Gene search

Sequence information

Select Gene Cds Cds_length GC_content Pep Pep_length
Ahy14g0343 ATGGCCTCTTCGCAAAATGTTGAATTGGAGGCAGCTAAGTTTCTGCACAAACTCATCCAAGATTCTAAAGATGAGCCAGCTAAGTTGGCTACTAAACTCTACGTGATACTACAACACATGAAATCAAGTGGGAAGGAGCATTCAATGCCATATCAAGTGATATCAAGGGCAATGGAGACTGTCATCAATCAGCATAATCTTGATATTGAAGCATTGAAGTCTTCACGTCCTCCTTCTGGTGCTGGCAGTTCTCAAATAGGAACTTCACAAGCAGTGGGTGTTGCTACGGATTCAAGAGCAGCGTTGCCTGAAAATGTGATGCCCAAACTGGATTCCTTCGCTTCTGGCCGGCCCCCAGTTTCCCCAAGTAGTGGAGCACCTGATCACTATCAAGGATCTGCGGCTCAGAGGAGTGGTCAGTCTTTTGATCATGGAAGTCCGTGTAGTTTAGATTCTAGGTCTGCTAACTCACAATCACATGATAGACGAGATACTACTAATTTGGACAAACAGGTGAATCAAAAGGATGGTAAAAAAGCTACCTCAAAGAGAAAGAGGGGGGATACATTGTCACCTGCAGAACCACACGTTGACATTCCTTCTCGTCTTGATCAGCGAAATACTGCTAATACGAGGAAGGGTAAAATGACCAAGGCTGAGTCATCAGATGGTCTTCCAGTTAGAAGTGGAGAGCTGACTAACTTTAACAGGGTTCCAAGTAGTAGTCAAATGCAAAGGGCCAACCAAGAAGGCCCAACAAAGATTGGCAATCCAGTGCCATGTGCTCCGAATTCTAAATATCCAGAAGATACAGAGGTTTCCTCTGCTCATATTGCTTCTGGTAAACTTCAAGGTGCTCATCCTATGGTTCATGGAGGGATGGGGGTTGCCACTAGTGCATACGCAATGACTGAATCAGTTCTCTCAAGTTCAATGCGGCATGGTGGGATGCTTGGGCATGATAGTGGAAGTTCTACTACTTCTGCTGATGAACATAAAATAGGCCAGACTGACAGGCATAGTAGTAACTCAGAAATGACTATGCTTAGACAAGGAGTTCCTCCCAGGAATATGGCAAGATCCACAGTCAGTGAATCATCTGGTGTGCCTTTCAAAGAACAACAGTTGAAACAGCTCCGAGCTCAGTGCCTTGTTTTTCTAGCATTTAGAAATGGTTTAGCACCAAAGCAACTACATCTTGAAATTGCTCTTGGAACCGCATTTTCTAGAGAAGGAAAGGATCATACTGACCACAAAGGAAAGTCACAATCTTCTGTTGAATTGGGTACCTCATCAGGGGTCATGATGCCTTTTGGAGGTCTGAACAATATGAGACAACCTGATAATAACTCTTCAGGGTCCCCTTCTGCTGGAAAATCTCTGGAAGCTACGTCATTCTCCAAGGGAACTGAGAGTGCAATAATGACTGGGGACAAAGGTATTCTTTCTGAAGAAAGGAAACATCTCCTAGCTGTCAAAAAAGTAGAGCTTGAAAAGCAAATTCAAGAAAGAGCTGGTGCACAAGCTTCGTCAGCTACTTCTTTTCAGCAGCAAGATTCCTCCAGTACAAAGGGTGATGTTGACAGTGGTAATCTTCAGGTTGGACTGTCCAACCGACCTTCCTCTGTCATTGGGCTGAATAAGCAGATGAATCCTGAGATAAATGGCTTTACCGGATTCGCTAGTTCTGATGAGGCTTCAGAAGGACCCTCGCAAGTCTCTTCTCTTCAGCATGAGTTGCCAATAGAAAGAAGAGACAATGTTGTTAATCAGTTTCAAAATAGTGGTGGTTCTCGAAACCATCATTCTCTAAACCACTTGACGTATGCTTTGAAAGAGCACTGGAAACCTGTTCCAGGGACTGGCATTGATCCCCAGGGAGCAAGCTTGATGAAGGATGCAGATTTATTAGCGAAAAATGTTTCTTTTTCAGATGGGTTCAAAACAGTTCCTGTTAATGATGCCTCAAGACATGATGCCACTTTTCCTACGGACATAGAAGGGAATGGGAGGTTACCTCCTCCAAAATATACAATGTCAGGAAGATGGATTATGGATCAGCAGAAAAAGAGGCTTCTAGTTCAGCAAAACTGGGTACAAAAACAGCAAAAAACAAAGCAAATAATGACCACCTGTTTCCTCAAGCTAAAGGAAAATGTGAGCTCATCCGAGGATATATCTGCTAAAACAAAAAGCGTCATAGAGTTGAAGAAACTTCAATTATTAGACCTCCAACGCCGTCTCCGCAGTGATTTTTTGAATGATTTCTTCAAACCAATTACAACTGAGATGGAACAGTTGAAATCGGTTAAGAAACATAGGCATGGAAGAAGGGTTAAGCAACTAGAAAAGTATGAGCATAAAATGAGGGAAGAGCGTCAAAAAAGAATCCGTGAAAGACAGAAGGAGTTTTTCAGTGAGATAGAAGTCCACAAGGAAAAGCTTGATGATGTGTTCAAAATCAAGAGGGAACGGTGGAAGGGTGTCAATAGATATGTGAAAGAGTACCATAAAAGAAAAGAGCGCATTCATCGTGAAAAGATTGATAGGATCCAGCGGGAGAAGATTAATTTGTTGAAAATAAACGATGTGGAAGGTTATCTTCGGATGGTTCAGGATGCAAAATCTGATCGTGTGAAGCAACTTCTTAAAGAGACTGAGAAGTATCTCCAAAAGCTTGGTTCCAAGCTACAAGAAGCAAAGACTGCAGCAGGTCGCTTTGAACATGATATTGATGAGGCACGATGTGGCAGTTTTCTTGATAAGAGTGAATCTACTCTTGAAAATGAGGATGAAGGTGATCAGGCCAAGCATTATCTGGAAAGCAATGAGAAATATTATATGATGGCACACAGTGTAAAGGAGAGCATTGCAGAGCAGCCATCTTGTTTGAAGGGCGGAAAATTGAGGGAGTATCAAATGAATGGCCTGAGGTGGCTTGTTTCCTTATATAACAACCACTTGAATGGAATCCTTGCAGATGAAATGGGACTGGGTAAAACTGTTCAGGTTATTTCTCTAATTTGCTACCTGATGGAAAGTAAAAATGATAGGGGGCCATTTCTTGTGGTTGTGCCCTCTTCAGTTCTACCTGGTTGGGATTCAGAAATCAACTTTTGGGCTCCTGATGTACATAAAATTGTCTATGCTGGACCACCTGAGGAGCGACGTCGGTTATTTAAGGACAGGATTGTTCACCAGAAATTCAATGTCCTCCTGACAACATATGAATATCTAATGAACAAGCATGACAGACCAAAGCTTAGCAAAATACACTGGCATTATATAATAATTGATGAGGGCCACCGCATAAAAAATGCTTCTTGCAAGTTGAATGCTGACTTAAAACACTATCAGAGCTCTCATAGATTGTTGTTAACTGGAACTCCATTGCAGAACAATCTTGAGGAACTATGGGCGCTACTTAACTTCTTGTTACCTAACATATTTAATTCATCTGAGGATTTTTCCCAGTGGTTTAATAAGCCATTTGAGAGTGCTGGAGATAACTCACCAGATGAAGCCTTACTATCCGAGGAGGAGAACCTCTTGATCATCAATCGTCTGCACCAAGTTCTGAGACCATTCGTACTTCGGAGGCTTAAACACAAGGTTGAAAATGAACTTCCCGAAAAGATTGAAAGACTTGTAAGATGTGAGGCTTCTGCTTATCAAAAACTTTTGATGAAGAGAGTGGAAGAAAATCTTGGCTCTATTGGCACAACAAAGGCACGGTCGGTGCACAACTCTGTCATGGAGCTTCGTAATATCTGCAATCATCCATATCTCAGCCAGCTTCATGCAGAGGAGGTGGATAACTTTATACCTAGGCATTATCTGCCCCCAATTATTAGACTTTGTGGGAAGCTTGAGATGTTGGACCGTATTTTACCTAAATTGAAGGCAGCAGATCATCGGGTTCTTTTCTTCTCAACAATGACTAGGCTTCTTGATGTTATGGAGGAATACTTAACTCTTAAACAGCATCGGTACCTTCGGCTGGATGGGCATACCTCGGGAGGTGATCGTGGGGCCCTAATAGACCTGTTTAACCAACCTGGTTCTCCATATTTTATATTTTTGCTGAGCATTCGTGCTGGTGGCGTTGGAGTGAATCTTCAAGCTGCTGACACAGTGATTATATTTGACACTGACTGGAATCCACAGGTTGACCTGCAAGCACAAGCAAGGGCTCATAGAATTGGTCAGAAGAAGGATGTTTTAGTACTTCGATTTGAAACAGTTCAAACTGTTGAAGAACAAGTCAGAGCTTCTGCTGAGCACAAACTGGGAGTTGCTAATCAGAGCATTACTGCTGGGTTTTTTGACAATAATACAAGTGCTGAGGACCGAAGAGAATACTTGGAATCCCTCCTGCGTGAGTCTAAGAAAGAGGAAGCGGCACCTGTATTGGATGATGATGCTTTAAATGATCTCTTAGCACGCAGTGAAGCAGAAATAGATGTGTTTGAGGCTGTTGACCAAAAAAGGCGCGAAGATGAGATGGCTACATGGAAGAAGTTGGTATCTGGGCCAGCAACTGATGGTTCTGAGCCTATTCCTACCCTTCCTTCACGTCTAGTTACAGATGAAGACTTGAAACAATTCTATGAAGCGATGAAGATATCCGATGTGTCCAAGGATGAAGTAGCATCTAACGGAATCAAGAGGAAGAGTGGAACTCCTGGGAGCCTTGATACTCAACATTACGGAAGGGGAAAACGTGCAAGAGAGGTGCGTTCCTATGAAGAACAATGGACAGAGGAGGAGTTTGATAAGATGTGTAAAGCTGAATCTCCTGGATCACCGAAAGTAATGGAAGAAGTGATAGAGTCAAATTGCAAAACAAATGCTTCTAGCTTTGCTGCAACTGCTTCTGTCACGGAGACTGCAGTGGTGCCTCCGGTGGCCCCTGTAACATCATCTCTTGGGAGTTTGCCTGTGCATAAAGTCAAAGATATAACACCACCTGCTAAACGTGGACGTGGCAGGCCAAGAAGAATAACCTCAGATAAGTTGCCTGTAACTGCAGTCCCTCTGGCTACTTCTGTAACTGTTGAAGTGGACATGCAGGTAAAGGAAGGGACTTTGCTTGGTCAAGTAGTATCGTCAACTCCCGAATCTATTTCTCATTCTTCTGAAGTTATTGGTGTGAGTGGACCTGCACAGCAGTCTGCTACTGGTGTTTCTCCTAATCTGACAACTCCACCCAACTCTCAAGCAGAGGGTACTACTGTTTCTGTGCCAATACAAACAAGAGGACAAGGCCGGAAATCTCAAGGTGGAGGGGAGGCAACTAGACGTAGAGGGAAGAAGCAGGTTCTAGTGTTGTCTCCTGTACCTGGGGTTTCTATTGGTCCTGATTTAAAGATGAATGAGCAGTTGGAACACAAACCCCTGAATCCATCTGCTGGTGAAGCTATCTCCCAAGGTGACACTGTTTCCTCCAGTGCTACAGTACAACATTCAAGTACAGAACCGGGTTCTGTGACTTTAAGCAGTGGAGGTGATAATAAATCTGGTGTTGGGATTGCTCTGAGTTCTCAGCAGCCCCTTCCTTTGTCCTCTGTTACTCCTGTGCCTCAAACTGTTCCTACTTATCCTTCTGTACCTATACAAAATGATGGGCAACATCAGAAGCCTCAAAATGGATCAGGAGCTCCCCGACGCAGGGGAAAGAAAAAAGCAATGGTATTGCCTATTCCAGATGTTTCAGGTAGTCAGAATTTGCACCTTACTTCCAATTTACAAAGCTCATCAGGCAATATATTACATGATAAAGCCACGGAGTTGAAAAGCTTGCAAGATAGCCTTGTTCAGGAATCACAGAGTGTTGTCCAAGATCATGCATCACATAGTATTGGTGATAAGGATTTAAAATCAACTGAAGTATCTGGTGATATAGCCAATAAGGCATTGGTTGAATCAACAACTGAAGATAATACCAAAAGATCTCCTGGGTTGGAAATAGAGAAGGTTCAGAATTCTGATATGCATGGTTCTGCTTCCATCCATTTATCCAATACCCTTGTTCTGGAGAATTCAAGGAACAAAAGTTTCTGTGGCTCAACCTTGCCTGTTACAGAGGTTACAAGGGACCAACAATTGGAGGCGAAAACTCATCACTGTGATGAAGCTTCAAAACCTGATACTTTTCCAGTCCATTCTACAAAAGAAACAAAAGGAAGTTCTAACAAGGCTGTAGAACCTATGGCTGCACAAGCAGTTCCCAATGCATCAGACAATGCTTATCCTTCCATATCAGGCTCTGAATCCATTCAGCCATGCCCACCTGAATCCATGCCAGTTAAAAGGCAAGGCCGTAAAACTCAAAATAGAGTGGAGCCACCCCGGCGTAGGGGGAGAAAATCATCTTCGGCAGCTCCTGTTGTTTCTGATTCCCTTGCTAACCAGGATCCTAATTTAAATAATGATTTTCAGAAGTCATCAGTAGAATCATCCGTGGGTAAAGTCGCTACAGATGTCGCTCAAGCTCAAGCATTTCAGATCCTTTTGCCCAGTGGAGGCGCTGCTCATGATTTAAACACAAAAGAGGGAGCTGCCATTTCTTCTCTAAACAAGCAGCAAAAAGTTGCACCAGGAAGGGTTGATAGTGCACCAGTATCCTCAGATAAGATTACTGCTTTTGGCCGAATGCAAAATGTCAATGATGTGGCTAGGGTTATGAAAGAAGTTTTCTCTGGAACCTGCTTGCCAAAGCCTAAAGCAGCAGATTCTGCTGCCGGCGAACTCTCAAAAACTAATACTACAATTGATTCCATGAATACCCAGTTGAATGCTGATAAAGCAGGTTATGATATAACAAATGCGGAAGCAGCATGTCTAACTCCAGGCATTGCTGTGAACATACAAGAAAAACAATCAGAGGGGGAATTCAATAATCAGAAATTGGAGGACAAAGCAAGTTCAGATATACCAAATACTGGAGTAGTGGATGTCTCCAATAACATGTGTTTGCAGGATAAAGCAGGTAAGGAGCTTGACAAGCAATCTGAAGTATCTGACATGCAGATTCTTGAGAGCAAAGAAAATTCCGATATGCCAACTACTGGAGCAGTGAACAGAAATGAAAGACAATTAGAGGAAACATCCACTACTCTGTATCTTGAAGGTAAAGCAGCGTCAGACAAGCCAACTACAGGAGTAGTGGATGCCTTCAATTTTCAGTGTTCAGAGAATAAAACTGATTCTGATATGTCTGCTACTGAAGCAGAATTTTTAATTTCAGACCTTCCAGTGAATACGCATGAAAAGCAATCTGTGGAAGCATTGAATATTCGGAATCTGGAGGATAAAGCAAGTTTGGATATACTAACTACTGAAGCAGCCTGCCCAGACTTGGACCATGCGGTTAACAAATATGACAAGGAAGTAATGGAGGCACCGAATATTCAGATTTTGGAGGATAAAGTGAATTCCGATATGCCAACTGCTGGAGTAGTGGTTACATCGAATGACCAGTTTTTGGAGGATAAAGCTGGAATGGATGAACCTACTTCTGGAGCAGCTTGTCTAACTTCAGATCTTTCAATTAATCAGTGTGAACAATTGGAGGAAGCTTCCAGCATTCAGAAGCCGGATGTTGAATCAAGTTCAGATGTGCCAGCTACTGGGGGAGTGAGTGCCTCCAATATCCAATGTTCAGAGGATAAAGCATATTCTGAGATATCAGCTGGTGAAGATGGATGTACGACTGTGGACCTTGCAGTGAGCGGGAAAGAAAAACAATCAGAGGAGGAATCCAATATTCAGAATCTGGGGAATAAAATAAGTTCGGATATGCCAACCACTGGAGCATTGTGCTTGACTCCAATCATTCCTACAGATGGGAATGTGCAGCTGTCTGGGCCTCCATCTGATCAAGAAATAACTGCTTTGAATGAGCCCCTACCTAGTGCTATGGAGGTTGACACCCCCATTTGTGATGATATCAAAGAAAAGCAAGACCATATTCAACATTGTACTAAAACTTATTCTAATCAGAGTGAAGTGGAGGCTCTTGATGCAACTCCACTTAGTTCTGCAGTAAGGACTGAGTGTCTGTCTGAATCATGTACAAAGTCTTCACCTCTTGCTTCTTCTGGTGAAAATATGTCTGATCAACCACAAGTGATCCCATCCTGCCCTCTGACTCCCACCGTTTCTAAGGAATTGGTAAATTCTCCTATTTCTGAATCTTGTGAAATCAATTACAGAAATGAAGTCAATTGTTCAATGCAAGATTCTGATTTGCTGGAGCGAGAGTCTCAGATGACAGTTGGAAATAATTCTCAAAATGCATTAGAACTTGTTATAGAACAAAATGCTTTATCACCTTTGGAAACGGAGGCCCCCAATGTTGCATTAAGTGGGAAGTATTCAGATGCTTTAAAACATGCTGAGTTGCATGAGAATCCATTAGTTAAGAGCTGTTCACAATCCCTCTCTGAGGGGGAAATGAACATGGGGGATTCCATATGTGAACAACCTGTCTCTGCTGTTGATAAATCTTCTAATATTGACCCAGTTCCCGAGGAAAATGTGATATCCCCAGCAGCTATTGGCGATACCAATGTTGATTCTTCTGAGGTTTGCCCAATGGACATTGTCACATCTGTGAGTAACCAAGTTACAATTGTGCAGGACAATGAGGTTGTGGCAAAGAGTTCTCCACAGAATGTAGATACGTTCTCAGCAGATGAGGTGGAAAAAATCATAGATCAATCTCCTGATGAACCTGTTGATAGGTCAGTCTTACAACAAACATCAGGGTCAAAAGCTGTGGCCAATTCTTCAGTGGATGCTTCTCAGTCTGTCCTTGTGGAAGAGAGAACCATATCTGAAACTGCAATTTTACCCTCGTCCTCTTTTAGCATAGAGGATAACAAGGTGTCATCCAAAACCTGTGCAATTAGTAACTCTGAAACTCTGGAAGAGGCAATGGAGGAGGGTGCGACTGACCGCTCTGAATTCCTGCCCCCAGAGAAAGGTGCAGAGGAGAGCTGTAGGAATGCCACTGAGGTTCCCTCTACAGTTCCAGTGCTGCTTCAGGAATCGATTGATTCTGAAGGTGACCACCGTGATCAAGGCAAGTCACAGGTTGGTGGGATACCTGAAAATCAGGAAACTGGAATGCTTGCTGCTCCTAAAACATCTGAGGGGGGGAATGAGGTTGAGACCTTTTCTGATAAAGGTCCACTAGGATCATCTGATGCATTGGATGAATCAAAAGGATTAGCTGATATGGAGAATCAGACAGAAGCCATTCAGAACCATGCTGCTGAAATTGATGTCCCATGCACATCTGCATCAGGGGACAAGGCCGAGGGTGAACCTAAAGGATTAGCTGAGATGGATGTCCCGTGTTTGTCTGCATCAGGGGTTAAGGCCGAGGGTGAATCTAAAGAAGTAGCTGATATGGAGAATCGGGCGGAAGCCATTCAAAACTGTGCTGCTGAGATGGATGTCCCATGTACATCTGCACCAGGGGACAAGGCCGAGGGTGAATCTAAAGGATTAGCTGATATGGAGAATCTGGCAGAAGCCATTCAAAATTGTGCTGCTGAGATGGATGTCCCGTGTGTGTCTTCACCAGGGGACAAGGCCGAGGGTGAATATAAAGGATTAGCTGATATGGAGAATGAGGTAGAAACCATTGAGAGCTGTGCTGCTGAGATGGAAGTGTCATGTTCCTCTGCATCAGGGGACAAGGCAGAGGGTGAGAATGCTTTAGTTGGCACCAAGGAAAAAATTCTGGTGTCAGAAGACACTGAAGCTTTTGCAGTTGATGAAACAGATGTTTCTAATGGCAGTCCAGCTGTGCCCGAAACAGCATCAGCCAATGGGGCTCCACTTCCATGTTCTTCGCTGAGAGTGGGTGAACCTTTGGTGGGGCATGATACTAAAGGAACTGAAACTGGTGTCGCCAACCATGATAATCAAGCCATACGGCAAAATGCTCTGAAAGATGCAGAAGAGTGCTCTTCTTCTGCAGCCGCTGACATAATTGAAAAGAGCTCACCTCAGAAGGATGTCATTGAATCTTCTCCGTTGCTGCCGCTGGAAACATCTGTTGATGGGGTTCCACCTCCATGCTCTTCAGTTGCTGAGGGCGAACGTGTAGAGAGTTTGTCAGATGAGGCTTTGGTTGATTCTGCTGTGAAGCTTGGTACTAAAAATTCTGAAGCTTCCCAGGATAATCTAGTTTTGCAAGAAAATGCATTGAACGAAATGGAAAAAACCCTTCCTTCAGCAACTGAGGATAGAGTTGCAGTGTGCTCACCTGAGAAGGATAATTTAACTGCTTGCTCAGAAGCACCCCAGGAATCTGAAAAGTCTGAAAATGTGCAGAACCGGTCTGAGGAAGAACCTGGCCAGAGTTCAGTGGCTGAAGAAACCAAAAAAGACTGA 10410 0.4338 MASSQNVELEAAKFLHKLIQDSKDEPAKLATKLYVILQHMKSSGKEHSMPYQVISRAMETVINQHNLDIEALKSSRPPSGAGSSQIGTSQAVGVATDSRAALPENVMPKLDSFASGRPPVSPSSGAPDHYQGSAAQRSGQSFDHGSPCSLDSRSANSQSHDRRDTTNLDKQVNQKDGKKATSKRKRGDTLSPAEPHVDIPSRLDQRNTANTRKGKMTKAESSDGLPVRSGELTNFNRVPSSSQMQRANQEGPTKIGNPVPCAPNSKYPEDTEVSSAHIASGKLQGAHPMVHGGMGVATSAYAMTESVLSSSMRHGGMLGHDSGSSTTSADEHKIGQTDRHSSNSEMTMLRQGVPPRNMARSTVSESSGVPFKEQQLKQLRAQCLVFLAFRNGLAPKQLHLEIALGTAFSREGKDHTDHKGKSQSSVELGTSSGVMMPFGGLNNMRQPDNNSSGSPSAGKSLEATSFSKGTESAIMTGDKGILSEERKHLLAVKKVELEKQIQERAGAQASSATSFQQQDSSSTKGDVDSGNLQVGLSNRPSSVIGLNKQMNPEINGFTGFASSDEASEGPSQVSSLQHELPIERRDNVVNQFQNSGGSRNHHSLNHLTYALKEHWKPVPGTGIDPQGASLMKDADLLAKNVSFSDGFKTVPVNDASRHDATFPTDIEGNGRLPPPKYTMSGRWIMDQQKKRLLVQQNWVQKQQKTKQIMTTCFLKLKENVSSSEDISAKTKSVIELKKLQLLDLQRRLRSDFLNDFFKPITTEMEQLKSVKKHRHGRRVKQLEKYEHKMREERQKRIRERQKEFFSEIEVHKEKLDDVFKIKRERWKGVNRYVKEYHKRKERIHREKIDRIQREKINLLKINDVEGYLRMVQDAKSDRVKQLLKETEKYLQKLGSKLQEAKTAAGRFEHDIDEARCGSFLDKSESTLENEDEGDQAKHYLESNEKYYMMAHSVKESIAEQPSCLKGGKLREYQMNGLRWLVSLYNNHLNGILADEMGLGKTVQVISLICYLMESKNDRGPFLVVVPSSVLPGWDSEINFWAPDVHKIVYAGPPEERRRLFKDRIVHQKFNVLLTTYEYLMNKHDRPKLSKIHWHYIIIDEGHRIKNASCKLNADLKHYQSSHRLLLTGTPLQNNLEELWALLNFLLPNIFNSSEDFSQWFNKPFESAGDNSPDEALLSEEENLLIINRLHQVLRPFVLRRLKHKVENELPEKIERLVRCEASAYQKLLMKRVEENLGSIGTTKARSVHNSVMELRNICNHPYLSQLHAEEVDNFIPRHYLPPIIRLCGKLEMLDRILPKLKAADHRVLFFSTMTRLLDVMEEYLTLKQHRYLRLDGHTSGGDRGALIDLFNQPGSPYFIFLLSIRAGGVGVNLQAADTVIIFDTDWNPQVDLQAQARAHRIGQKKDVLVLRFETVQTVEEQVRASAEHKLGVANQSITAGFFDNNTSAEDRREYLESLLRESKKEEAAPVLDDDALNDLLARSEAEIDVFEAVDQKRREDEMATWKKLVSGPATDGSEPIPTLPSRLVTDEDLKQFYEAMKISDVSKDEVASNGIKRKSGTPGSLDTQHYGRGKRAREVRSYEEQWTEEEFDKMCKAESPGSPKVMEEVIESNCKTNASSFAATASVTETAVVPPVAPVTSSLGSLPVHKVKDITPPAKRGRGRPRRITSDKLPVTAVPLATSVTVEVDMQVKEGTLLGQVVSSTPESISHSSEVIGVSGPAQQSATGVSPNLTTPPNSQAEGTTVSVPIQTRGQGRKSQGGGEATRRRGKKQVLVLSPVPGVSIGPDLKMNEQLEHKPLNPSAGEAISQGDTVSSSATVQHSSTEPGSVTLSSGGDNKSGVGIALSSQQPLPLSSVTPVPQTVPTYPSVPIQNDGQHQKPQNGSGAPRRRGKKKAMVLPIPDVSGSQNLHLTSNLQSSSGNILHDKATELKSLQDSLVQESQSVVQDHASHSIGDKDLKSTEVSGDIANKALVESTTEDNTKRSPGLEIEKVQNSDMHGSASIHLSNTLVLENSRNKSFCGSTLPVTEVTRDQQLEAKTHHCDEASKPDTFPVHSTKETKGSSNKAVEPMAAQAVPNASDNAYPSISGSESIQPCPPESMPVKRQGRKTQNRVEPPRRRGRKSSSAAPVVSDSLANQDPNLNNDFQKSSVESSVGKVATDVAQAQAFQILLPSGGAAHDLNTKEGAAISSLNKQQKVAPGRVDSAPVSSDKITAFGRMQNVNDVARVMKEVFSGTCLPKPKAADSAAGELSKTNTTIDSMNTQLNADKAGYDITNAEAACLTPGIAVNIQEKQSEGEFNNQKLEDKASSDIPNTGVVDVSNNMCLQDKAGKELDKQSEVSDMQILESKENSDMPTTGAVNRNERQLEETSTTLYLEGKAASDKPTTGVVDAFNFQCSENKTDSDMSATEAEFLISDLPVNTHEKQSVEALNIRNLEDKASLDILTTEAACPDLDHAVNKYDKEVMEAPNIQILEDKVNSDMPTAGVVVTSNDQFLEDKAGMDEPTSGAACLTSDLSINQCEQLEEASSIQKPDVESSSDVPATGGVSASNIQCSEDKAYSEISAGEDGCTTVDLAVSGKEKQSEEESNIQNLGNKISSDMPTTGALCLTPIIPTDGNVQLSGPPSDQEITALNEPLPSAMEVDTPICDDIKEKQDHIQHCTKTYSNQSEVEALDATPLSSAVRTECLSESCTKSSPLASSGENMSDQPQVIPSCPLTPTVSKELVNSPISESCEINYRNEVNCSMQDSDLLERESQMTVGNNSQNALELVIEQNALSPLETEAPNVALSGKYSDALKHAELHENPLVKSCSQSLSEGEMNMGDSICEQPVSAVDKSSNIDPVPEENVISPAAIGDTNVDSSEVCPMDIVTSVSNQVTIVQDNEVVAKSSPQNVDTFSADEVEKIIDQSPDEPVDRSVLQQTSGSKAVANSSVDASQSVLVEERTISETAILPSSSFSIEDNKVSSKTCAISNSETLEEAMEEGATDRSEFLPPEKGAEESCRNATEVPSTVPVLLQESIDSEGDHRDQGKSQVGGIPENQETGMLAAPKTSEGGNEVETFSDKGPLGSSDALDESKGLADMENQTEAIQNHAAEIDVPCTSASGDKAEGEPKGLAEMDVPCLSASGVKAEGESKEVADMENRAEAIQNCAAEMDVPCTSAPGDKAEGESKGLADMENLAEAIQNCAAEMDVPCVSSPGDKAEGEYKGLADMENEVETIESCAAEMEVSCSSASGDKAEGENALVGTKEKILVSEDTEAFAVDETDVSNGSPAVPETASANGAPLPCSSLRVGEPLVGHDTKGTETGVANHDNQAIRQNALKDAEECSSSAAADIIEKSSPQKDVIESSPLLPLETSVDGVPPPCSSVAEGERVESLSDEALVDSAVKLGTKNSEASQDNLVLQENALNEMEKTLPSATEDRVAVCSPEKDNLTACSEAPQESEKSENVQNRSEEEPGQSSVAEETKKD* 3470
       

