Gene search


Sequence information


Select Gene Cds Cds_length GC_content Pep Pep_length
Seca11g00275 ATGGCATCTTCACATAATGTTGAATTGGAGGCGGCAAAGTTTCTCCATAAACTCATTCAAGATTCTAAAGATGAGCCAGCCAAGCTGGCTACTAAACTCTACGTGATACTACAACATATGAAATCAAGTGGGAAGGAACATTCAATGCCGTATCAAGTGATATCAAGGGCGATGGAGACTGTCATCAACCAACATGGTCTTGATATTGAAGCATTGAAGTCATCACGTCTTCCTTTGACCGGTGGTCCTCAAATGGGATCTTCTTCTTCACAAGCAGTGGGTGGTGCAAAGGATTCCAGAGTTGGCTTGGCTGAAAACGAGGTGTCCAAAATGGATCCCTTTGCTTCTGGCCGGCCACCAATTGCCCCAACTGGTGGAGCTTCTGATTATTATCAAGGATCTGTGGCTCAGAGGAGTAGCCAATCTTTTGATCAAGGAAGTCCATCTAGCTTGGATTCTAGGTCTGCTAACTCTCAGTCGCAAGACAGACGTGATACTGCAAATTTGGACAAACAGGTGAATCCAAAGGATGGTAAGAAAGCTACCACAAAGAGAAAGAGGGGAGATACATCATCACCTGTGGAACTGCATGTTGACAGTTCTTCTATGCTGGATCCTCGCAATACTGGTGTTAATATAAGGAAGGGGAAAATGACTAAGGCTGAACCCTCTGATGGTCTTCCAGTTAAAAGTGGTGAACTGACCAACTTTAATGCACTTCCAAATAGTAGTCAAATGGAGAATATTTCAACTTTGTCTGGTAATATGAGAACAATGCTTAGGGCAAACCAAGAAGGTAATCATTTATTGGCAAAGCAAACTGATTTGACAAAGATCGGCAATCCAATGGTGCGAGCTCCAAATTCGAAGTATCCCGAAGACACAGAAGTTTCCTCTGCACATATTGCTCCAGGGAAGCAGCAAGGTGCCTATGCTAAGGTTCATGGAGGGATGGCAGTCCCTGCTAGTGTATCTCCAATGGCTGAACCAGGTTTCTCAAGTTCAATGCAATATGGTGGTTCACTTGAGCGTGATGGGGGAAGTTCGGGTACTATAGCTGATGGACATAAATTAGCTCAGATTGGAAGGCAGAATAGTGGATCAGAAATTACTATGCTTAGACAAGGTGTTCCTCCTAGAGATACAGGAAAATCTACTGCTCCTGCTCCACCTGCATCATCTGCCATGCCTTTCAAAGAACAGCAATTAAAGCAGCTTCGAGCTCAGTGCCTTGTTTTTCTTGCATTTAGAAATGGTTTACCTCCAAAGAAACTACATCTTGAAATTGCACTTGGAACCAACTTTTCTAGAGAAGATGGTCCTCGCAAAGATCTAATTGACCACAAAGGAAAATCACAATCTTTTAATGAACCAGGTAATTCATCAGGGGTCATGATGCCATTTGGAGGTTCGAACAATGTGAGACAGACGGATAAAAACCCTTCAGGGTCTTCTTCTGCTGGGAAATTTCTCGAGGCTGACTCTTTATCAAAGGGAACTGAGAGCCCAAGAATGTTGGAAGACAAAGGTAACCTACATTCTGATGTCCATATACTTTCAGAAGAAAGGAAACATCTAGCCACAAAAGGAGGAGAGGTTGAAAGACGAATTCAAGAAAGAGTGGCTGCTCAAGCTTCTTCAGCCACTTCATGTCAGCAGCAAGATTCTTCAAGTACAAGAGGTGCGGTGGTTGGTAATAATCATTTGGATGATGTTGACAATGGTAATATGCAGGTTGGAAGGTCTAACCAACCTTCTGTTATAGGCTTGAATAGCTGGACTGGATTTGCTGGCCATAATGAGACTTCAAAGGGACCTCCACAGATCCCTACTACTCAACATGAGTTGCCTATAGAAAGACGAGAGAATATTCCTAGCCAGTTTCATAATGTTGGTAACAATTGTGGTTCTCGGAATCACAATTCTATTAATCACTTGACTTCTTATTCTTTAAAAGAGCACTGGAAACCTGTTCCAGGGACTGACAGCGATCCTCATGGTGCAACCATGATGAAGAATGGAAATGTAATGACAAAAAATGTTTCTCCAGTTCCAGTTGATGATGCATCAAAACTTGGCATCTCTTTTGCTACAGAGCAAGAAGGGAATGGGAGGTTGGTATCAGCTGATTTGCCATCTTCTAAACAATATACAATGTCGGAGAGATGGATTATGGATCAGCAGAAAAAGAGGCTTCTAGTTCAGAAAAATTGGGTGCAAAAACAGCAGAAAGCAAAGGAAAGAATGACTACATGTTTTCACAAGTTAAAGGAAAATGTGAGCTCATCTGAAGATATTTCTACTAAAACAAAAAGCGTCATAGAGTTGAAAAAGCTTCAACTATTGGAGCTCCAACGTCGTCTCCGGAGTGATTTTTTGAATGATTTTTTCAAACCAATTACAACCGAGATGGAACATTTGAAATCAATTAAGAAACATAGGCATGGTAGGAGGGTCAAACAACTTGAAAGGTATGAGCAGAAAATGAAGGAAGAGCGTCAGAAACGGATTCGGGAGAGGCAGAAGGAGTTTTTCAGTGAGATAGAAGTTCATAAGGAAAAGCTCGATGATGTATTCAAAATCAAGAGGGAACGCTGGAAGGGTTTCAATAGATACGTGAAGGAATTCCATAAAAGAAAAGAACGTATTCACCGCGAAAAGATTGATAGAATCCAGCGAGAGAAGATTAATTTGCTAAAAATAAATGATGTGGAGGGCTATCTCCGTATGGTGCAGGATGCAAAATCAGATCGTGTAAAGCAACTTCTTAAAGAGACTGAAAAGTATCTTCAAAAACTTGGGTCCAAGCTCCAAGAAGCAAAGGCTGCAGCAGGACGATTTGGGCATGATGTTGATGGGACAGGAAGTGACAATTTTCTTGAGAATAGTGAAACTACTTTCGAAAATGAGGATGAAAGTGATCAGGCAAAGCATTATAAGGAAAGCAATGAGAAGTATTATATGATGGCCCACAGTATAAAGGAGAGCATTGCAGAGCAGCCATCTTGTTTGCAGGGCGGAAAATTAAGGGAATATCAAATGAATGGTCTGAGATGGCTGGTTTCCCTATACAACAATCATTTAAATGGAATCCTTGCTGATGAAATGGGACTGGGTAAAACAGTCCAGGTTATTTCTCTAATTTGCTACCTGATGGAAACAAAAAATGATAGAGGACCTTTTCTTGTGGTTGTGCCCTCTTCAGTTCTACCTGGTTGGGACTCAGAAATAAACTTTTGGGCTCCTGGTGTTCATAAAATTGTCTATGCTGGACCGCCAGAGGAGAGGCGTCGGTTATTCAAGGAAAAGATTGTTCACCAGAAATTCAATGTTCTTTTGACAACATATGAATATCTGATGAACAAGCATGATAGACCAAAGCTGAGCAAAATACATTGGCACTATATAATAATTGATGAAGGCCACCGCATAAAGAATGCTTCTTGCAAGTTGAATGCTGACTTGAAACACTATCAGAGCTCTCACAGATTGCTGTTAACTGGAACACCATTGCAGAACAATCTTGAAGAACTATGGGCACTTCTCAACTTCTTGTTACCGAACATATTCAATTCATCAGAGGACTTCTCTCAATGGTTTAACAAGCCATTTGAGAGTAATGGAGATAACTCACCTGATGAAGCTTTACTGTCCGAGGAGGAGAATCTCTTGATCATAAATCGTCTGCACCAAGTTTTGAGACCATTTGTACTTCGGAGGCTGAAACACAAGGTTGAAAATCAGCTGCCTGAGAAGATTGAGAGGCTTATAAGATGTGAGGCTTCTTCATATCAAAAACTTTTGATGAAAAGAGTGGAGGAAAATCTGGGTGCTATGGGCACTTCAAAGGCTCGATCAGTACACAACTCTGTCATGGAGCTTCGTAATATCTGCAATCATCCATATCTCAGCCAGCTTCATGTAGAGGAGGTGGATAACTATATACCTAAGCATTATCTGCCACCAATTATTAGACTTTGTGGGAAGCTTGAGATGTTGGACCGTTTATTACCTAAACTAAAGGCAACAGATCATCGGGTTCTTTTCTTTTCAACAATGACTAGGCTTCTGGATGTTATGGAGGAATACTTAACCTTAAAACAGTATCGGTACCTCCGGTTGGATGGGCATACATCAGGAAATGACCGTGGTGCTTTAATTGATCTTTTTAACCGACCCGATTCCCCATATTTTATTTTCTTACTCAGCATTCGAGCTGGTGGTGTTGGAGTGAATCTTCAAGCTGCTGACACGGTGATCTTATTTGACACTGACTGGAATCCACAGGTTGATCTGCAAGCCCAGGCAAGGGCTCATAGAATTGGTCAAAAGAGGGATGTTCTTGTTCTTCGCTTTGAAACAGTTCAAACTGTTGAAGAACAAGTCAGAGCTTCAGCTGAGCACAAACTTGGTGTTGCTAATCAGAGCATTACTGCTGGATTTTTTGACAATAATACAAGTCCTGAAGATCGAAGAGAATACTTGGAATCCCTTCTGCGTGAGTGTAAGAAAGAAGAAGCTGCACCTGTTTTGGATGATGATGCTCTAAATGATGTCATAGCCCGCAGTGAAGCTGAGCTAGATGTGTTTGAGGCTATTGACAAAAAACGGAAGGAAGATGAGCTGGCTGCATGGAAGAAATTGCTGGTTGGACAGGGAACTGATGGATCTGATCTCATTCCCCCCCTTCCATCTCGTCTTGTCACTGATGAAGACCTGAAACAGTTCTATGAAGCAATGAAGATATTTGATTCTGATGTGCCCAAAGGTGGGGTAGAATCTAATGGAGTAAAGCGCAAGAGTGGATATCTTGGGGGCCTTGATACTCAACATTATGGCAGGGGAAAACGTGCAAGAGAGGTACGTTCCTATGAAGAGCAATGGACAGAGGAGGAGTTTGAGAAGATGTGTCAGGTTGAACCTTCAGATTCACCCAAAGTAAAAGAAGAGTTGGCAGAGATGAGCTATCCAACTAATACTTCCAGCTCTGTTGTATCTACTACTGACACACAACCTGCAACTGTGCCTCCAGTGGCCCCATCTGTGGAGAGTTTGCCAGTACAGCAAGTTAAAGAGATAACTCCACCAGCCAAACGTGGCCGTGGAAGACCAAAAAGAATAACTTCAGATAAGTCACCAGCTGCCATGGTCCCTCCAGTAACTTCTGGAACGGTTGAGGCAGATATGCAGTTACAGAAAGGAAATGGATCCAGTCATTTAACATCAACTCCTGATTCTGTTGCTCATTCTGCTGAAGTTATAGGTGTGAGTGGACCTATGCAGCAGTCTGATACAGGAGTTGCTCCTAACGCACCGCTTGCCACACCTATGCCTACTATTCTACCTAATTCTCAGTCAGCTGCTGCTGTTTCTTCTGTACCTATTCAAGCAAAAGGACAAGGGCGGAAAACTAGTAGCGGAGAAGGGACTAGACGTAGAGGGAAAAAGCAGGTCATGGTTTCACCTCCAATCGCTGGTGGTTCTGTTGGTCCTGATTTGAAGGTGAATGAGCAATTGGAAGATAAATTAGCCAGTCCACCTTCGAGTCAGGCTATTTCCCAGAGTGAAACTATTCCTAGCTTTGCCGCAGTACACCATCCAACTTCCATTCCAGGTTCTGATTCTTTAAACGGTGGAAAGGATCATTTGGGTGTTGGGATTGTTTTGAATTCTCAGCTACCCATTCCTTTGCCCTCTGTTACTGCCTTGGCTCAAACTGCCCCCACTTATCCATCCGTACAGATACAAAGTAAAGGGCAAAACCGGAAGTCACAAAACGGAGCTGGTACTCCCCGGCGTAGGGGAAAGAAACAGGCAACAGTTTTACCTGTTCCAGATGTTTTAGGTCATCAGAACTTGAATCAATCTACTGATTTACCGATTTCATCAGGCGTTATATCAGATGATAAAGCCACTGTATTAAAAAGCTTGCAAGAGAACAGTGTTCAAGAATCAAAATGTGATCAAGCATCACAGAGCCTAGGTGATCAGGATTTGAAATCAATGGAAGGATCAGATGATTTAGCCAAGCAGACAGCAATCTTGTCTTCATGTCAAGATAGTACAATCAAATCTCCAGGGCAAGATCTAGAGAAGGTTAAGAATCCTGATGTTCAGGATTCTTCTGTGAAGGCTAAATCTTCTGAAATTACCACGTCGAAGATTGAAGTTTGCAATAATTCAGGGAATGAAAATTTATCTGTCACAACATTGCCCGTTACCGAGGTGATAAAAGACCAACATTCAGATGGTAAAACTAATGAAACTGTTGAAGCTTCAAAATCGTTCCCTTCAATTGTTGATACTCCAACCAATTCCTTGGCTGGTAGTGCAACCACAGAAAGTGTTGGGAAGTCTTTAGATCCTATGACTCCAAAGATTGTTCTCGGTATTTCAAGCACTATTTATCCTTCCGCACCAGGCTCTGAATCTACTCATCCAAGCTCATATGAAGCCATGTCAGCCAAAAGGCAAGGTCGAAAAACTCAAAATAGAGTGGATCCACCACGGCGTAGGGGGAAAAAATCAACCTCTGTGTTGCCTGTTGTTGCTGATGCTCTTACTGGTCAGGATCCTAAATTAAGTCATCATGCCCCAAATTCATTAGGGGATTCATTGGTGGGGAAAGCCACTACAAATCCTACTCAAACTCAAGCATTGGAGATCCTTTTGCCTACTGGAGTAACTAGTCATGATTCAAAAAGAAAAGAGAGAGCCACCAATTCTACCCAAAATAAGCAACAGAAAGTTGCATCAACAAGGACTGACAGTGCACCTGTATCCTCAGATAAGTTTCCTGCTTTTGGCCGAATTCATAATGTCAATGATGTTGCACGGGTAATGAAGGAAGTTTTCTCTGGGACTTGCTTGCCAAAGCCTAAAGCACATGATTCTGTTGGGAGCGAAGATAGGAACACACCTTCTGTACATATAACAACTAAAGCTGCAGTGGATGCCAATAATAACCAGAGTTTGGAAGATAAAACATGTTTTAATATAGCAACTACTGGTCATGAAAAACAATCAGAAGTGACAACCAATATGCAGAATCTGGAGGGCAAAGCAAGTTTAGATACACCAACTACTGGTGCTCTGAGCCTGACATCAGCCATTCCAGTGAATGGGAGCAAGCAACAATCTGGCATTACATCTGATAAAAATATAACTCATGAGAATGAGATCCTGCCAAATGTCAGTGAGCCTGAAACTAGTTGTTATGAAGTTAAAGAAAAAACTGAACAGAGAAAACACTGTATTGAAAACTCAACTTCCCAGAGTATAATGGAGTCTCCTGATACAACTCTTAATGCTGCCCAAAAGACTGATGGTTCTTCTGAGAGACTTCCGACTAGTTGTGGCCCCACTGATTTAAATGTAGAGAGTTCCACCCATAAGATATGTTCATCTGTGGTTTCTCCTGGTGCAGAACCTCTTGTGGCAATTGATCATAATCTTGGAAATCAATCTGACTCTCTTGAGAAGTGTTCAAGATCTTCTCCTGTTGGTATTAGGGGCACAGGATGCCCAGCAACTTCACTGGAACCAGAAAATATGAGTAATAATCCTGAGTCTAGTCAGGCTGATACCTGCACTCAGAATCATTCGTCAATCGGACATTCTGATATCACAGAGAACACTCCTAATGAAAAATTGAAACCTGCTGACCCATCTTTTGCTTGTAGTGATGACTCTGGGTCATTGGTTCCGGCTGAAAATTTGGGTGATAAACCGCAAGTGGCCTTGTCTAGTCCTGCAACAGATCCTCATTCAAGGACAATGGTAGTTCCTAGTATTTCTGAACATACTGAAATTAGTTCCAGAAATGAAACTAAGTCATCTTTGAAAGCTTCTGCTGAGTTATCTCTTGATGAGGGAATTGTTGGGTATAAAATTTCTGCATCAGCTGACCGTGATAGAGGTAATACTGCTGAGCATCCAAACCTGTGCTTGGATCCTGCTTCTCGTTTGCTGGAGCCTGAGATCCAGATTACATCTGGAAATCTTTCCCAAAAAGCATTAGAACCCTCCATGAAACAGTATTCAGAGTCAGCTTCTGAAATGGAAGATCCTGGAAACCCCAAAGCTGTTCAAGCTCAGAAGCATCCAGATGCATTAGAACCTGCTGATTTGCAGGAGACTCCATTGATTGAGAGCTGTTCAGAATCCCTCTGTGAGGAAAGGGATGAAGGGAATTCCATATGTGAACAGGTACAGTCTGGTGTTGCTAAACCCACTATTGGCTGTCTGAAGGCTGATTTTTCTGAGGCTGACCATATGAAAATAGACACATCTAACAGTAGCATAATGAAGTTCCCACTTGTTGATGAGGTTGTGATGAAGAATACATCACCGAAGTTAAATGTGCCATCTGCTGTAAATGAGGAGGAAATAATAGAGAGGGGTGTGGCTAACAGGTCTGGAGTCCAGGAGGAAGCAAAAGTTGGTATAGTAGAAACTGCTGTTCAAAAGGATCCATCCATTAGTCAGGTTTTTCAAGAAAATGTGACAAAGGAAGAAAAGATAGAAGAAAAGATCGGGGTATCATCGGACAGTAAATTAGTTGCAAGGTCTGTTCCCCAGAATGACATTGAAGGATCCAATGCAGATCAGAGTAGTTGTTCTGATAGATTGCAATCTGGTTATCTTTTGCAAGAAAATGCAGTTTTGGAAGTCAATAAAACATCTTCAGATTCCCCAATGATTGTCAGCTACTCTGTGGAGGGTGAAGTGTCATCCGTAAAAGGAAAGAATTCAGAAATTGAAATTACTGATCAAATGGATGCTACTCAGGTGTCTGAGGATGATCCAAAAAGGCTTACTTCCAAGAACACGGATGTGTCTTCTTGCTTGCTGATGGAGGAAGATAATGTTGATGTGTTATCTGACAAGGTCCCTCTGTCCAGGCCCCTAGCTTCAGACAAACCAAGAGATTCTTTGATTCTAGAGGAAAGTTGTAGGGACCGCACCAAGGGTCTCATTGTAAGTCCATTACCACAACAGAAAACCGAATGCTCTGAAGCTGCAAGGGTTGATCAGATGAAGACACCTGATTATGACAAGGTTGATCTAGGACTGACATCCAAAAACATGGAACTACCTTCTTCCTTGGTAATGGAGCAAGATAAAGCTGATGTATCATATGAAAGGGATAATCTCTGCAACCCACTGGCTACTGCAGAACCAAAATATTTGACAGAAGAGAATTGTAGGGATGCTAATGAGGAATCAAATGCTTCAGAAGCTGAGGTTGGTAATCAGATGGAGGCATCTGATGTTGCTGGGGTTAATACACAAAGGCTTTCCTTAAATAACATTGATGTACCTTCATCATCCTTGATGATGGAGGAAAATAAGATTAAGGTGTCATCTGACAATGGGCCACTCTGCAGTGTCCTTGCACTGGGGGAACCAAAAGATTGCTTGGCTGGAGAGGGGAGTTGTAGAGATGCCACTGAGGGCCCCTCTGCAAATCCAGTACTGCTGCAAGAATCAATTAATTCTGAAGCTGAGATGGGTAATCAAGGCGAGTCACAGGTTGGTTCCCCCTTTAGACTCTGTTCAAACCTTTTATCTTGGTTTTGCAGGTTGATGGGAAATCTGTAG 9603 0.4216 MASSHNVELEAAKFLHKLIQDSKDEPAKLATKLYVILQHMKSSGKEHSMPYQVISRAMETVINQHGLDIEALKSSRLPLTGGPQMGSSSSQAVGGAKDSRVGLAENEVSKMDPFASGRPPIAPTGGASDYYQGSVAQRSSQSFDQGSPSSLDSRSANSQSQDRRDTANLDKQVNPKDGKKATTKRKRGDTSSPVELHVDSSSMLDPRNTGVNIRKGKMTKAEPSDGLPVKSGELTNFNALPNSSQMENISTLSGNMRTMLRANQEGNHLLAKQTDLTKIGNPMVRAPNSKYPEDTEVSSAHIAPGKQQGAYAKVHGGMAVPASVSPMAEPGFSSSMQYGGSLERDGGSSGTIADGHKLAQIGRQNSGSEITMLRQGVPPRDTGKSTAPAPPASSAMPFKEQQLKQLRAQCLVFLAFRNGLPPKKLHLEIALGTNFSREDGPRKDLIDHKGKSQSFNEPGNSSGVMMPFGGSNNVRQTDKNPSGSSSAGKFLEADSLSKGTESPRMLEDKGNLHSDVHILSEERKHLATKGGEVERRIQERVAAQASSATSCQQQDSSSTRGAVVGNNHLDDVDNGNMQVGRSNQPSVIGLNSWTGFAGHNETSKGPPQIPTTQHELPIERRENIPSQFHNVGNNCGSRNHNSINHLTSYSLKEHWKPVPGTDSDPHGATMMKNGNVMTKNVSPVPVDDASKLGISFATEQEGNGRLVSADLPSSKQYTMSERWIMDQQKKRLLVQKNWVQKQQKAKERMTTCFHKLKENVSSSEDISTKTKSVIELKKLQLLELQRRLRSDFLNDFFKPITTEMEHLKSIKKHRHGRRVKQLERYEQKMKEERQKRIRERQKEFFSEIEVHKEKLDDVFKIKRERWKGFNRYVKEFHKRKERIHREKIDRIQREKINLLKINDVEGYLRMVQDAKSDRVKQLLKETEKYLQKLGSKLQEAKAAAGRFGHDVDGTGSDNFLENSETTFENEDESDQAKHYKESNEKYYMMAHSIKESIAEQPSCLQGGKLREYQMNGLRWLVSLYNNHLNGILADEMGLGKTVQVISLICYLMETKNDRGPFLVVVPSSVLPGWDSEINFWAPGVHKIVYAGPPEERRRLFKEKIVHQKFNVLLTTYEYLMNKHDRPKLSKIHWHYIIIDEGHRIKNASCKLNADLKHYQSSHRLLLTGTPLQNNLEELWALLNFLLPNIFNSSEDFSQWFNKPFESNGDNSPDEALLSEEENLLIINRLHQVLRPFVLRRLKHKVENQLPEKIERLIRCEASSYQKLLMKRVEENLGAMGTSKARSVHNSVMELRNICNHPYLSQLHVEEVDNYIPKHYLPPIIRLCGKLEMLDRLLPKLKATDHRVLFFSTMTRLLDVMEEYLTLKQYRYLRLDGHTSGNDRGALIDLFNRPDSPYFIFLLSIRAGGVGVNLQAADTVILFDTDWNPQVDLQAQARAHRIGQKRDVLVLRFETVQTVEEQVRASAEHKLGVANQSITAGFFDNNTSPEDRREYLESLLRECKKEEAAPVLDDDALNDVIARSEAELDVFEAIDKKRKEDELAAWKKLLVGQGTDGSDLIPPLPSRLVTDEDLKQFYEAMKIFDSDVPKGGVESNGVKRKSGYLGGLDTQHYGRGKRAREVRSYEEQWTEEEFEKMCQVEPSDSPKVKEELAEMSYPTNTSSSVVSTTDTQPATVPPVAPSVESLPVQQVKEITPPAKRGRGRPKRITSDKSPAAMVPPVTSGTVEADMQLQKGNGSSHLTSTPDSVAHSAEVIGVSGPMQQSDTGVAPNAPLATPMPTILPNSQSAAAVSSVPIQAKGQGRKTSSGEGTRRRGKKQVMVSPPIAGGSVGPDLKVNEQLEDKLASPPSSQAISQSETIPSFAAVHHPTSIPGSDSLNGGKDHLGVGIVLNSQLPIPLPSVTALAQTAPTYPSVQIQSKGQNRKSQNGAGTPRRRGKKQATVLPVPDVLGHQNLNQSTDLPISSGVISDDKATVLKSLQENSVQESKCDQASQSLGDQDLKSMEGSDDLAKQTAILSSCQDSTIKSPGQDLEKVKNPDVQDSSVKAKSSEITTSKIEVCNNSGNENLSVTTLPVTEVIKDQHSDGKTNETVEASKSFPSIVDTPTNSLAGSATTESVGKSLDPMTPKIVLGISSTIYPSAPGSESTHPSSYEAMSAKRQGRKTQNRVDPPRRRGKKSTSVLPVVADALTGQDPKLSHHAPNSLGDSLVGKATTNPTQTQALEILLPTGVTSHDSKRKERATNSTQNKQQKVASTRTDSAPVSSDKFPAFGRIHNVNDVARVMKEVFSGTCLPKPKAHDSVGSEDRNTPSVHITTKAAVDANNNQSLEDKTCFNIATTGHEKQSEVTTNMQNLEGKASLDTPTTGALSLTSAIPVNGSKQQSGITSDKNITHENEILPNVSEPETSCYEVKEKTEQRKHCIENSTSQSIMESPDTTLNAAQKTDGSSERLPTSCGPTDLNVESSTHKICSSVVSPGAEPLVAIDHNLGNQSDSLEKCSRSSPVGIRGTGCPATSLEPENMSNNPESSQADTCTQNHSSIGHSDITENTPNEKLKPADPSFACSDDSGSLVPAENLGDKPQVALSSPATDPHSRTMVVPSISEHTEISSRNETKSSLKASAELSLDEGIVGYKISASADRDRGNTAEHPNLCLDPASRLLEPEIQITSGNLSQKALEPSMKQYSESASEMEDPGNPKAVQAQKHPDALEPADLQETPLIESCSESLCEERDEGNSICEQVQSGVAKPTIGCLKADFSEADHMKIDTSNSSIMKFPLVDEVVMKNTSPKLNVPSAVNEEEIIERGVANRSGVQEEAKVGIVETAVQKDPSISQVFQENVTKEEKIEEKIGVSSDSKLVARSVPQNDIEGSNADQSSCSDRLQSGYLLQENAVLEVNKTSSDSPMIVSYSVEGEVSSVKGKNSEIEITDQMDATQVSEDDPKRLTSKNTDVSSCLLMEEDNVDVLSDKVPLSRPLASDKPRDSLILEESCRDRTKGLIVSPLPQQKTECSEAARVDQMKTPDYDKVDLGLTSKNMELPSSLVMEQDKADVSYERDNLCNPLATAEPKYLTEENCRDANEESNASEAEVGNQMEASDVAGVNTQRLSLNNIDVPSSSLMMEENKIKVSSDNGPLCSVLALGEPKDCLAGEGSCRDATEGPSANPVLLQESINSEAEMGNQGESQVGSPFRLCSNLLSWFCRLMGNL. 3201
       

Annotation information


Select Seq ID Length Analysis Description Start End IPR GO
Seca11g00275 3200 ProSiteProfiles Superfamilies 1 and 2 helicase ATP-binding type-1 domain profile. 1021 1188 IPR014001 -
