Gene search

Sequence information

Select Gene Cds Cds_length GC_content Pep Pep_length
Mupr12673g00001 ATGATCTTAAACAGAAACTTGGATTTCACACGGAAAGGGACCCTTGCTCGTGTAGCTGACCTCGATTCACTTCTCGGAGTGTCCGAAGCCTCAGATGAGATGGCCTCTTCACATAATGTTGAGTTGGAGGCAGCTAAATTTCTGCATAAACTCATTCAAGATTCTAAAGACGAGCCAGCCAAGCTGGCTACTAAACTCTATGTGATACTACAACACATGAAATCAAGTGGGAAGGAGCATTCAATGCCATACCAAGTGATATCAAGGGCAATGGAGACTGTCATCAACCAACATGGTCTTGATATTGAAGCATTGAAGTCATCACGGCTTCCTTTGACTGGTGGTCCTCAAATAGGATCTTCTTCACAGTCAGTTGTTACAAAAGATTCCAGAGTGGGCTTGGCTGAAAATGAGGTGTCCAAAATGGACCCTTTTGCTTCTGGCAGGCCACCAGTTGCCCCAAGTGGTGGAGCACCTGATTATTATCAAGGATCCGTGGCTCAAAGGAGTAGTCAGTCTTTTGATCAAGAAAGTCCATCTAGTTTGGATTCTAGGTCTGCTAACTCGCAGTCACAAGACAGACGTGATACTGCCAATTGGGACAAACAGGTGAATCAAAAGGATGGTAAAAAAGCTACAACAAAGAGAAAGAGGGGAGATACATCATCACCTGTGGAACTGCATGTTGACAGTCCTTCTCAGCTGGATCATCGCAGTACTGGTGTTAATGCAAGGAAGGGGAAAATGACCAAGGCTGAATCATCAGATGGTCTTCCAGTTAAAAGTGGTGAACTAACCAACTTTAACATGGCTCCAAATAGTGGTCAAATGGAGAATGTTTCGACTTTGCCTGCTAGCATGAGAACAATGCTTAGAGCAAACCAAGAAGGTCATCATTTATTGGCAAAGCAAACTGATTTGACAAAGATTGGCAATCCGATGGTTCGAGCACCAAATTCGAAGTATGCAGAAGACACGGAAGTCTCCTCTGCACATGTTGCTTCGGGGAAGCAGCAAGGTGCTTATGCAAAGGTTCATGGAGGGATGGTGGTTCCAGCTGGTGCATCTTCAATGGCCGAAGCTTTCTCAAATTCAATGCAATATGGTAGTGCAATTGAGCGTGACGGGGGAAGTTCTACTACTTTAACTGATGGACATAAAATTGCTCCGATTGGCAGGCAAAATAGTGGGTCAGAAATGACTATGCTTAGACAAGGTGTTCCTCCTAGAGACACTGGAAAATCCACTGTTCCTGCCATGCCTGCATCATCTGCCATGCCTTTCAAGGAACAACAGTTAAAACAGCTTCGAGCTCAGTGCCTTGTTTTTCTAGCATTTAGAAATGGTCTAGCACCAAAGAAACTACATCTTGAAATTGCACTTGGAACAGCTTTTTCTAGAGAAGATGGTTCTCGCAAAGAACTGATTGACCACAAAGGAAAATCACAATCTTTTAATGAACCAGGTAACACATCTGGGGCCATGATGCCATTTGGAGGTCTGAGCAATGTTAGACAGACAGATAAAAATCCTTCTGGTTCCTCTTCAGCTGGCAAAATTGTTGAGGCTGACTCTTTGTCAAAGGGAACTGAGAGCCCAAGAACATTGGAGGACAAAGCTAATCTACATGTCACAAAGAGAGGAGAGGTTGAAAGAAGAATTCAAGAAAGGGTGACTGCACAAGCTTCCTCAGCCACTTCATGTCAGCAGCAAGATTCTTCGAGTACAAGGGGTGCTGTAGTTGGTAATAATCATTTGGATGATGTTGACACCGGCAATATGCAGGTTGGAAGATCTAACCAATCTTCTGTTGTTGGCCAAAATAGCTGGGCTGGTTTCGCTGGTGCTAATGAGGTCTCAAAGGGACCTTCACAGATCTCTACTATTCAACATGAGTTGTCTATTGAAAGAAGAGAGAATATTCCTAGTCAGTTTCAAAATGTTGGTAATAACTGTGGTTCACGGAATCCCAATTCTGTTAATCACTTATCTTCCTTTTCTTTAAAAGAGCAATGGAAACCTGTTCCAGGGACAGACAGTGATTCTCATGGAGCAGCCATGATGAAGGATGGAAATGTGATGATAAAACATGTTTCTCCAGATGGATTCAAAACAGCTCCACTTGATAATGCATCCAAGCATGGCATCTCTTTTGCTACAGAGCAAGATGGGAATGAAAGGTTGGTATCAGCTGATTTGCCACCTTCTCCAAAATATACAATGTCAGAGAGATGGATCATGGATCAGCAGAAAAAGAGGCTTCGAGTTGAGCAAAATTGGGTGCAAAAACAGCAGAAAACAAAACAAAGAATGGCTACAAGTTTTCACAAGTTAAAGGAAAATGTGAGCTCCTCTGAAGATATTTCTGCTAAAACCAAAAGTGTTATAGAGTTGAAAAAGCTTCAACTATTAGAGCTCCAACGTCGTCTCCGGAGTTTGACAGTATATTCTCCCTTTCTGGGCAGTGATTTTCTGAATGATTTTTTCAAACCAATTACAACCGATATGGAACATTTAAAATCAATTAAGAAACATAGGCATGGTAGGAGGGCCAGACCACTTGAAAGGTATGAGCAGAAAATGAGGGAAGAGCGTCAGAAACGGATTCGTGAGAGGCAGAAGGAGTTTTTCAGTGAGATAGAGGTTCACAAGGAAAAACTTGATGATGTATTCAAAATTAAGAGGGAACGATGGAAGGGTTTCAATAAATACGTGAAAGAGTTCCATAAAAGAAAAGAACGAATTCATCGTGAGAAGATTGATAGAATCCAGCGGGAAAAGATTAATTTACTGAAAATAAACGATGTGGAGGGCTATCTTCGAATGGTGCAGGATGCAAAATCAGATCGTGTAAAGCAGCTGCTTAAAGAGACTGAGAAGTACCTTCAAAAGCTTGGGTCAAAGCTACAGGAAGCAAAGACTGCAGCAGGGCGTTTTGGGCAGGATGTTGACGAGACAGGAAATCATTATATGGAAAGCAATGAGAAGTATTATAAGATGGCTCACAGTATAAAGGAGAGCATTCAAGAGCAGCCATCTAGTTTGCAAGGCGGGAAATTGAGGGAATATCAAATGAATGGCCTGAGGTGGCTGGTTTCCCTATACAACAATCATTTGAATGGAATTCTTGCAGATGAAATGGGACTTGGTAAAACCGTACAGGTTATTTCTTTAATTTGCTATCTGATGGAAACAAAAAATGATAGAGGACCGTTTCTCGTGGTTGTGCCCTCTTCAGTTCTACCTGGTTGGGACTCAGAAATAAGCTTCTGGGCTCCTGGTGTTCATAAAATTGTCTATGCTGGACCGCCAGAGGAGAGGCGTCGGTTATTCAAGGAAAGGATTGTTCACCAGAAATTCAATGTTCTTTTGACTACGTATGAATATTTGATGAATAAGCATGATAGACCGAAGCTGAGCAAAATACATTGGCATTATATAATAATTGATGAAGGCCACCGCATAAAGAATGCTTCTTGCAAGTTGAATGCTGACTTGAAACACTACCAGAGCTCTCACAGATTGCTGTTAACTGGAACACCATTGCAGAACAATCTTGAAGAACTATGGGCACTACTTAATTTCTTGTTACCAAACATTTTCAATTCATCGGAGGACTTCTCTCAATGGTTTAACAAGCCATTTGAGAGTGCTGGTGATAGCTCACCTGATGAAGCTTTATTGTCTGAGGAGGAGAATCTCTTGATCATTAATCGTCTGCACCAAGTTTTGAGACCATTTGTTCTTAGGAGATTGAAACATAAGGTTGAAAATGAGCTGCCTGAGAAGATTGAGAGACTAATAAGATGTGAGGCTTCTTCATATCAAAAACTTTTGATGAAGAGGGTGGAAGAAAATCTTGGTTCTATTGGCACTACAAAGGTTCGATCAGTACACAACTCTGTCATGGAACTTCGTAATATATGCAATCATCCATATCTCAGCCAGCTTCATGCAGAGGAGGTGGATAACTTCATACCTAAACATTATCTGCCACCAATTGTTAGACTTTGTGGGAAGCTTGAGATGTTGGACCGTTTATTACCAAAATTGAAGGCGACAGATCATCGGGTTCTTTTCTTTTCGACAATGACTAGGCTTCTGGATGTTATGGAGGAATACTTAACCTTAAAACAGTATCGGTACCTCCGGTTGGATGGGCATACATCAGGAGGTGATCGTGGTGCTCTGATTGATCGTTTTAACCAACCCAATTCCCCATTTTTTATTTTCTTGCTCAGCATTCGAGCTGGTGGTGTTGGAGTGAATCTTCAAGCTGCTGACACGGTTGATCTGCAAGCTCAAGCAAGGGCTCATAGAATTGGTCAAAAGAGGGATGTTCTTGTTCTTCGGTTTGAAACAGTTCAAACTGTTGAAGAACAAGTCAGGGCTTCGGCTGAGCACAAACTTGGCGTTGCTAATCAGAGCATTACTGCTGGTTTTTTTGACAATAATACAAGTGCTGAAGATCGAAGAGAATACTTAGAAGCGCTCCTGCGCGAGTGTAAGAAAGAAGAAGATGCACCTGTTTTGGACGATGATGCTTTAAATGATCTCTTAGCTCGCAGTGAAACAGAGTTAGACGTATTTGAAGCTGTTGACAAAAAAAGGAAGGAAGATGAGCTGGCTACATGGAAAAAATTGGTGCTTGGTCAGGCAACTGATGGCTCTGATCTTATTCCTCCACTTCCTGCTCGTCTGGTCACTGATGAAGACCTGAAACAGTTCTATGAAGCAATGAAGATATCTGATGTGCCTAAGGGTGAGGTAGAATCTAGTGGGGTAAAGCGAAAGAGCGGATATCTTGGGGGCCTTGATACAAAACAATATGGCAGGGGAAAGCGTGCGAGAGAGGTACGTTCCTATGAAGAACAATGGACAGAGGAGGAGTTCGAGAAGATGTGTCAGGTTGAAGCTCCAGATTCACCCAAAGTAAAAGAAGTGGCAGAGATGAGTTATCCAGCAAATACTTCCAGCTCTGTTGCATCTACTACTAACTCACAACCTGTGGCTGTGCCTCCAGTGGTCCCAACATTGCCAACTGTGGAGAGTTTGCCAGTGCAGCAGGTTAAAGAGATAACCCCACCAGCTAAACGTGGCCGTGGAAGACCTAAAAGAATAACTTCAGATAAGTCACCAGCTGCAATGGCCCCTCCAGTAACTTCTGGAACTGTTGAATTAGACACACAATTACAGAAAGGAATTGGGTCTGGACATTTAGCATCATCGACTCCTGATTCTGTTGCTCATTCTGCTGAAGTTATAGGTGTGAATGCACCCATGCAGCAGTCTGATACAGGAGTTGCTCCTAATGCACAGCCTGCCATTCCTATGCCTACTATGCCGCCAAATGCTCAGGTAGCTGCTGTTCCTGTTTCTGTACCTATTCAAGCAAGAGGACAGGGGCGGAAAAGTCATGGTGGTGAAGGCATTAGACGGAGAGGGAAGAAGCAGGTCATGATTTCACCTCCTATCCCTGGTGGTTCTGTTGGTCCTGATTTAAAGGTGAATGAGCAATTGGAAGATAAATTGGTGAGTCCTTCTTCAGGTCAAGCTATCACCCAGAGTGAAACTGTTTCTAGTCTTGCTGCAGTACCCAATCCCCCTTCTACTTTGAACAGTGGAAAGGATCCTTTGGGTGTTGGGATTGTTTTGAATTCTCAGGCACCACCTCCTCTGCCCTCTATTACAACCATGGTTCAAACTGCACCTTATCCGCCCATACAGATGCAAAGTAAAGGACAAAATCAGAAGTCACCAACTGGAGTTTCCCGCCGAAGGGGAAAGAAACAGGCAACAATAATAGGTCCTGTTCCAGATGTTTTACATCAGGATTTACATCAAACTGCCAATTTACCGATTTCATCAGGCAGTATGTCAGGTGAAAAAGCCACTGAATTAAAAAGCTTGCAAGAGAACAATGTTCAAGAATCAAAATGTGTCCAGGATCAAGCATCACGGAACCTAGGTGATCAGTATTTGAAATTAATGCAAGGATCAGATGATTCAGCCAAGCAGGCGGTGATCATGTCTTCGTGTCAAGATAGTACAATCAAATCTCCAGGGCAAGATCTTGAGAAGGTTAAGAATCCTGATGTTCATGATTCTTCTGTGAAGGTTGTTGAATCTTCTGAAATTACCTCATCAAATATTGATGAAGTTTGCAATGACTCAAGGAATGAAACTTTATCTGTCAGAACATTGCCTGTTACTGAGGTGACAAAGGATCAACATCCAGTTGGTAAAACTCATAATCAAACTGTTGAAACATCAAAAACCATCCCTTCAGTTGTCGATACTCCAACTAATTCCTTGACTGGCAGCGGTGAAACTACAGAAAGCATCAGCAAGTCTTTAGATCCCCTGACTCCAAAGATTGTTCCCAGTACTTTAAGTGCTGTTTATCCTTCCACACCAGGCTCTGAATCTACTCATCCAGGTTCAATTGAATCCATGCCTACCAAAAGGCAAGGTCGTAAAACTCAAAATAGAGCTGAGCCACCACGGCGTAGGGGAAAAAAATCAGCTTCAGTGTTACCTGTTGTTCCTGATGCTGTTACTAGTCAGGATCCCAAGTTAAGTCATGCACAAAATTCATCAGGGGATTCATTGCTTGGTAAAGCCACTGCAAATGTCACTCAAACCCAAGCATTTGAGATCCTTTTACCCAGTGGAGTAGTTAGTCATGATTCTTCAAAAAGAAAAGAGAGAGCAATCAATTCTACCCAAAATAAGCAACAGAAAGGTGCATCAACAAGGATTGATGGTGCACCTATATCCACATTTCACATGATCAACGATGTTGCACGGGTAATGAAGGAAGTTTTCTCTGGAACTTGCATACCAAAGCCTAAAACTCATGATTCTGCTGGGAGTGAAGATAGGAATACATCTGCTGTACATGTTACGACTAAAGCTGCAGTGGATGCCTCCAATAATCAGAGTTTGGAGGATAAAGCACGATGTGATACGGCAACTACTGCTGCAGCATGCCTTACTTCGAATGTTGCTGTGAATGTTTATGAAAAACAATCAGAAGTGGCATCCAATACGCAGAATTTGGAGGGTAAAGCAAGTATAGATATGCCAACTACTGGAGAACATAGCCTGACATCAGATATTAAAGAAAAGGCTGAACAGACACAACCTTGTGTTGAAAGCTCAACCACAGAGTGTAAAATAGCTCTCGATACAACTCTCGTTGCTGCCCAAAAGACTGATGGTTCTTCCGAGAGACTTCCTACCAGTTGTGCCCTCAATGATTTAAATATAGATACTTCTTGCCATCAGACACATTCATCTTCTGGTGCTGAGCCTCTTGTGGTAATTGATCATAAACTTAGAAACCAATCTGGCTCTTCAGAGAAGTGTTCAAGATCTTCTCCACTTGATATTGGTGGCACAGGATGCCCACCAATTCCATTGGAACCAGAAACTTTTAGTAATAATCCTATATCTAGTCAGGCCGATACCTGTACTCAGAGCCATTCCTCCACAAATGAACCTCCTGATATCACAGAACATATTTCTAATGAAAAATTGGAGCCTTCAGAACCAACTTTGAAATCTTCATCTCTTGCTTGTGTTGACGGCTCTGGGTTATTGGCTCAGGCTGAAAATTTGGGTGATCAACCACAAGCGGTGCCATCTAGTCCTGTAACAGATCCTCATCTAAGGACAATGATAGTTTCTAGTATTTCAGAACATACTGAAATTAAAAATGAAACAGAGTCTAATTTAAAAGCTTCTGCTGAACTCTCTTTTGATGAGGGGATTGTTGGGGATAAAATTACTGCTTCTCAGTTGCTGGAGCCCAAGAATCGGATTACATTTGGTCATAATTCTCCGAAGGCATTAGAACCCTCCATGAAACAGTATTCAGAATCAGCTTCTGAAATGGAAGGTCCTGTGGATCTTAAAGCTGTTCAAGTTCAGAAGCATCCAGATGCAGTAGAACCTGCTGAATTTCATGGTACTCCATTGATTGAGAGCCACTCAAATCCTCTCCATGAGGAAAAAAGGGATGAAGATTCCGTGTGTGAACAGCTTCAGTCTTGTGTTGCTAAACCTATGAATATTGACCCTGTTTCCCATGAAAATATAGTATTACCCAAGCCTATTGGCAATCCAAAGACTGATTTCTCTGAGGTTTGCCATATGGAAATGGACACATCTGACAGGTTTGTGTTGCCACAACCTTCTGGTTTGGAAGCTGTAGTGAATGATTTGGTAGGTATTTCTGGTGTTGGCAGTCTTGTAGAGGGAACTATGACTGACGCTGCAGTTTTGTCCCCATCAACCTTGGTAGAAGAGCAAAATAGGGGCTCAGCTGTAATCATCAGTCCTGTTAGGAGTTCAGAACCTTTGGAAGAGTCAATGGAGAAGGACGTGGCTAACAACTCGGTAATCCAGGAGGAGACAAAAGTTGATAAAGTGGAAACTGATGATTCATCCATTAGTCAGATTTTGCATGTAAAACACGAGGTTTTTCAAGAAAATGTGAATTTGCCTTCCCATCTGATGACAAAGGAAGAAAACATAGAAGGCTCATCCACAAGGCACCTATCTATCAGCTCATCTCCATCATATGAATTGAAGGATTCTAAAATTGAAATATGTGATAAATATATATCTCAGGTTGGTGATTCTCAGACTGGATCTGAAGATAATATGTTGAAGAGCTTGGATTTAGTTTCATCTCCTTTGGCAAGGAAAGAAGAAGGGATCAGTTCTACATCTGATAATGATGGTTCTGAAGGCCATTCAATGTCTCTGAAGATACCAGTTTGCTCTAATGTCCCAGATACTGTTGAGCCTTCATTGACCCAAGTGAAAGAGGAAGAAAATATTGGGGTATCATCTGACAGTAAATTGGTTGTAAGGTCTGTACCTGAAAATGATATGGAAGGATCTATTCTTTTGCCAGAAAATCCAGAGCTGGAAATGAATAAAATGTCATCAGATTCCTCAATGACCGCAATCCATTCTGTGGAGGGTCAACTGTCGTTGGTAAAAGGAGAAAGCTCGGAAATTAAAATTAGTGATCAAATGGATGCTTCTCAGGTTTCTGAAAATGATTCAGAAAGGCTTACTTCCAAAAGCATGGACGCACCTTCTTGCCCACAGATGGAGGGAGATAATGTTGATATGTTATCTGACAAGGGTCCTCTCTGCAGTTCCCTTGCTCCAAGTGAACCAAGAGATATTTTGATTGAGAATAGTACGGATGGCACCAAGGATCCTGTTGCAAATCCATTACGACAACAGAAATTAGAATGTTCTGAAGATGAGAGGGTTGATGAAATGAAGACATCTGATATTGGCAGGGTTGATCCAGGACTGACATCCATAAACACAGATTTGCATTCTTCCTTGGTGATGGAGCAAGTTAAAGCTGATGTATCATATGATAGCCCACTGACTGCTGGAGAACCAAAATATTGTTTGACTGGAGAGAATTGTGAAGATGCTAATGAGGAATCAAATCCTTCAGAAGCTGAGATTGGTAATCAAATGGATGCATCTGATGTTGCTGGGGTTAATAAACGACTTTCACCAAGTAACATTATTGTGCCATCATCTTCCATGATGACAGAGGACAATACGATTGTGGTGTCATCTGACAGGGGTCCACTCTGCAGCGTGCTAGTACCCAAGGAATTGAAAGATTGTCAGACTGAAGAGGGGAGCTGTAAAGATGCCAATCAAAGCAAGACACAGGTTGGTGGGATATCTGTGGACGATATCACAGCATCAGAGGGAAAAAAGGAGGTGGAGACATTGTCTGATGAGGGCCCACAAGGAATCCTTGAAGCTCAGGATGGATCAAGAGGATTAGCTGACATTGAGGATGGGACAGATTGTAAAAGCTGTGCCTCTGAGGTGGCAAATGTATCTGAATTCCCAAATCCCTCAGTATCAGTTGAGAAGGTGGAAGGCTTATCTAAGGAAGGTATTGTTGGCAGCCAAGCAACAATGCAGGTATCAGAAGAATCTGAAGCTGTTACGGGAGATGGAATTGATGTTACTCCAGATTGTTCGGCTGTGCCAGAATCTGCGTCAATTGGTGAGGCTTCATCTCTGTGCTCTTCAGCAGCAGGGAGTGAACATGTGGACAGCTTGTCTGAGAAGGATTTAGTTGGCAACTCTGAAGCAAAATTTGACACTAAAGAATCTGAAGCTAGTGTTTCTAACCAGGAAAATCAAGTCGTGCAAGAAAATGCATTAGAAGACATGGACCATGAAGAGAACTTGTCCGAGAAGGATTTAATTGACAACACTGTAGCAAAGCTTGACACCAAAGAATCTGAAACTGGTGTTAGTAACCAGGAAAATCAAGAAAATGCATTGGAAGACATTGAAAATTTCCCTCCTTCTGCAGCAGAGAGTCAGATTGTAACCGAGAAGGCACCTGAAAAATCTTCGGATGAGAAGAGTTCAGTGGAAGGAGAAGCCCAAGAATCTGAAACCAATTTGCCGGTGTTATGA 10488 0.4221 MILNRNLDFTRKGTLARVADLDSLLGVSEASDEMASSHNVELEAAKFLHKLIQDSKDEPAKLATKLYVILQHMKSSGKEHSMPYQVISRAMETVINQHGLDIEALKSSRLPLTGGPQIGSSSQSVVTKDSRVGLAENEVSKMDPFASGRPPVAPSGGAPDYYQGSVAQRSSQSFDQESPSSLDSRSANSQSQDRRDTANWDKQVNQKDGKKATTKRKRGDTSSPVELHVDSPSQLDHRSTGVNARKGKMTKAESSDGLPVKSGELTNFNMAPNSGQMENVSTLPASMRTMLRANQEGHHLLAKQTDLTKIGNPMVRAPNSKYAEDTEVSSAHVASGKQQGAYAKVHGGMVVPAGASSMAEAFSNSMQYGSAIERDGGSSTTLTDGHKIAPIGRQNSGSEMTMLRQGVPPRDTGKSTVPAMPASSAMPFKEQQLKQLRAQCLVFLAFRNGLAPKKLHLEIALGTAFSREDGSRKELIDHKGKSQSFNEPGNTSGAMMPFGGLSNVRQTDKNPSGSSSAGKIVEADSLSKGTESPRTLEDKANLHVTKRGEVERRIQERVTAQASSATSCQQQDSSSTRGAVVGNNHLDDVDTGNMQVGRSNQSSVVGQNSWAGFAGANEVSKGPSQISTIQHELSIERRENIPSQFQNVGNNCGSRNPNSVNHLSSFSLKEQWKPVPGTDSDSHGAAMMKDGNVMIKHVSPDGFKTAPLDNASKHGISFATEQDGNERLVSADLPPSPKYTMSERWIMDQQKKRLRVEQNWVQKQQKTKQRMATSFHKLKENVSSSEDISAKTKSVIELKKLQLLELQRRLRSLTVYSPFLGSDFLNDFFKPITTDMEHLKSIKKHRHGRRARPLERYEQKMREERQKRIRERQKEFFSEIEVHKEKLDDVFKIKRERWKGFNKYVKEFHKRKERIHREKIDRIQREKINLLKINDVEGYLRMVQDAKSDRVKQLLKETEKYLQKLGSKLQEAKTAAGRFGQDVDETGNHYMESNEKYYKMAHSIKESIQEQPSSLQGGKLREYQMNGLRWLVSLYNNHLNGILADEMGLGKTVQVISLICYLMETKNDRGPFLVVVPSSVLPGWDSEISFWAPGVHKIVYAGPPEERRRLFKERIVHQKFNVLLTTYEYLMNKHDRPKLSKIHWHYIIIDEGHRIKNASCKLNADLKHYQSSHRLLLTGTPLQNNLEELWALLNFLLPNIFNSSEDFSQWFNKPFESAGDSSPDEALLSEEENLLIINRLHQVLRPFVLRRLKHKVENELPEKIERLIRCEASSYQKLLMKRVEENLGSIGTTKVRSVHNSVMELRNICNHPYLSQLHAEEVDNFIPKHYLPPIVRLCGKLEMLDRLLPKLKATDHRVLFFSTMTRLLDVMEEYLTLKQYRYLRLDGHTSGGDRGALIDRFNQPNSPFFIFLLSIRAGGVGVNLQAADTVDLQAQARAHRIGQKRDVLVLRFETVQTVEEQVRASAEHKLGVANQSITAGFFDNNTSAEDRREYLEALLRECKKEEDAPVLDDDALNDLLARSETELDVFEAVDKKRKEDELATWKKLVLGQATDGSDLIPPLPARLVTDEDLKQFYEAMKISDVPKGEVESSGVKRKSGYLGGLDTKQYGRGKRAREVRSYEEQWTEEEFEKMCQVEAPDSPKVKEVAEMSYPANTSSSVASTTNSQPVAVPPVVPTLPTVESLPVQQVKEITPPAKRGRGRPKRITSDKSPAAMAPPVTSGTVELDTQLQKGIGSGHLASSTPDSVAHSAEVIGVNAPMQQSDTGVAPNAQPAIPMPTMPPNAQVAAVPVSVPIQARGQGRKSHGGEGIRRRGKKQVMISPPIPGGSVGPDLKVNEQLEDKLVSPSSGQAITQSETVSSLAAVPNPPSTLNSGKDPLGVGIVLNSQAPPPLPSITTMVQTAPYPPIQMQSKGQNQKSPTGVSRRRGKKQATIIGPVPDVLHQDLHQTANLPISSGSMSGEKATELKSLQENNVQESKCVQDQASRNLGDQYLKLMQGSDDSAKQAVIMSSCQDSTIKSPGQDLEKVKNPDVHDSSVKVVESSEITSSNIDEVCNDSRNETLSVRTLPVTEVTKDQHPVGKTHNQTVETSKTIPSVVDTPTNSLTGSGETTESISKSLDPLTPKIVPSTLSAVYPSTPGSESTHPGSIESMPTKRQGRKTQNRAEPPRRRGKKSASVLPVVPDAVTSQDPKLSHAQNSSGDSLLGKATANVTQTQAFEILLPSGVVSHDSSKRKERAINSTQNKQQKGASTRIDGAPISTFHMINDVARVMKEVFSGTCIPKPKTHDSAGSEDRNTSAVHVTTKAAVDASNNQSLEDKARCDTATTAAACLTSNVAVNVYEKQSEVASNTQNLEGKASIDMPTTGEHSLTSDIKEKAEQTQPCVESSTTECKIALDTTLVAAQKTDGSSERLPTSCALNDLNIDTSCHQTHSSSGAEPLVVIDHKLRNQSGSSEKCSRSSPLDIGGTGCPPIPLEPETFSNNPISSQADTCTQSHSSTNEPPDITEHISNEKLEPSEPTLKSSSLACVDGSGLLAQAENLGDQPQAVPSSPVTDPHLRTMIVSSISEHTEIKNETESNLKASAELSFDEGIVGDKITASQLLEPKNRITFGHNSPKALEPSMKQYSESASEMEGPVDLKAVQVQKHPDAVEPAEFHGTPLIESHSNPLHEEKRDEDSVCEQLQSCVAKPMNIDPVSHENIVLPKPIGNPKTDFSEVCHMEMDTSDRFVLPQPSGLEAVVNDLVGISGVGSLVEGTMTDAAVLSPSTLVEEQNRGSAVIISPVRSSEPLEESMEKDVANNSVIQEETKVDKVETDDSSISQILHVKHEVFQENVNLPSHLMTKEENIEGSSTRHLSISSSPSYELKDSKIEICDKYISQVGDSQTGSEDNMLKSLDLVSSPLARKEEGISSTSDNDGSEGHSMSLKIPVCSNVPDTVEPSLTQVKEEENIGVSSDSKLVVRSVPENDMEGSILLPENPELEMNKMSSDSSMTAIHSVEGQLSLVKGESSEIKISDQMDASQVSENDSERLTSKSMDAPSCPQMEGDNVDMLSDKGPLCSSLAPSEPRDILIENSTDGTKDPVANPLRQQKLECSEDERVDEMKTSDIGRVDPGLTSINTDLHSSLVMEQVKADVSYDSPLTAGEPKYCLTGENCEDANEESNPSEAEIGNQMDASDVAGVNKRLSPSNIIVPSSSMMTEDNTIVVSSDRGPLCSVLVPKELKDCQTEEGSCKDANQSKTQVGGISVDDITASEGKKEVETLSDEGPQGILEAQDGSRGLADIEDGTDCKSCASEVANVSEFPNPSVSVEKVEGLSKEGIVGSQATMQVSEESEAVTGDGIDVTPDCSAVPESASIGEASSLCSSAAGSEHVDSLSEKDLVGNSEAKFDTKESEASVSNQENQVVQENALEDMDHEENLSEKDLIDNTVAKLDTKESETGVSNQENQENALEDIENFPPSAAESQIVTEKAPEKSSDEKSSVEGEAQESETNLPVL 3495
       

Annotation information

Select Seq ID Length Analysis Description Start End IPR GO