Annotation information

Select Seq ID Length Analysis Description Start End IPR GO
Ahy14g0343 3469 MobiDBLite consensus disorder prediction 1650 1669 - -
Ahy14g0343 3469 MobiDBLite consensus disorder prediction 3391 3469 - -
Ahy14g0343 3469 ProSiteProfiles Superfamilies 1 and 2 helicase ATP-binding type-1 domain profile. 981 1148 IPR014001 -
Ahy14g0343 3469 Coils Coil 3394 3414 - -
Ahy14g0343 3469 Coils Coil 883 903 - -
Ahy14g0343 3469 MobiDBLite consensus disorder prediction 3349 3377 - -
Ahy14g0343 3469 SUPERFAMILY P-loop containing nucleoside triphosphate hydrolases 1202 1462 IPR027417 -
Ahy14g0343 3469 Gene3D - 960 1209 IPR038718 -
Ahy14g0343 3469 Coils Coil 3463 3469 - -
Ahy14g0343 3469 MobiDBLite consensus disorder prediction 2106 2122 - -
Ahy14g0343 3469 MobiDBLite consensus disorder prediction 1719 1759 - -
Ahy14g0343 3469 Coils Coil 3209 3229 - -
Ahy14g0343 3469 MobiDBLite consensus disorder prediction 2040 2055 - -
Ahy14g0343 3469 PANTHER CHROMATIN STRUCTURE-REMODELING COMPLEX PROTEIN SYD 98 2956 - -
Ahy14g0343 3469 MobiDBLite consensus disorder prediction 72 95 - -
Ahy14g0343 3469 MobiDBLite consensus disorder prediction 2979 3119 - -
Ahy14g0343 3469 MobiDBLite consensus disorder prediction 2040 2148 - -
Ahy14g0343 3469 MobiDBLite consensus disorder prediction 317 346 - -
Ahy14g0343 3469 MobiDBLite consensus disorder prediction 2079 2095 - -
Ahy14g0343 3469 Pfam Snf2-ATP coupling, chromatin remodelling complex 1496 1591 IPR029295 GO:0042393
Ahy14g0343 3469 CDD DEXHc_SMARCA2_SMARCA4 966 1202 - -
Ahy14g0343 3469 MobiDBLite consensus disorder prediction 1806 1884 - -
Ahy14g0343 3469 MobiDBLite consensus disorder prediction 410 470 - -
Ahy14g0343 3469 MobiDBLite consensus disorder prediction 2127 2148 - -
Ahy14g0343 3469 MobiDBLite consensus disorder prediction 1719 1895 - -
Ahy14g0343 3469 Gene3D - 1210 1432 IPR027417 -
Ahy14g0343 3469 MobiDBLite consensus disorder prediction 2908 2931 - -
Ahy14g0343 3469 Pfam Helicase conserved C-terminal domain 1289 1402 IPR001650 -
Ahy14g0343 3469 CDD SF2_C_SNF 1280 1412 - -
Ahy14g0343 3469 SUPERFAMILY P-loop containing nucleoside triphosphate hydrolases 947 1200 IPR027417 -
Ahy14g0343 3469 MobiDBLite consensus disorder prediction 2981 3002 - -
Ahy14g0343 3469 MobiDBLite consensus disorder prediction 227 252 - -