Seca11g00275 3200 MobiDBLite consensus disorder prediction 1785 1832 - -
Seca11g00275 3200 Gene3D - 1250 1472 IPR027417 -
Seca11g00275 3200 MobiDBLite consensus disorder prediction 2020 2046 - -
Seca11g00275 3200 MobiDBLite consensus disorder prediction 1911 1962 - -
Seca11g00275 3200 MobiDBLite consensus disorder prediction 80 95 - -
Seca11g00275 3200 MobiDBLite consensus disorder prediction 2224 2261 - -
Seca11g00275 3200 SMART helicmild6 1358 1442 IPR001650 -
Seca11g00275 3200 Coils Coil 923 943 - -
Seca11g00275 3200 MobiDBLite consensus disorder prediction 78 210 - -
Seca11g00275 3200 MobiDBLite consensus disorder prediction 2158 2174 - -
Seca11g00275 3200 MobiDBLite consensus disorder prediction 2243 2260 - -
Seca11g00275 3200 MobiDBLite consensus disorder prediction 1785 1804 - -
Seca11g00275 3200 MobiDBLite consensus disorder prediction 1657 1679 - -
Seca11g00275 3200 MobiDBLite consensus disorder prediction 2671 2686 - -
Seca11g00275 3200 MobiDBLite consensus disorder prediction 2137 2157 - -
Seca11g00275 3200 CDD SF2_C_SNF 1320 1452 - -
Seca11g00275 3200 FunFam Chromatin structure-remodeling complex protein SYD 1250 1472 - -
Seca11g00275 3200 MobiDBLite consensus disorder prediction 1696 1720 - -
Seca11g00275 3200 MobiDBLite consensus disorder prediction 1979 1999 - -
Seca11g00275 3200 MobiDBLite consensus disorder prediction 2490 2592 - -
Seca11g00275 3200 PANTHER SNF2/RAD54 HELICASE FAMILY 721 1739 - -
Seca11g00275 3200 MobiDBLite consensus disorder prediction 2512 2544 - -
Seca11g00275 3200 SMART ultradead3 1005 1199 IPR014001 -
Seca11g00275 3200 MobiDBLite consensus disorder prediction 194 208 - -
Seca11g00275 3200 ProSiteProfiles HSA domain profile. 827 901 IPR014012 -
Seca11g00275 3200 ProSiteProfiles Superfamilies 1 and 2 helicase C-terminal domain profile. 1332 1478 IPR001650 -
Seca11g00275 3200 MobiDBLite consensus disorder prediction 954 976 - -
Seca11g00275 3200 SUPERFAMILY P-loop containing nucleoside triphosphate hydrolases 986 1240 IPR027417 -
Seca11g00275 3200 SUPERFAMILY P-loop containing nucleoside triphosphate hydrolases 1242 1531 IPR027417 -