Mupr12673g00001 3495 ProSiteProfiles Superfamilies 1 and 2 helicase C-terminal domain profile. 1343 1517 IPR001650 -
Mupr12673g00001 3495 MobiDBLite consensus disorder prediction 1849 1876 - -
Mupr12673g00001 3495 CDD SF2_C_SNF 1331 1452 - -
Mupr12673g00001 3495 MobiDBLite consensus disorder prediction 1906 1931 - -
Mupr12673g00001 3495 Coils Coil 955 975 - -
Mupr12673g00001 3495 MobiDBLite consensus disorder prediction 3469 3484 - -
Mupr12673g00001 3495 CDD DEXHc_SMARCA2_SMARCA4 1017 1253 - -
Mupr12673g00001 3495 MobiDBLite consensus disorder prediction 2228 2252 - -
Mupr12673g00001 3495 SMART QLQ_2 426 461 IPR014978 GO:0005524|GO:0005634|GO:0006355
Mupr12673g00001 3495 MobiDBLite consensus disorder prediction 531 556 - -
Mupr12673g00001 3495 MobiDBLite consensus disorder prediction 1849 1874 - -
Mupr12673g00001 3495 MobiDBLite consensus disorder prediction 137 276 - -
Mupr12673g00001 3495 MobiDBLite consensus disorder prediction 164 194 - -
Mupr12673g00001 3495 MobiDBLite consensus disorder prediction 503 521 - -
Mupr12673g00001 3495 MobiDBLite consensus disorder prediction 226 240 - -
Mupr12673g00001 3495 MobiDBLite consensus disorder prediction 2157 2173 - -
Mupr12673g00001 3495 SMART SnAC_2 1535 1632 IPR029295 GO:0042393
Mupr12673g00001 3495 MobiDBLite consensus disorder prediction 2449 2507 - -
Mupr12673g00001 3495 SUPERFAMILY P-loop containing nucleoside triphosphate hydrolases 1253 1500 IPR027417 -
Mupr12673g00001 3495 MobiDBLite consensus disorder prediction 1798 1833 - -
Mupr12673g00001 3495 PANTHER SNF2/RAD54 HELICASE FAMILY 737 1748 - -
Mupr12673g00001 3495 FunFam Chromatin structure-remodeling complex protein SYD 1261 1472 - -
Mupr12673g00001 3495 MobiDBLite consensus disorder prediction 2077 2204 - -
Mupr12673g00001 3495 Pfam Helicase conserved C-terminal domain 1340 1430 IPR001650 -
Mupr12673g00001 3495 SMART helicmild6 1369 1442 IPR001650 -
Mupr12673g00001 3495 ProSiteProfiles Superfamilies 1 and 2 helicase ATP-binding type-1 domain profile. 1032 1199 IPR014001 -
Mupr12673g00001 3495 MobiDBLite consensus disorder prediction 557 581 - -
Mupr12673g00001 3495 Coils Coil 1485 1505 - -
Mupr12673g00001 3495 MobiDBLite consensus disorder prediction 3012 3040 - -
Mupr12673g00001 3495 MobiDBLite consensus disorder prediction 195 224 - -
Mupr12673g00001 3495 ProSiteProfiles HSA domain profile. 859 933 IPR014012 -
Mupr12673g00001 3495 Gene3D - 1261 1472 IPR027417 -
