Gene search

Sequence information

Select Gene Cds Cds_length GC_content Pep Pep_length
Lele42g1250 ATGGCTGCTCTTAGGACCTTCCTCAAGAAAAGGCCTTCCCTTTCTGCTCACTCCGATTGCTCTGTTTTCAGTAGACTCTTCTCCACCGAACCCATCATTGATTCTCCTTCTCTTGCCCAGAAGATCAGAGATTTGCCCAAGGATCTTCCTTCCACCAACATCAAGAAAACTGTTTCCCAAGTGATATCCATTCTTCTATCTCCCTCTTTTTCTGCAATTCCCTGCAAATTTCTGATTGGAAGAACACCACTTGTTTATCTTAAAAAAGTCACTGAAGGATGTGGAGCTTATATTGCTGTAAAGCAAGAGATGATGCAGCCAACTTCTAGTATCAAAGACAGACCTGCAATGGCTATGATCAATGATGCAGAAAAAAAGAATCTGATATATCCTGGGAAGACAACTCTGATAGAACCAACATCAGGCAATATGGGGATAAGTATGGCATTTATGGCAGCCATGAAAGGCTATAAGATGGTGCTTACCATGCCTTCTTACACTAGCTTGGAAAGAAGGGTGACCATGAGAGCATTTGGAGCTGAGTTGATCCTCACTGATCCAACCAAGGGAATGGGAGGAACGGTTAAGAAGGCATATGAACTTCTTGAATCCACATCAAATGCTTTCATGCTCCAACAATTCTCAAACCCAGCTAATACTCGGGTGCATTTTGAAACAACTGGACCAGAGATTTGGGAGGACACAAATGGACAAGTAGACATATTTGTTATGGGAATAGGTAGTGGAGGAACAGTTTCTGGAGTTGGACAATATCTTAAATCTAAAAATCCCAATGTTAAGATATATGGAGTGGAGCCTGCTGAGAGTAATGTTCTGAATGGTGGTAAACCTGGTCCTCATCATATTACTGGCAATGGGGTTGGTTTCAAACCTGACATATTGGACATGGATGTAATGGAGAAAGTTCTTGAAGTTCGCAGTGATGATGCAGTTAACATGGCCAGACAGTTGGCCTTGAAGGAAGGACTCTTGGTAGGGATATCATCTGGAGCTAATACAGTTGCAGCACTGAGATTGGCAAGGATGCCAGAGAACAAGGGAAAAATGATTGTGAAGTCGTTAGCTATTCATAATGCAGATTGCTATATTCTTGTCTCTCCTTTTTCATTTTCACTGGCAAATGTTCTTGGGACTTGTCCCCTTGAATTCTGGGCTAATTGCATGCAATCTACTGGTCCTGGTGGACCCGGCCGGAGCCCAGGAGTGGGGCCGGCAGGGCGCGCCGCATCGTCAGCTGCCTCCCAATCCTCTTCATCTTCGGCAGTGTCAACGTCGCACTTGGGGTTACACACGTTGCAGCAGCAGCAACACCCGCAGATTGGTTCTAGGCAGTCATTGCAACAGCAACTGCATAGAAAACCTGAAGGGAATGAAACATTTTTAGCATATCAAGCAGGGCTTCAAGGGGTGTATGGTACTAACAATTTCTCATCTCCCAGTCCTGTACAACTGCCCCAGCAATCACGGAAATCAATTGATTTTTCTCAGCATGGTTCTAGTCAGGAGGCCCAGATCAGGGGTCAAGGCATGGAGCAACAAATGCCTAATCCTGTCCATCAAGCATACCTTCAATATGCTCTGCAAGCTGCCCAACAGAAGTCTGCTTTGGCAATTCAATCTCAACAGCAAACGAAAATGGGAATGTTAGGCCCTTCAACTGTAAAGGATCAAGAAATGCATATGGGAAACTTGAAAATGCAGGAATTAATTCCCTTGCACACAGTTAATCAAACACAATGTTCAACTCCTAGTCAATGTTCAACTCCTAGGAATTCATCTGAACAATTCTCTCGTGGGGAAAAGCAGATGGATCAAGGACAGCACCAAGCAATGGATCACAAGAGTGAGGGGAAGTCTTCAACCCAGGGACCGGCCATTGGGCACATAATGCCTGGAAATATGATAAGACCCATGCAAGCACCAACAACTCCTCAAGGCATCCAAAATGTTGTGAACAACCAGATGGCAGTATCTGCTCAACTGCATGCTATGGAGGCATGGGCACATGAACGTAACATTGATCTATCACATCCTGCAAATGCTAACTTAGTGGCACAACTCATTCCTATGATGCAGTCAAAGATGGTTTCACAACAAAAGCCAACTGAGAATAACGTTGCTCCTCAGTCATCAGCCATCCCTGTTTCAAAACAGCAAGTTACTTCTCCAATGGAGAACCAAGCACATGCTAATTCATCAAGCGACTTGTCTGGGCAGTCTGGATGTGCAAAAACCAGGCAGACAGTTCCCCCCAGCCATTTCATTCCACCAACAAATGCTGGTACAGCCCGTAGTGGCAGTGACGTGGCGGTGCAACAAATTAACATTCATGGCAGAGAGTCTCAAGCATCTCTGAGGCAACCTGTTGCTGTTGGAAATGGATTACCTCCTATGTGTCCCCAACCGGTTTCTGTTAACATGAATCATGTTACAGATCATCCTTTGAATGCCAAAAGTCTACTACCAGGACCAGATTCACCACAAGTTCAACACATGAGGCAGTTAAACCCCTCTTCTGCTCTGACTGCTGGTTCCACAAATGAAGGGGCTTCAGGAAATAATGTCAAACTCCTTGGAGCACCAACTCAGATACCTCAGCAACGTCCTGGATTTACCAAACAGCAGTTGCATGTACTTAAAGCACAGATATTAGCATTCAGGAGGCTGAAGAAAGGAGAAGGTGCACTCCCGCAAGAACTTCTTCAGGCTATTGCTCCACCACCTCTTGATTTGCAACTGCAGCAGACAAGCCATCCTGTTGGAGGACAGAGTATAGAGAAATCTGCTGGCAATACCGTGGCAGAACACCCAAAGCACATTGAGTCCAAAACAAAGGATATTCAATCTGTCCTTGCAATAAATGAACAGAGTTCCTCAAAGCAGGAAGCCTCTTCGAGAGATGAGAAATCCACTGCTCCAACAGTTAATATGCAACCTGTGCCGGGTGTGGCGAAGGAAGTTTCTCCTGTTGGAAAAGAAGAGCAGCAATCAATGAAGTCAGACCAGGAGTATGATCGTGGCATTAACAGAACTCCTGTTAGAACTGAGTTGCCTTTAGATAGGGGAAAGGCTATCGTACCACATGACACAGTTCAACTTATGAAACCTGCACAAACTAGCTCTGTTATCCAATCGAAGGACGTGGCAACCACAAGAAAATATCATGGACCTCTTTTTGATTTCCCTTTTTTCACTAGGAAACCTGACTCATTTGGGTCATCTATGGTGGTGAACAACAATAATTTGTCTTTGGCATATGATGTCAAAGATCTTCTTTATGAGGAAGGCATGGAAGTACTTACGAAGAGAAGGGTAGAAAATTTAAAAAAGATTGAAGGTTTATTGGCAGTGAACTTGGAGAGAAAAAGAATTAGGCCAGATCTTGTTTTGAGGCTGCAAATTGAAGAGAAAAAGCTTCGTCTTTTAGATCTTCAGGCACGACTGAGGGATGGGATTGATCAGCAGCAACAAGAGATAATGGCGATGCCAGATAGGCCATATCGTAAGTTTGTTAGACTGTGTGAGCGTCAGCGTATTGAACTTGCTAGACAAGTGCAAGCCTCTCAGAGAGCTTTACGGGAGAAACAACTCAAATCTATATTTCAGTGGCGAAAGAAGCTTCTTGAGGCACATTGGGCTGTTCGTGATGCTCGAATTGCCCGCAACAGGGGTGTGGGCAAATATCATGAGAGAATGTTGAGGGAGTTCTCGAAGCGTAAAGATGATGATAGGAACAAAAGGATGGAAGCCTTGAAAAATAATGATGTTGACAGATACAGGGAGATGTTGCTAGAGCAGCAGACTAGCATCCCCGGTGATGCTGCAGAGAGATATGCTGTGCTTTCAACCTTCTTAACACAGACTGAGGATTATCTACAAAAATTGGGAAGTAAAATAACAACTGCCAAAAATCAGCAGGAAGTGGAGGAGGTGGCAAGAGCCGCTGCAGCTGCAGCGCGATTGCAGGGTCTCTCTGAAGAAGAAGTCAGAGCAGCTGCCACTTGTGCTGGGGAGGAAGTGATGATTAGAAATCGTTTTACGGAGATGAATGCTCCTAAAGACAGTTCATCTGTCAGCAAGTATTACAGCCTTGCTCATGCTGTGAATGAAAAGGTCATAAGGCAGCCATCTATGTTACGAGCTGGAACCTTAAGAGACTATCAGCTTGTTGGCTTGCAGTGGATGCTTTCATTGTATAACAACAAGTTAAATGGAATTTTGGCAGATGAGATGGGTCTTGGTAAAACTGTGCAGGTTATGGCCTTGATTGCCTACTTGATGGAATTTAAAGGAAATTATGGCCCACATCTTATAATTGTTCCAAATGCAGTTCTGGTTAACTGGAAGAGTGAGTTGTATAATTGGTTACCCTCTGTATCATGCATTTTTTATGTTGGAGGGAAGGACCAACGGTCAAAACTATTTTCTCAAGAGGTTTCTGCCTTGAAATTTAATGTCCTTGTGACAACTTATGAGTTCATCATGTATGACCGGTCCAAATTGTCAAAAATTGATTGGAAGTATATCATAATTGATGAAGCACAAAGAATGAAGGATAGGGATTCAGTTCTAGCTCGTGATCTTGATAGATACCGTTGTCAGAGACGTCTTCTGCTGACTGGAACACCATTGCAGAATGACCTGAAGGAGCTCTGGTCACTCTTAAATTTACTTCTTCCGGAGGTTTTTGATAATCGAAAAGCATTTCATGATTGGTTTTCAAAACCTTTTCAAAAGGAAGATCCTACTCAAATTGTAGAGGATGATTGGCTTGAGACAGAAAAGAAAGTTATCATCATTCATAGACTCCATCAGATTCTTGAGCCTTTCATGCTTAGGCGTCGTGTTGAAGATGTTGAAGGCTCACTACCACCAAAGGTCTCCATAGTTTTACGATGTAAAATGTCAGCTATTCAGAGTGCCATTTATGACTGGATCAAATTCACTGGTACCCTTCGGCTTGATCCTGAGGATGAGAAGCGTAGAGTTCAAAAGAATCCACTTTACCAGGCGAAGCAGTATAAAACTTTGAATAATAGGTGCATGGAGCTGCGTAAGACCTGCAATCATCCGTTGCTTAATTACCCATACTTCCATGACTTATCCAAAGAGTTCCTTCTGAGATCTTGTGGGAAATTGTGGATCCTTGATAGGATCCTTATTAAACTGCAACGAACTGGACATCGAGTTCTGCTGTTTAGTACTATGACAAAACTTCTAGACATTATAGAAGAATACCTGCAATGGCGACGACTTGTTTACAGAAGAATTGATGGGACAACTAGTTTGGAAGACCGTGAAGCAGCTATAGTGGACTTTAATAGCCCAGATTCAGACTCTTTCATCTTCTTGCTTAGTATTAGAGCTGCTGGGAGAGGCCTTAACCTTCAGTCAGCAGACACAGTCATCATATATGATCCTGATCCAAACCCAAAAAATGAGGAGCAGGCAGTTGCAAGAGCTCATCGCATTGGACAGACTAGAGAAGTCAGGGTTATCTACATGGAAGCTGTTGTTGACCAAATTCCTAGCCATCAAAAAGAGGATGAACATAGAAGTGGGGGAACTGTCAATTTGGAGGATGAACTTGCAGGTAAGGATCGTTATATGGGATCCATTGAGAGCCTCATTAGGAACAATATTCAACAATACAAGATTGATATGGCCGATGAGGTCATCAATGCGGGACGTTTTGATCAAAGAACAACACATGAAGAGAGACGTATGACTTTGGAGACATTATTACATGATGAAGAAAGGTATCAAGAAACTGTCCACGATGTTCCCTCACTACAGGAGGTGAATCGCATGATTGCCAGGAGTGAAGAAGAACTCGAGCTGTTTGATCAAATGGATGAAGAACTGGATTGGACTGAGGAGATGACTTGGTATGATCAGGTGCCTAATTGGCTTAGAGCCAGTACAAGAGAAGTCAATGCCACTATTGCTGTGTTATCAAAAAGACCTTCAAAGAACACTTTCTTGGGTGGTGGAATCGCTGTGGAATCCGGTGAAATGGGTTCTGATGCATCTGCAAAAACTGAAAGGAGAAGAGGACGACCCAAGGGGGAAAAACATCCTAGTTATAAAGAGTTAGAAGATGAAAATGGAGAATCCTCTGGAGCAAGTTCTGAAGAAAGAAATGGATATTCTGCAAATGAAGAAGGGGAAATAGGAGAATTTGAAGATGATGAGTATAGTGGTGCTGATGGAGCTCAACCAAATAATAAAGATCAAATGGATGATGGTCCACCTTGTGATGCAGGATATGAATTTCCTCGTTCCACAGAAAGCATGCGAAGCAGTCATATGGTTGAAGAAGCTGCTTCCTCAGGATCGTCTTCAGACAGTCAAAGATTGACAGAGACTATTTTTCCTTCAGTTTCCTCTCAGAAATTTGGTTCCCTCTCTGCATTAGATTCTAGGCCAAGTTCCATTTCCAAAAGGATGACAGATGACTTAGAGGAAGGGGAAATTGCAGGATCTGGTGATTCTCACATGGATCACCAGCAATCTGGCAGTTGGATTCATGATCGTGATGAAGGAGAAGATGAACAAGTTTTGCAAGCCAAATTTAAACGTAAGCGCAGTCGCCGTGTCCGACCCCGTCATGCTACAGATAGGTTTGAGGAAAAGTCTAGCAGTGAGATGGCATCTCTTCAACGTGGAGAATCAGCTCATTTGACAGTCCAAGCAGAACATAAATATCATGCGCAATCACAGGCTGACCCAGATGTAAAATCACGTGGAGAATTTAATGCTGCCAGGCATGATCAGAATGAGTTAAAAAATAAGCGAAGTTTGCCTTCAAAGAGAGTAACTAATAAATTGCATGGTTCACCTAAATCTGGTAGATTGAATTGTATTTCTGGCCCTTCAGAGGATGGTGGTGAACAACTCAGAGAAAAGTGGGAGGGTAAGCCTATCAATTCAAGGGGGTCTTCAGCAATTGGTGCTAGAATGTCTGAAATAGTCCAGAGAAAGTGCAAGAATGTAATTAGCAAGTTTCAAAGGAGAATAGATAAGGAAGGTCCTCAAATTGTACCTTTGCTTACTGACTTGTGGAAGAAGAATTCTGGACATGCTTGTGGATGTGGGAATAATTGGTTGGACATACAGAAGATTGATCAGCGAATTGATAGGTTTGAATATAATGGAGTATTGGAGCTTGTGTGTGATGTGCAGTTCATGTTGAAGTGTGCAATGGATTTTTACGGATTCTCACATGAGGTAAGATCTGAAGCAAGGAAGGTCCATGGTCTCTTCTTTGATATCTTAAAAGTTGCATTTCCTGATACGGACTTCCAAGGGCCAAGAAGTGCACTTTCTTTTGCTGCACCGACTTCTGTCAGTACTCTAACATCCCCAAGGCAGTTGGCTGTTAGCCAAAGCAGAAGACACAAGCTGATAAATCAGGTGGAAAATGATCCAAGCCCTTCACAGAAGCAACTGCATCGGGGTTTTATTCCGAGTGGTGAAAGCACCAGGATCAGAGTGCAACTGCCACCTAAGGATTCAAGAACTGGAACAGCTTCTGGCAGTGTCAGAGAGCAAATTCAGCAGGATGATTCACTGCTACTCACACATCCAGGTGAATTGGTAGTATGTAAGAAGAGAAGAAATGAGAGGGACAAATCCTCAGGGAAGACTAGGGGTGGCTCCACCGGTCCTGTTTCACCGCCTAGCTCTGGTCCTGCTATAAGAAGTCCAGGACCAAGTTCAGGTTCAAAGGATGCTAGACTAGCTCAACAGCCTACTCAAGGGTGGATGCGCCAGCCATCTCAACAAGCAAATGGGTCTGGTGGATCGGCCGGTTGGGCAAATCCTGTGAAGCGGTTGAGGACAGATTCTGGGAAAAGGAGACCAAGCCATCTATAG 7899 0.4355 MAALRTFLKKRPSLSAHSDCSVFSRLFSTEPIIDSPSLAQKIRDLPKDLPSTNIKKTVSQVISILLSPSFSAIPCKFLIGRTPLVYLKKVTEGCGAYIAVKQEMMQPTSSIKDRPAMAMINDAEKKNLIYPGKTTLIEPTSGNMGISMAFMAAMKGYKMVLTMPSYTSLERRVTMRAFGAELILTDPTKGMGGTVKKAYELLESTSNAFMLQQFSNPANTRVHFETTGPEIWEDTNGQVDIFVMGIGSGGTVSGVGQYLKSKNPNVKIYGVEPAESNVLNGGKPGPHHITGNGVGFKPDILDMDVMEKVLEVRSDDAVNMARQLALKEGLLVGISSGANTVAALRLARMPENKGKMIVKSLAIHNADCYILVSPFSFSLANVLGTCPLEFWANCMQSTGPGGPGRSPGVGPAGRAASSAASQSSSSSAVSTSHLGLHTLQQQQHPQIGSRQSLQQQLHRKPEGNETFLAYQAGLQGVYGTNNFSSPSPVQLPQQSRKSIDFSQHGSSQEAQIRGQGMEQQMPNPVHQAYLQYALQAAQQKSALAIQSQQQTKMGMLGPSTVKDQEMHMGNLKMQELIPLHTVNQTQCSTPSQCSTPRNSSEQFSRGEKQMDQGQHQAMDHKSEGKSSTQGPAIGHIMPGNMIRPMQAPTTPQGIQNVVNNQMAVSAQLHAMEAWAHERNIDLSHPANANLVAQLIPMMQSKMVSQQKPTENNVAPQSSAIPVSKQQVTSPMENQAHANSSSDLSGQSGCAKTRQTVPPSHFIPPTNAGTARSGSDVAVQQINIHGRESQASLRQPVAVGNGLPPMCPQPVSVNMNHVTDHPLNAKSLLPGPDSPQVQHMRQLNPSSALTAGSTNEGASGNNVKLLGAPTQIPQQRPGFTKQQLHVLKAQILAFRRLKKGEGALPQELLQAIAPPPLDLQLQQTSHPVGGQSIEKSAGNTVAEHPKHIESKTKDIQSVLAINEQSSSKQEASSRDEKSTAPTVNMQPVPGVAKEVSPVGKEEQQSMKSDQEYDRGINRTPVRTELPLDRGKAIVPHDTVQLMKPAQTSSVIQSKDVATTRKYHGPLFDFPFFTRKPDSFGSSMVVNNNNLSLAYDVKDLLYEEGMEVLTKRRVENLKKIEGLLAVNLERKRIRPDLVLRLQIEEKKLRLLDLQARLRDGIDQQQQEIMAMPDRPYRKFVRLCERQRIELARQVQASQRALREKQLKSIFQWRKKLLEAHWAVRDARIARNRGVGKYHERMLREFSKRKDDDRNKRMEALKNNDVDRYREMLLEQQTSIPGDAAERYAVLSTFLTQTEDYLQKLGSKITTAKNQQEVEEVARAAAAAARLQGLSEEEVRAAATCAGEEVMIRNRFTEMNAPKDSSSVSKYYSLAHAVNEKVIRQPSMLRAGTLRDYQLVGLQWMLSLYNNKLNGILADEMGLGKTVQVMALIAYLMEFKGNYGPHLIIVPNAVLVNWKSELYNWLPSVSCIFYVGGKDQRSKLFSQEVSALKFNVLVTTYEFIMYDRSKLSKIDWKYIIIDEAQRMKDRDSVLARDLDRYRCQRRLLLTGTPLQNDLKELWSLLNLLLPEVFDNRKAFHDWFSKPFQKEDPTQIVEDDWLETEKKVIIIHRLHQILEPFMLRRRVEDVEGSLPPKVSIVLRCKMSAIQSAIYDWIKFTGTLRLDPEDEKRRVQKNPLYQAKQYKTLNNRCMELRKTCNHPLLNYPYFHDLSKEFLLRSCGKLWILDRILIKLQRTGHRVLLFSTMTKLLDIIEEYLQWRRLVYRRIDGTTSLEDREAAIVDFNSPDSDSFIFLLSIRAAGRGLNLQSADTVIIYDPDPNPKNEEQAVARAHRIGQTREVRVIYMEAVVDQIPSHQKEDEHRSGGTVNLEDELAGKDRYMGSIESLIRNNIQQYKIDMADEVINAGRFDQRTTHEERRMTLETLLHDEERYQETVHDVPSLQEVNRMIARSEEELELFDQMDEELDWTEEMTWYDQVPNWLRASTREVNATIAVLSKRPSKNTFLGGGIAVESGEMGSDASAKTERRRGRPKGEKHPSYKELEDENGESSGASSEERNGYSANEEGEIGEFEDDEYSGADGAQPNNKDQMDDGPPCDAGYEFPRSTESMRSSHMVEEAASSGSSSDSQRLTETIFPSVSSQKFGSLSALDSRPSSISKRMTDDLEEGEIAGSGDSHMDHQQSGSWIHDRDEGEDEQVLQAKFKRKRSRRVRPRHATDRFEEKSSSEMASLQRGESAHLTVQAEHKYHAQSQADPDVKSRGEFNAARHDQNELKNKRSLPSKRVTNKLHGSPKSGRLNCISGPSEDGGEQLREKWEGKPINSRGSSAIGARMSEIVQRKCKNVISKFQRRIDKEGPQIVPLLTDLWKKNSGHACGCGNNWLDIQKIDQRIDRFEYNGVLELVCDVQFMLKCAMDFYGFSHEVRSEARKVHGLFFDILKVAFPDTDFQGPRSALSFAAPTSVSTLTSPRQLAVSQSRRHKLINQVENDPSPSQKQLHRGFIPSGESTRIRVQLPPKDSRTGTASGSVREQIQQDDSLLLTHPGELVVCKKRRNERDKSSGKTRGGSTGPVSPPSSGPAIRSPGPSSGSKDARLAQQPTQGWMRQPSQQANGSGGSAGWANPVKRLRTDSGKRRPSHL 2632
       

Annotation information

Select Seq ID Length Analysis Description Start End IPR GO
Lele42g1250 2632 MobiDBLite consensus disorder prediction 2153 2170 - -
Lele42g1250 2632 MobiDBLite consensus disorder prediction 399 460 - -
