAAGGAAACGAAGGATTCGGATTCGGCTAA 10806 41.73 MGPSVKFNSEPPPKIKAFIDKVIQCPLHDIAIPLSGFRWEYSKGNFHHWRLLFLHFDTYFKTYLSCRNDLLLSDELLDDDSPFPKHSVLQILRVMQTILENCHNKSSFDGLEHFKLLLASTDPEILIATLETLSALVKINPSKLHGRRKLIGCGSVNSHLLSLAQGWGSKEEGLGLYSCVMANEQTQEEGLCLFPSDMENDFDKSQYRIGSTLYFEFHGVNDQTSEENSVNVNNSSLRVIHLPDLNMRKESDLVILKQCNEQYNVPSGLRFPLLTRIRYARAFRSPRRCRLYSRICLLAFIVLVQSSDAHEELVSFFANEPEYTNELIRIVRSEETISGSLRTLAMLALGAQLAAYSSSHERARVLSGSSISFAGGNRMILLNVFQRAVLSLKNPNDPSSLAFVEALLQFYLLHVVSSSSSGSNIRGSGMVPTFLPLLEDADPNHLHLVCFAVKTLQKLMDFSSSAVTLFKELGGVELLAQRLQIEVHRVVDLAAVNDTPMIIGESSKYNDDQLYPQKRLIKVSLKALGSATYAPTNPARAQNSHDSSLPSILCFIFGNVDKFGGDIYYSAVTFMSEIIHKDPTCFSALHEVGLPEAFLSSVVAGILPSSKALTCIPNGLGAICLNAKGLEAVKETSAMRFLFDIFTSKKYVLPMNDAIVPLANAVEELLRHVSSLRSIGVDIIIEIIEKIASFGDSDITSSSGKANGSTAMEMDSEGKENDSHCSLADPAVEGIGNEQFIQFCTFHLMVLVHRTMENSETCRIFVEKSGIEVLLKLLLRSSIVQSSEGMSIALHSTMVFKGFAQHHSAPLASAFCSSLRDHLKKALNDFGVVSGSFLLDPKMTPDGGIFTSLFIVEFLLFLAASKDNRWVTALLTEFGNGSKDVLEDIGRVHREVLWQIAFLEGAKQEVEDSIGSSTEPQTSELNSNEAEEQRFNSFRHFLDPLLRRRTSGWSIESQFFDLINLYRDLGRASGSHQRVGSDGPLHMRFGGGQFYQSGSSDFSGGTVRKEFDKQRSYYASCCDMVRSLSFHITHLFQELGKVMLLPSRRRDDIVNVSPASKSVASIFASIILDHMNFGGHVNGSGSEGSISTKCRYFGKVIDFVDGILLDRPDSCNPVLLNCLYGNGGVQSVLTTFEATSQLLFTINRAPASPMETDDGNLKLDDKEDSDYSWIHGPLAGYGKLMDHFVTSSFLLHSSTKHLLAQPLIGGEVPVPQDAETFVKIIQSMVLKAVLPVWTHPQFIDCSCEFITTVISIIKHIYSGVEVKNAHSNIGSRITAPPPNETAISTIVEMGFSRTRAEEALREIGSNSVEFAMEWLFSHPEETQEDDELARALAMSLRNSELESKESVANGSLQQLDEIKVQLPPVEELLLTCTKLLQTKEPLAFPVRDLLVMISSQNEGQNRSNIVSFIVDHIKCCDSVANSGNSTMMSALFHIIALILHEDAEAREVASNNGLVTITLDLLSQWDSCLADGNKGEIPKWVTAAFLAIDRLLQVDKKVHSEIAEQLKRDNVNGLQTPLAIEEDKQSKGSSRKNIDVDEQKRLVEIACSCIKNKVPSETMHAVLQLCSTLTRSHSVAVSFLDAGGLSLLLSLPTSTLFPGFDNVASTIIRHVLEDPQTLQQAMESEIRHSLAAAANRHPNGKVTPRNFLLGLNAVISRDPVIFMQAAQSVCQVEMIGERPYITLVKDREKDKCKEKDKEKEKSLEKDNLQSSDGKVLSINVNSVASGNLPGKLHDSNWKNTKAHRRCSQSFISVVELLLDTVYSYTPPLKEDVAKEVSLSFPSSSAMDIDVCAKGKGKAIATTSEDNGASSKEDSASLAKVVFIFKLLTEILLMYASSVHVFLRRDAEVSSSKGSHQKSSSAVCTGGIFYHILHKFIQSSRNSKKEKKVDGDWRHKLATRASQFLVASCVRSSEARKRVFTEIGYIFNEFVESCNGFRPPSNDVQAFVDLLNEVLAARTPTGSYIAPEASASFIDAGLVASTTHILEVLDLDHNDSPKVVTGLIKALELVTKEHVHSSDSNTGKSDNSTKNPEHSQSGREDIAGDASRSMETGSQIIHDAMTTERIESYATNQTYGGSEAVTDDMEHDQDLDSGFVPTNEDEYMQENSEDTRVHHLPHPDTDQDDHEIDDDEFDEEVLDEDAEDDEDDEDEVILSLEEGMNGINVFDHIEVFGRDDASQNETLHVMPVEIFGSRRQGRTTSIYSLLGRTGDNVSPAQHPLLGGPSTLQTALPRQPENFNNATISDRTAENSSSGLDTIFRSLRSGRHGHRLNLWAVDNQQIGGSNAGVVPQGLEELLVSKLKRPTPEKSSDKKALISETQTEIEVGQVQPSLTCARDESLVENIGQGERDNLPSPSMAINNSSAADVGPSASELRQETDVSTQSQSVEMQFEHNDGAVRDVEAVSQESSGSGATLGESLRSLDVEIGSADGHDDGGDRQGSADRMSMSDSHVARTRRANVSFGISALVSGRDASLHSVSEVSENSSREADQEGPLLEQQLNSDAGSGAIDPAFLDALPEELRAEVLSAQQGQVAQPSNSESQNTGDIDPEFLAALPPDIRAEVLAQQQAQRLLQSQELEGQPVEMDTVSIIATFPSDLREEVLLTSSDAILANLTPALVAEANMLRERFAHSYHNRTLFGMYPRNRRGETSRRGEGVGTGLDRAGGNNSSRKSVGARFVEADGAPLIDTGALHGIIRLLRVVQPLYKGQLQRLLLNLCSHHETRMALVEILMDMLMLDARKPANRCSTAEPPFRLYACQSNVMYSRPQSFDGVPPLVLRRILETLTYLARNHPYVAEILLQFKISNSSWQEPEKADQSRGKALSMVENETKYEKSPQEGYFSIALLLGLLNQPLYMRSIAHLEQLLNLLEVIIDNAERKSFSDKSTATAADRPSGIDSTSDAEMNVESTEISSGVGSSLRVSDSSKPTTSGAEHHQFETQSILLNLPQPDLRLLCSLLAREGLSDNAYSLVAEVMKKMVAIAPNYCCLFISELAEAVQNLTRSAMDELRLFGEAVRALLSTSSSDGAAILRVLQALNSLVTTLFEKKKDAQILPKEEHDSALSQVRNINAALEPLWQELSFCITKIESYSESPLELLTSLRASTSKPSGTMPPLPPGSQNVLPYIESFFVVCEKLHPSQTSSSQDLDTAVSEVEDVHGQQKNLGPAVKVDDKHIAFVKFSEKHRKLLNAFIRQNPGLLEKSFSLMLKVPRFIEFDNKRAHFRSKIKHQHDHHHNPLRISVRRAYILEDSYNQLRMRSSLDLKGRLTVHFQGEEGIDAGGLTREWYQLLSRVIFDKGALLFTTVGNESTFQPNPNSVYQTEHLSYFKFVGRVVGKALFDGQLLDVHFTRSFYKHILGVKVTYHDIEAIDPDYFKNLKWMLENDINDILDLTFSIDADEEKLILCERTEVTDYELISGGRNIKVTEENKHQYVDLVAEHRLTTAIRPQINAFMEGFNELIQRDLISIFNDKELELLISGLPDIDLDDMRANTEYSGYSAASSVIQWFWEVVQGFSKEDKARLLQFVTGTSKVPLEGFSALQGISGSQKFQIHKAYGSPDHLPSAHTCFNQLDLPEYPSKERLEERLLLAIHEGNEGFGFG 3601
       