Seca11g00275 3200 MobiDBLite consensus disorder prediction 436 511 - -
Seca11g00275 3200 MobiDBLite consensus disorder prediction 437 451 - -
Seca11g00275 3200 MobiDBLite consensus disorder prediction 1657 1677 - -
Seca11g00275 3200 MobiDBLite consensus disorder prediction 542 564 - -
Seca11g00275 3200 FunFam Chromatin structure-remodeling complex protein SYD 1000 1249 - -
Seca11g00275 3200 MobiDBLite consensus disorder prediction 2671 2698 - -
Seca11g00275 3200 Gene3D - 1000 1249 IPR038718 -
Seca11g00275 3200 Pfam Helicase conserved C-terminal domain 1329 1442 IPR001650 -
Seca11g00275 3200 MobiDBLite consensus disorder prediction 540 567 - -
Seca11g00275 3200 Pfam SNF2-related domain 1013 1303 IPR000330 GO:0005524|GO:0140658
Seca11g00275 3200 MobiDBLite consensus disorder prediction 1979 2008 - -
Seca11g00275 3200 Coils Coil 822 842 - -
Seca11g00275 3200 Pfam Snf2-ATP coupling, chromatin remodelling complex 1537 1634 IPR029295 GO:0042393
Seca11g00275 3200 SMART SnAC_2 1535 1634 IPR029295 GO:0042393
Seca11g00275 3200 MobiDBLite consensus disorder prediction 1911 1928 - -
Seca11g00275 3200 MobiDBLite consensus disorder prediction 363 399 - -
Seca11g00275 3200 MobiDBLite consensus disorder prediction 2137 2210 - -
Seca11g00275 3200 CDD DEXHc_SMARCA2_SMARCA4 1006 1242 - -
Seca11g00275 3200 MobiDBLite consensus disorder prediction 2421 2452 - -
Seca11g00275 3200 MobiDBLite consensus disorder prediction 130 163 - -
Seca11g00275 3200 MobiDBLite consensus disorder prediction 164 193 - -
Seca11g00275 3200 MobiDBLite consensus disorder prediction 453 491 - -
       

Duplication type information


Select Gene Chromosome Start End Duplicated_type
Seca11g00275 Seca-Chr11 2739312 2761087 Dispersed/Wgd
       

Functional genes information


Select Gene Gene_start Gene_end Function Ath_gene Identity(%) E-value Score
Seca11g00275 1329 1478 RAD5 or RAD16-like Gene Family AT5G22750 34.667 1.00e-19 95.5
       

Transcription factors information


Select Regulatory Factors Family Gene Hmm_acc Hmm_name E_value Clan
TR SNF2 Seca11g00275 SNF2_N 5.4e-69 CL0023
       

Pathway information


Select Query KO Definition Second KO KEGG Genes ID GHOSTX Score
Seca11g00275 - - gmx:100815262 4177.09