Lele42g1250 2632 MobiDBLite consensus disorder prediction 2262 2319 - -
Lele42g1250 2632 MobiDBLite consensus disorder prediction 2478 2632 - -
Lele42g1250 2632 MobiDBLite consensus disorder prediction 481 518 - -
Lele42g1250 2632 MobiDBLite consensus disorder prediction 2178 2198 - -
Lele42g1250 2632 ProSitePatterns Cysteine synthase/cystathionine beta-synthase P-phosphate attachment site. 101 119 IPR001216 GO:0006535
Lele42g1250 2632 SMART helicmild6 1748 1832 IPR001650 -
Lele42g1250 2632 TIGRFAM cysKM: cysteine synthase 78 361 IPR005856 GO:0004124|GO:0006535
Lele42g1250 2632 Gene3D - 78 358 IPR036052 -
Lele42g1250 2632 ProSiteProfiles Superfamilies 1 and 2 helicase ATP-binding type-1 domain profile. 1403 1568 IPR014001 -
Lele42g1250 2632 ProSiteProfiles Superfamilies 1 and 2 helicase C-terminal domain profile. 1722 1899 IPR001650 -
Lele42g1250 2632 TIGRFAM cysK: cysteine synthase A 78 362 IPR005859 GO:0004124|GO:0006535
Lele42g1250 2632 MobiDBLite consensus disorder prediction 2102 2152 - -
Lele42g1250 2632 CDD Bromodomain 2378 2433 - -
Lele42g1250 2632 SMART ultradead3 1387 1576 IPR014001 -
Lele42g1250 2632 MobiDBLite consensus disorder prediction 2016 2048 - -
Lele42g1250 2632 SMART QLQ_2 876 913 IPR014978 GO:0005524|GO:0005634|GO:0006355
Lele42g1250 2632 SUPERFAMILY P-loop containing nucleoside triphosphate hydrolases 1625 1963 IPR027417 -
Lele42g1250 2632 MobiDBLite consensus disorder prediction 1003 1017 - -
Lele42g1250 2632 SUPERFAMILY Tryptophan synthase beta subunit-like PLP-dependent enzymes 78 359 IPR036052 -
Lele42g1250 2632 SUPERFAMILY P-loop containing nucleoside triphosphate hydrolases 1372 1621 IPR027417 -
Lele42g1250 2632 MobiDBLite consensus disorder prediction 703 774 - -
Lele42g1250 2632 Pfam Pyridoxal-phosphate dependent enzyme 78 355 IPR001926 -
Lele42g1250 2632 MobiDBLite consensus disorder prediction 927 1023 - -
Lele42g1250 2632 MobiDBLite consensus disorder prediction 586 611 - -
Lele42g1250 2632 CDD SF2_C_SNF 1717 1842 - -
Lele42g1250 2632 MobiDBLite consensus disorder prediction 1998 2233 - -
Lele42g1250 2632 Gene3D - 1193 1266 - -
Lele42g1250 2632 MobiDBLite consensus disorder prediction 416 460 - -