Gff information


Chromosome Start End Strand Old_gene Gene Num
2 1109452 1124546 - Bma014573.1 Bma02g00118 77368

Annotation


Select Seq ID Length Analysis Description Start End IPR GO
Bma02g00118 3601 MobiDBLite consensus disorder prediction 2478 2497 - -
Bma02g00118 3601 PANTHER HECT DOMAIN UBIQUITIN-PROTEIN LIGASE 7 2115 - -
Bma02g00118 3601 MobiDBLite consensus disorder prediction 2081 2130 - -
Bma02g00118 3601 Gene3D - 1280 1352 - -
Bma02g00118 3601 MobiDBLite consensus disorder prediction 2889 2935 - -
Bma02g00118 3601 MobiDBLite consensus disorder prediction 2530 2551 - -
Bma02g00118 3601 SMART hect_3 3258 3601 IPR000569 GO:0004842
Bma02g00118 3601 SMART uba_6 1283 1321 IPR015940 -
Bma02g00118 3601 MobiDBLite consensus disorder prediction 2349 2455 - -
Bma02g00118 3601 Pfam UBA/TS-N domain 1282 1319 IPR015940 -
Bma02g00118 3601 MobiDBLite consensus disorder prediction 2108 2126 - -
Bma02g00118 3601 MobiDBLite consensus disorder prediction 700 723 - -
Bma02g00118 3601 Gene3D Hect, E3 ligase catalytic domain 3361 3445 - -
Bma02g00118 3601 ProSiteProfiles HECT domain profile. 3260 3601 IPR000569 GO:0004842
Bma02g00118 3601 Coils Coil 1689 1709 - -
Bma02g00118 3601 Pfam Domain of Unknown Function (DUF908) 221 389 IPR010309 -
Bma02g00118 3601 Pfam Domain of Unknown Function (DUF908) 87 208 IPR010309 -
Bma02g00118 3601 Pfam Ubiquitin binding region 2583 2614 IPR025527 -
Bma02g00118 3601 Pfam Ubiquitin binding region 2512 2536 IPR025527 -
Bma02g00118 3601 Pfam Ubiquitin binding region 2547 2574 IPR025527 -
Bma02g00118 3601 Gene3D Hect, E3 ligase catalytic domains 3215 3478 - -
Bma02g00118 3601 Coils Coil 2862 2882 - -
Bma02g00118 3601 PANTHER E3 UBIQUITIN-PROTEIN LIGASE UPL2-LIKE ISOFORM X1 2112 3600 - -
Bma02g00118 3601 SUPERFAMILY Hect, E3 ligase catalytic domain 3230 3594 IPR035983 GO:0004842
Bma02g00118 3601 Pfam HECT-domain (ubiquitin-transferase) 3290 3600 IPR000569 GO:0004842
Bma02g00118 3601 MobiDBLite consensus disorder prediction 2017 2054 - -
Bma02g00118 3601 Gene3D Hect, E3 ligase catalytic domain 3482 3601 - -
Bma02g00118 3601 SUPERFAMILY UBA-like 1266 1332 IPR009060 GO:0005515
Bma02g00118 3601 CDD UBA_atUPL1_2_like 1286 1322 - -
Bma02g00118 3601 Gene3D - 411 798 IPR011989 -
Bma02g00118 3601 SUPERFAMILY ARM repeat 81 2153 IPR016024 -
Bma02g00118 3601 MobiDBLite consensus disorder prediction 2886 2935 - -
Bma02g00118 3601 ProSiteProfiles Ubiquitin-interacting motif (UIM) domain profile. 1327 1346 IPR003903 -
Bma02g00118 3601 PANTHER E3 UBIQUITIN-PROTEIN LIGASE UPL2-LIKE ISOFORM X1 7 2115 - -
Bma02g00118 3601 MobiDBLite consensus disorder prediction 2647 2672 - -
Bma02g00118 3601 MobiDBLite consensus disorder prediction 2352 2394 - -
Bma02g00118 3601 PANTHER HECT DOMAIN UBIQUITIN-PROTEIN LIGASE 2112 3600 - -
Bma02g00118 3601 CDD HECTc 3239 3599 IPR000569 GO:0004842
Bma02g00118 3601 ProSiteProfiles Ubiquitin-associated domain (UBA) profile. 1281 1322 IPR015940 -
Bma02g00118 3601 Pfam Domain of Unknown Function (DUF913) 452 778 IPR010314 -
Bma02g00118 3601 Gene3D - 2548 2575 - -
Bma02g00118 3601 MobiDBLite consensus disorder prediction 2429 2443 - -
Bma02g00118 3601 MobiDBLite consensus disorder prediction 2476 2497 - -
Bma02g00118 3601 MobiDBLite consensus disorder prediction 2531 2549 - -
       