Ahy14g0343 3469 MobiDBLite consensus disorder prediction 126 155 - -
Ahy14g0343 3469 Pfam SNF2-related domain 973 1263 IPR000330 GO:0005524|GO:0140658
Ahy14g0343 3469 ProSiteProfiles HSA domain profile. 789 861 IPR014012 -
Ahy14g0343 3469 Coils Coil 1445 1465 - -
Ahy14g0343 3469 MobiDBLite consensus disorder prediction 1552 1576 - -
Ahy14g0343 3469 MobiDBLite consensus disorder prediction 156 192 - -
Ahy14g0343 3469 SMART SnAC_2 1495 1592 IPR029295 GO:0042393
Ahy14g0343 3469 ProSiteProfiles Superfamilies 1 and 2 helicase C-terminal domain profile. 1292 1438 IPR001650 -
Ahy14g0343 3469 MobiDBLite consensus disorder prediction 443 470 - -
Ahy14g0343 3469 MobiDBLite consensus disorder prediction 77 95 - -
Ahy14g0343 3469 MobiDBLite consensus disorder prediction 109 260 - -
Ahy14g0343 3469 MobiDBLite consensus disorder prediction 3445 3469 - -
Ahy14g0343 3469 SMART QLQ_2 369 404 IPR014978 GO:0005524|GO:0005634|GO:0006355
Ahy14g0343 3469 MobiDBLite consensus disorder prediction 3262 3309 - -
Ahy14g0343 3469 PANTHER SNF2/RAD54 HELICASE FAMILY 98 2956 - -
Ahy14g0343 3469 MobiDBLite consensus disorder prediction 2914 2931 - -
Ahy14g0343 3469 MobiDBLite consensus disorder prediction 3391 3413 - -
Ahy14g0343 3469 MobiDBLite consensus disorder prediction 505 539 - -
Ahy14g0343 3469 Coils Coil 782 802 - -
Ahy14g0343 3469 SMART ultradead3 965 1159 IPR014001 -
Ahy14g0343 3469 MobiDBLite consensus disorder prediction 2525 2549 - -
Ahy14g0343 3469 MobiDBLite consensus disorder prediction 1972 1996 - -
Ahy14g0343 3469 SMART helicmild6 1318 1402 IPR001650 -
       

Duplication type information

Select Gene Chromosome Start End Duplicated_type
Ahy14g0343 Ahy-Chr14 4679397 4699338 Tandem
       

Functional genes information

Select Gene Gene_start Gene_end Function Ath_gene Identity(%) E-value Score
Ahy14g0343 1289 1459 RAD5 or RAD16-like Gene Family AT5G22750 34.503 4.53e-20 97.1
       

Transcription factors information

Select Regulatory Factors Family Gene Hmm_acc Hmm_name E_value Clan
TR SNF2 Ahy14g0343 SNF2_N 3.00E-68 CL0023
       

Pathway information

Select Query KO Definition Second KO KEGG Genes ID GHOSTX Score
Ahy14g0343 - - adu:107482714 6460.17
       

Event-related genes

Select Gene_1 Chr_1 Start_1 End_1 Gene_2 Chr_2 Start_2 End_2 Event_name
Ahy14g0343 14 4679397 4699338 Ahy14g0343 14 4679397 4699338 ECH