Lele42g1250 2632 FunFam Brahma1 2327 2448 - -
Lele42g1250 2632 Gene3D - 1631 1840 IPR027417 -
Lele42g1250 2632 MobiDBLite consensus disorder prediction 2210 2224 - -
Lele42g1250 2632 Pfam Helicase conserved C-terminal domain 1721 1832 IPR001650 -
Lele42g1250 2632 Gene3D - 1382 1630 IPR038718 -
Lele42g1250 2632 SMART bromo_6 2329 2438 IPR001487 GO:0005515
Lele42g1250 2632 Pfam QLQ 878 911 IPR014978 GO:0005524|GO:0005634|GO:0006355
Lele42g1250 2632 MobiDBLite consensus disorder prediction 2540 2556 - -
Lele42g1250 2632 PANTHER SNF2/RAD54 HELICASE FAMILY 1107 2060 - -
Lele42g1250 2632 MobiDBLite consensus disorder prediction 2478 2495 - -
Lele42g1250 2632 Gene3D - 113 215 IPR036052 -
Lele42g1250 2632 MobiDBLite consensus disorder prediction 2583 2610 - -
Lele42g1250 2632 MobiDBLite consensus disorder prediction 2512 2532 - -
Lele42g1250 2632 FunFam Cysteine synthase 184 370 - -
Lele42g1250 2632 Pfam SNF2-related domain 1394 1698 IPR000330 GO:0005524|GO:0140658
Lele42g1250 2632 FunFam ATP-dependent helicase BRM 1382 1630 - -
Lele42g1250 2632 SUPERFAMILY Bromodomain 2378 2439 IPR036427 GO:0005515
Lele42g1250 2632 ProSiteProfiles QLQ domain profile. 877 913 IPR014978 GO:0005524|GO:0005634|GO:0006355
Lele42g1250 2632 MobiDBLite consensus disorder prediction 586 630 - -
Lele42g1250 2632 Coils Coil 1938 1958 - -
Lele42g1250 2632 FunFam ATP-dependent helicase BRM 1631 1841 - -
Lele42g1250 2632 CDD CBS_like 80 358 - -
       

Duplication type information

Select Gene Chromosome Start End Duplicated_type
Lele42g1250 Lele-ChrLele42 24559647 24576476 Dispersed/Wgd
       

Functional genes information

Select Gene Gene_start Gene_end Function Ath_gene Identity(%) E-value Score
Lele42g1250 1 334 Miscellaneous Gene Families AT3G61440 71.257 4.56e-149 464
       

Transcription factors information

Select Regulatory Factors Family Gene Hmm_acc Hmm_name E_value Clan
TR SNF2 Lele42g1250 SNF2_N 1.1e-64 CL0023
       

Event-related genes

Select Gene_1 Chr_1 Start_1 End_1 Gene_2 Chr_2 Start_2 End_2 Event_name
Lele42g1250 42 24559647 24576476 Lele43g0100 43 1125593 1128878 hybridization
Lele42g1250 42 24559647 24576476 Lele44g0106 44 623359 626662 hybridization