Pathway


Select Query KO Definition Second KO KEGG Genes ID GHOSTX Score
Bma02g00118 - - - gmx:100788161 4890.48
       

Dupl-types


Select Gene1 Location1 Gene2 Location2 E-value Duplicated-type
Bma02g00118 Bma-Chr2:1109452 Bma13g01122 Bma-Chr13:44317846 6.66E-23 dispersed
Bma02g00118 Bma-Chr2:1109452 Bma04g01608 Bma-Chr4:52012018 2.16E-54 transposed
       

Deco-Alignment


Select Vvi1 Blo1 Blo2 Bda1 Bda2 Bpe1 Bpe2 Bma1 Bma2 Cmo1 Cmo2 Cma1 Cma2 Car1 Car2 Sed1 Cpe1 Cpe2 Bhi1 Tan1 Cmetu1 Lac1 Hepe1 Mch1 Lcy1 Cla1 Cam1 Cec1 Cco1 Clacu1 Cmu1 Cre1 Cone1 Cone2 Cone3 Cone4 Lsi1 Csa1 Chy1 Cme1 Blo3 Blo4 Bda3 Bda4 Bpe3 Bpe4 Bma3 Bma4 Sed2 Cmo3 Cmo4 Cma3 Cma4 Car3 Car4 Cpe3 Cpe4 Bhi2 Tan2 Cmetu2 Lac2 Hepe2 Mch2 Lcy2 Cla2 Cam2 Cec2 Cco2 Clacu2 Cmu2 Cre2 Lsi2 Csa2 Chy2 Cme2
Vvi18g541 . . . . . . . . . . . . . . . . . Bhi04g01403 . . . Hepe10g0443 . Lcy13g1495 . . . . . . . . . . . . . . . . . . . . . . Bma02g00118 . . . . . . . . . . . . . . . . . . . . . . . . . . .
       

Syn-Orthogroups


Select Orthogroup Bda Bhi Blo Bma Bpe Cam Car Cco Cec Chy Cla Clacu Cma Cme Cmetu Cmo Cmu Cone Cpe Cre Csa HCH Hepe Lac Lcy Lsi Mch Sed Tan Vvi Total
OG0007206 1 2 1 1 1 1 2 1 1 1 1 1 2 1 1 2 1 2 2 1 1 1 1 0 1 1 1 2 1 2 37
       

Transcriptome


Select Gene Chr Type da1 da2 da3 da4 da5 da6 da7 da8 da9 da10
Bma02g00118 Bma_Chr02 FPKM 0.0 0.0 0.0 0.0 0.0 0.36105 0.0 0.494054 0.0 0.371589