Mupr12673g00001 3495 MobiDBLite consensus disorder prediction 260 276 - -
Mupr12673g00001 3495 MobiDBLite consensus disorder prediction 2903 2924 - -
Mupr12673g00001 3495 MobiDBLite consensus disorder prediction 3433 3452 - -
Mupr12673g00001 3495 MobiDBLite consensus disorder prediction 1906 1922 - -
Mupr12673g00001 3495 Coils Coil 854 874 - -
Mupr12673g00001 3495 SMART ultradead3 1016 1210 IPR014001 -
Mupr12673g00001 3495 MobiDBLite consensus disorder prediction 3012 3038 - -
Mupr12673g00001 3495 MobiDBLite consensus disorder prediction 3387 3495 - -
Mupr12673g00001 3495 MobiDBLite consensus disorder prediction 468 594 - -
Mupr12673g00001 3495 MobiDBLite consensus disorder prediction 3230 3246 - -
Mupr12673g00001 3495 MobiDBLite consensus disorder prediction 375 394 - -
Mupr12673g00001 3495 MobiDBLite consensus disorder prediction 2190 2204 - -
Mupr12673g00001 3495 MobiDBLite consensus disorder prediction 2080 2156 - -
Mupr12673g00001 3495 MobiDBLite consensus disorder prediction 3228 3276 - -
Mupr12673g00001 3495 MobiDBLite consensus disorder prediction 1696 1722 - -
Mupr12673g00001 3495 Pfam Snf2-ATP coupling, chromatin remodelling complex 1537 1632 IPR029295 GO:0042393
Mupr12673g00001 3495 SUPERFAMILY P-loop containing nucleoside triphosphate hydrolases 994 1251 IPR027417 -
Mupr12673g00001 3495 MobiDBLite consensus disorder prediction 3407 3432 - -
Mupr12673g00001 3495 MobiDBLite consensus disorder prediction 2905 2920 - -
Mupr12673g00001 3495 FunFam Chromatin structure-remodeling complex protein SYD 1011 1260 - -
Mupr12673g00001 3495 MobiDBLite consensus disorder prediction 2479 2505 - -
Mupr12673g00001 3495 Pfam SNF2-related domain 1024 1314 IPR000330 GO:0005524|GO:0140658
Mupr12673g00001 3495 Gene3D - 1011 1260 IPR038718 -
       

Duplication type information

Select Gene Chromosome Start End Duplicated_type
Mupr12673g00001 Mupr-Chr12673 4459 27570 Dispersed
       

Functional genes information

Select Gene Gene_start Gene_end Function Ath_gene Identity(%) E-value Score
Mupr12673g00001 1340 1499 RAD5 or RAD16-like Gene Family AT5G22750 30.994 4.79e-14 77.0
       

Transcription factors information

Select Regulatory Factors Family Gene Hmm_acc Hmm_name E_value Clan
TR SNF2 Mupr12673g00001 SNF2_N 3.8e-68 CL0023
       

Pathway information

Select Query KO Definition Second KO KEGG Genes ID GHOSTX Score
Mupr12673g00001 - - gmx:100790172 5493.32