Gene search

Sequence information

Select Gene Cds Cds_length GC_content Pep Pep_length
Gso18g1959 ATGCAATCTGGCGGAGGTGCCGGTGGTGGGCCCGGCCGGAAACCGGCGGGGCGGGCGCCATCGACGTCATCAGCGGCTGCATCGCCGTCTTCTTCGTCATCCGCGGCCTCACATTTGGAGTCATTGCAGCAGCAGCAGCAACAACAACAACAACAGCAGCAGATAGGTTCTAGGCAGTCATTTCAACAGCAACTGCTTAGAAAACCTGAAGGGAGTGAAGCATTTTTGGCATATCAAGCTGGTCTTCAAGGAGTATTTGGGAGTAACAATTTCCCATCTAGTTCCATGCAGTTACCTCAGCAATCTCGAAAATTTGTTGATTTAGCTCAGCATGGCTCCAACCAGGTTCAAGGTGTTGAGCAGCAAATGCTAAATCCTGTACAAGCAGCATACTTTCAGTATGCTCTGCAGGCTTCGCAACAAAAGTCTGCTTTGGCAATGCAGTCACAGCAGCAACCTAAAGTGGGAATGCTGGGCCCTTCATCTGTAAAGGATCAGGAAATGAGAATGGGAAATTTGAAAATGCAGGATCTTATGTCCATGCAGGCAGTGAATCAGGTCCAAGCATCATCATCTAGAAATTCATCTGAACATTTTACTTGGGGGGAAAAGCGGGTAGAGCAAGGGCAGCAGCTAGCACCTGATCAGAAGAGTGAAGGAAATTCTTCAAGCCAGGGACCAGCTGTTGGAAACTTAATGCCTGGAAATATTATAAGACCTGTGCAAGCTCTGGCAACTCAGCAGAGCATCCCGAACACTATGAACAACCAGATTGCAATGGCTGCTCAGTTGCGGGCTATGCAAGCATGGGCACATGAACGAAATATTGATCTGTCACATCCTGCAAATGCTAACTTAATGGCTCAGCTCATTCCACTGATGCAATCAAGGATAGTTCAACAACCAAAGGCAAACGATACTAACTTAGGTGCAATGTCATCACCTGTCCCTGTTTCAAACCAACAGGTTACTTCTCCGGCAGTCGCAAGTGAGAGTTCAGCACATGCTAATTCATCTAGTGATGTGTCTGCACAATCTGGTTCTGCAAAAGCCAGGCAGACGGCTCCACCCAGCCATTTGAGTCCACCAATTAGTGCTGGTATAGCCAGTAGCTCTAGTGACATGGCAGCACAGCAATTCAGTCTTCATGGCAGAGACGCTCAAGGATCTTTGAAGCAATCAGTTCTAACCATAAATGGAATGCCTTCTGTGCATCCACAGCAGTCCTCTGCAAACATGAACTTAGGTGCAGATCATCCTCTGAATGTAAAAACTTCATCATCTGGTTCAGAACCAGCGAAAATGCAGTACATCAGACAACTAAGCCAATCTACTTCTCAGGCTGGAGGTCTGACAAATGAAGGTGGATCAGGAAATCACCCCAAAACTCAGGGGGGACCATCTCAGATGCCTCAACAACGAAATGGTTTTACCAAACAACAGCTTCATGTTCTTAAGGCACAAATACTAGCATTTAGGCGTCTGAAGAAAGCAGAAGGTGCACTCCCCCAAGAACTTCTTCGGGCCATCATTCCACCACCTCTTGATTTGCAAGTGCAGCAGCCAATTCATTCTGAAGGAGCACAAAATCAGGAGAAATCTGCTGGAAATATTGTGGCAGAACACCCGAGGCAGAATGAGGTCAATGCCAAAGATTCACAGCCTATCTCATCCATTAATGGAAAGAACTCTTCAAAACAGGAAGTCTTTGTCAGAGATGAGAACTCCACTGTAACGGCAGTTCAGGTGCAAGGCACACCTCGTGTGACAAAGGAATCTGCTGGAAAGGAAGAGCAGCAGTCTGTTGCATGCTCTGCTAAGTCAGATCAGGAAAGTGAACATGGAATTGGCAGAACTCCTGTTAGAAATGAGTTAGTATTAGATAAGGGAAAAGCTGTTGCTGCTCCCCAGGCTTCAGTAAATGACGCAATGCAACTCAATAAACCTGCACAAGCAAGTGCTGTTTCCCAGACAAAGGATGTGGGATCCACCAGAAAATATCATGGACCCCTATTTGATTTTCCTTTCTTCACCAGAAAACATGATTCGTTTGGGTCATCAATGATGATCAACAACAATAATTTGTCATTGGCATATGATGTGAAAGAGCTTCTTTTTGAGGAAGGCATAGAGGTCCTTGGCAAGAGAAGGACAGAGAGTTTAAAGAAGATTGAAGGTTTATTGGCGGTAAACTTGGAGAGGAAAAGAATTAGGCCAGATCTTGTGTTGAGGTTGCAAATTGAAGAGAAAAAACTTCGCCTTTTAGATCTTCAGGCACGTTTAAGGGATGAGATTGATCAACAGCAACAAGAGATAATGGCAATGCCAGATAGGCCATACCGCAAGTTTGTTAGGTTATGTGAACGTCAGCGTATGGAACTTGCTAGACAAGTGCAGGCATCTCAGAGAGCTTTAAGGGAGAAGCAACTGAAATCTATATTTCAATGGCGCAAGAAGCTTCTTGAAACACACTGGGCCATTCGTGATGCCCGTACTGCTCGCAACAGGGGGGTGGCCAAATATCATGAAAGGATGTTGAGAGAGTTCTCAAAACGTAAGGATGATGACCGAAATAAAAGGATGGAAGCCTTAAAAAATAATGATGTTGACAGATATAGGGAGATGTTGCTGGAGCAGCAGACTAGCATCCAAGGTGATGCTGCAGAGAGATATGCTGTTCTTTCAACTTTCTTAACCCAGACTGAAGAGTATCTCCATAAATTAGGAAGTAAGATAACTGCTGCTAAGAATCAACAGGAAGTGGAAGAGGCAGCAAAAGCTGCTGCAGCTGCTGCACGATTGCAGGGTCTTTCTGAAGAAGAAGTCAGAGCGGCAGCAGCCTGTGCTGGAGAGGAAGTGATGATTAGAAATCGTTTTATGGAGATGAATGCTCCTAAAGACAATTCATCTGTCAGCAAGTATTACAGCCTTGCTCATGCTGTGAGTGAGAAGGTTGTATGCCAACCATCAATGTTACGGGCAGGAACACTAAGAGACTATCAACTTGTTGGTTTGCAATGGATGCTTTCCTTGTATAACAACAAATTAAATGGAATTTTGGCAGATGAGATGGGTCTTGGCAAAACTGTACAGGTTATGGCATTAATTGCATACTTGATGGAGTTTAAAGGAAACTATGGCCCACATCTTATAATAGTCCCAAATGCTGTTATGGTTAACTGGAAGAGTGAGTTGTATACTTGGCTACCGTCTGTGTCATGCATTTTTTATGCTGGAGGGAAGGATTACCGATCAAAATTATATTCACAAGAGATTATGGCTATGAAATTTAATGTCCTGGTGACTACTTATGAGTTCATCATGTATGACCGGGCAAGGCTTTCAAAAATTGATTGGAAGTATATCATAATTGATGAAGCACAGAGAATGAAGGATAGAGATTCAGTTCTAGCTCGTGATCTTGATAGATATCGTTGTCAAAGGCGCCTGCTTCTGACAGGAACACCTTTGCAGAATGATTTGAAGGAACTGTGGTCGCTTTTAAATTTACTTCTTCCAGAGGTTTTTGACAATAAGAAAGCCTTTAACGATTGGTTTTCAAAGCCATTTCAAAAGGAAGGTCCCACTCAAAATACAGAGGATGATTGGCTTGAGACTGAGAAAAAAGTTATCATTATCCACCGTCTTCATCAGATTCTTGAGCCTTTCATGCTCAGGCGTCGTGTTGAAGATGTTGAGGGTTCACTACCACCAAAGGTCTCTATAGTTTTACGATGTAAGATGTCAGCTGTCCAGAGTGCCATTTATGACTGGGTCAAATCAACTGGTACCCTTCGTCTTGATCCTGAGGGTGAGAACAGTAAGATTCAAAAGAATCCTCATTACCAGGCAAAAGAGTACAAGACTTTAAATAACAGATGTATGGAGCTACGTAAAACTTGCAATCATCCATCTCTGAATTACCCATTACTTGGTGAATTATCTACAAATTCAATTGTAAAATCTTGTGGGAAATTGTGGATCCTGGATAGGATCCTTATAAAGCTTCAAAGAACTGGTCATCGGGTTTTGCTGTTTAGTACCATGACAAAACTTCTAGACCTCTTGGAAGACTACCTGAATTGGCGAAGACTTGTGTACAGAAGAATTGATGGGACAACTAATTTGGATGACCGTGAATCGGCCATAATGGACTTTAATAGCCCTGATTCCGACTGTTTCATCTTCTTGCTTAGTATTCGAGCTGCCGGGAGAGGCCTTAACCTTCAGTCTGCTGACACAGTTGTCATTTATGATCCTGACCCAAACCCTAAAAATGAGGAGCAGGCTGTGGCCAGAGCTCATCGTATTGGACAGAAAAGAGAAGTCAGAGTTATCTACATGGAAGCTGTTGTTGACAAAATCTCTAGCCATCAGAAGGAAGATGAATTGAGAAGTGGAGGCACTGTTGATATGGAGGATGAACTTGTGGGTAAGGATCGCTATATAGGATCCATTGAGAGCCTCATAAGGAACAATATTCAACAATATAAGATAGATATGGCCGATGAGGTTATCAATGCTGGACGTTTCGATCAAAGGACAACACATGAAGAGAGGCGTTTGACCTTAGAGACATTGTTACATGATGAAGAACGGTATCAAGAAAATGTCCATGATGTTCCTTCTCTTCAGGAGGTAAATCGCATGATTGCTAGGAGTGAAGAGGAAGTTGAATTGTTTGATCAAATGGATGAAGAACTGGATTGGCCTGAGGACGTGATGCAACATGATGAGGTTCCTGAGTGGCTCCGAGCCAATACAAGAGAAGTGAATGCTGCTATTGCTGCTTTATCTAAAAGACCATCAAAGAACACTTTATTGGGTGGTAGTATTGGCATGGAATCCAGTGAGGTGGGTTCTGAAAGGAGAAGGGGACGGCCCAAGGGAAAAAAGCATCCTAATTATAAAGAGTTGGAAGATGAAAATGGAGAGTATTCTGAAGCAAATTCTGAAGACAGAAATGAAGATTCTGCACAAGAAGGGGAAAATGGAGAGTTTGAAGATGATGGGTATAGTGGGGCTGATGGAAATCGATTGGAAGAGGATGGTCTAACTTCTGATGCTGGATATGAAATTGCCCTTTCTTCAGAAAATGCTAGAAATAATCATGTGGTTGAAGAAGCTGGTTCCTCAGGATCATCCTCCGACAGTCAAAGATTGACAAAGACAGTTTCACCATCAGTTTCTTCCAAAAAATTTGGCTCCCTCTCTGCATTGGATGCCAGGCCAGGCTCCATTTCGAAAATTATGGGAGATGAGTTAGAGGAAGGGGAAATTGTAGTATCTGGTGATTCTCACATGGATCATCAACAGTCAGGTAGTTGGATTCATGATCGTGATGAAGGTGAAGATGAACAAGTTTTGCAGAAACCAAAGATTAAGCGTAAGCGTAGTCTTCGTGTTCGTCCCCGCCATGCCATGGAAAGGCCCGAGGACAAGTCTGGCAGTGAGATGATTTCTCTTCAACGTGGAGAATCATCTGTTTTGGCAGATTATAAATATCAAATTCAAAAAAGGATTGATCCAGAATCAAAATCTTTTGGAGACTCCAATGCCAGCAAGCATGATAAGAATGAAGCATCACTAAAAAATAAGCAAAAGTTACCTTCAAGGAAAATAGCTAATTCATCCAAATTGCATGGATCACCTAAGTCTAATCGTTTGAATTGCACATCTGCTCCTTCAGAGGATGGCAATGAACACCCCACAGAAAGTTGGGAGGGGAAGCATCTCAATCCAAATGGATCTTCAGCTCATGGGACTAAGACAACCGAAATCATCCAGAGAGGATGCAAAAATGTAATTAGCAAGCTCCAAAGGAGAATAGACAAGGAAGGCCATCAAATTGTACCTTTGCTAACAGATTTGTGGAAGAGGATGGAGAATTCTGGGCATGCAGGTGGATCTGGGAACAATCTGTTGGATTTACGGAAGATTGACCAGCGGATTGATAGAATGGATTATAGCGGAGTAATGGAGCTTGTGTTTGATGTACAGTTCATGTTGAGGGGTGCAATGCATTTCTATGGATACTCATATGAGGTAAGAACTGAAGGAAGGAAGGTCCATGATCTCTTCTTTGATATTTTGAAAATTGCGTTTCCGGATACAGACTTTGGAGAAGCAAGAGGTGCACTATCTTTCTCCAGCCAAGCTCCTGCCGGTACTGCAGCATCCCCAAGGCAAGGGACAGTTGGCCCTAGCAAAAGGCACAGAATGACCAATGATGCGGAAACTGATCCATGCCCTTCACAAAAGCTGTCACAAAGCGGATCAACTTCTAATGGCGAAAATGCCAGGTTCAAAGGTCATTTGCCACAGAAGAACTCAAGAACCGGAAGCAGCAGTGCACGTGAACAACCTCAGCAGGATAACCCTCCACTGCTTGCTCATCCAGGTCAATTGGTTGTGTGCAAGAAGAAAAGAAATGACAGGGACAAATCATTGGGGAAGGGTAGGACTGGATCAACTGGTCCTATTTCTCCACCTAGTGCTATAAGAAGTCCAGGGTCAGGTTCAACCCCAAAGGATGCTAGACTGGCTCAACAGGGAAGGGGTAGCCAGCCATCTCAACACTCAAATGGGTCTGGTGGGTCAGTTGGTTGGGCAAACCCTGTAAAGCGTTTGAGAACAGATTCTGGTAAGAGGAGACCAAGCCATATGTAG 6669 0.4366 MQSGGGAGGGPGRKPAGRAPSTSSAAASPSSSSSAASHLESLQQQQQQQQQQQQIGSRQSFQQQLLRKPEGSEAFLAYQAGLQGVFGSNNFPSSSMQLPQQSRKFVDLAQHGSNQVQGVEQQMLNPVQAAYFQYALQASQQKSALAMQSQQQPKVGMLGPSSVKDQEMRMGNLKMQDLMSMQAVNQVQASSSRNSSEHFTWGEKRVEQGQQLAPDQKSEGNSSSQGPAVGNLMPGNIIRPVQALATQQSIPNTMNNQIAMAAQLRAMQAWAHERNIDLSHPANANLMAQLIPLMQSRIVQQPKANDTNLGAMSSPVPVSNQQVTSPAVASESSAHANSSSDVSAQSGSAKARQTAPPSHLSPPISAGIASSSSDMAAQQFSLHGRDAQGSLKQSVLTINGMPSVHPQQSSANMNLGADHPLNVKTSSSGSEPAKMQYIRQLSQSTSQAGGLTNEGGSGNHPKTQGGPSQMPQQRNGFTKQQLHVLKAQILAFRRLKKAEGALPQELLRAIIPPPLDLQVQQPIHSEGAQNQEKSAGNIVAEHPRQNEVNAKDSQPISSINGKNSSKQEVFVRDENSTVTAVQVQGTPRVTKESAGKEEQQSVACSAKSDQESEHGIGRTPVRNELVLDKGKAVAAPQASVNDAMQLNKPAQASAVSQTKDVGSTRKYHGPLFDFPFFTRKHDSFGSSMMINNNNLSLAYDVKELLFEEGIEVLGKRRTESLKKIEGLLAVNLERKRIRPDLVLRLQIEEKKLRLLDLQARLRDEIDQQQQEIMAMPDRPYRKFVRLCERQRMELARQVQASQRALREKQLKSIFQWRKKLLETHWAIRDARTARNRGVAKYHERMLREFSKRKDDDRNKRMEALKNNDVDRYREMLLEQQTSIQGDAAERYAVLSTFLTQTEEYLHKLGSKITAAKNQQEVEEAAKAAAAAARLQGLSEEEVRAAAACAGEEVMIRNRFMEMNAPKDNSSVSKYYSLAHAVSEKVVCQPSMLRAGTLRDYQLVGLQWMLSLYNNKLNGILADEMGLGKTVQVMALIAYLMEFKGNYGPHLIIVPNAVMVNWKSELYTWLPSVSCIFYAGGKDYRSKLYSQEIMAMKFNVLVTTYEFIMYDRARLSKIDWKYIIIDEAQRMKDRDSVLARDLDRYRCQRRLLLTGTPLQNDLKELWSLLNLLLPEVFDNKKAFNDWFSKPFQKEGPTQNTEDDWLETEKKVIIIHRLHQILEPFMLRRRVEDVEGSLPPKVSIVLRCKMSAVQSAIYDWVKSTGTLRLDPEGENSKIQKNPHYQAKEYKTLNNRCMELRKTCNHPSLNYPLLGELSTNSIVKSCGKLWILDRILIKLQRTGHRVLLFSTMTKLLDLLEDYLNWRRLVYRRIDGTTNLDDRESAIMDFNSPDSDCFIFLLSIRAAGRGLNLQSADTVVIYDPDPNPKNEEQAVARAHRIGQKREVRVIYMEAVVDKISSHQKEDELRSGGTVDMEDELVGKDRYIGSIESLIRNNIQQYKIDMADEVINAGRFDQRTTHEERRLTLETLLHDEERYQENVHDVPSLQEVNRMIARSEEEVELFDQMDEELDWPEDVMQHDEVPEWLRANTREVNAAIAALSKRPSKNTLLGGSIGMESSEVGSERRRGRPKGKKHPNYKELEDENGEYSEANSEDRNEDSAQEGENGEFEDDGYSGADGNRLEEDGLTSDAGYEIALSSENARNNHVVEEAGSSGSSSDSQRLTKTVSPSVSSKKFGSLSALDARPGSISKIMGDELEEGEIVVSGDSHMDHQQSGSWIHDRDEGEDEQVLQKPKIKRKRSLRVRPRHAMERPEDKSGSEMISLQRGESSVLADYKYQIQKRIDPESKSFGDSNASKHDKNEASLKNKQKLPSRKIANSSKLHGSPKSNRLNCTSAPSEDGNEHPTESWEGKHLNPNGSSAHGTKTTEIIQRGCKNVISKLQRRIDKEGHQIVPLLTDLWKRMENSGHAGGSGNNLLDLRKIDQRIDRMDYSGVMELVFDVQFMLRGAMHFYGYSYEVRTEGRKVHDLFFDILKIAFPDTDFGEARGALSFSSQAPAGTAASPRQGTVGPSKRHRMTNDAETDPCPSQKLSQSGSTSNGENARFKGHLPQKNSRTGSSSAREQPQQDNPPLLAHPGQLVVCKKKRNDRDKSLGKGRTGSTGPISPPSAIRSPGSGSTPKDARLAQQGRGSQPSQHSNGSGGSVGWANPVKRLRTDSGKRRPSHM* 2223
       

Annotation information

Select Seq ID Length Analysis Description Start End IPR GO
Gso18g1959 2222 PANTHER ATP-DEPENDENT HELICASE BRM 35 2149 IPR031056 GO:0006338|GO:0006355|GO:0008094|GO:0040029
Gso18g1959 2222 SUPERFAMILY Bromodomain 1975 2034 IPR036427 GO:0005515
Gso18g1959 2222 SMART ultradead3 993 1182 IPR014001 -
Gso18g1959 2222 Coils Coil 1544 1564 - -
Gso18g1959 2222 MobiDBLite consensus disorder prediction 186 234 - -
Gso18g1959 2222 PANTHER SNF2/RAD54 HELICASE FAMILY 35 2149 - -
Gso18g1959 2222 SUPERFAMILY P-loop containing nucleoside triphosphate hydrolases 1231 1568 IPR027417 -
Gso18g1959 2222 Coils Coil 791 811 - -
Gso18g1959 2222 SMART bromo_6 1921 2036 IPR001487 GO:0005515
Gso18g1959 2222 Coils Coil 1636 1656 - -
Gso18g1959 2222 MobiDBLite consensus disorder prediction 1604 1683 - -
Gso18g1959 2222 Pfam QLQ 477 510 IPR014978 GO:0005524|GO:0005634|GO:0006355
Gso18g1959 2222 ProSiteProfiles Superfamilies 1 and 2 helicase C-terminal domain profile. 1328 1505 IPR001650 -
Gso18g1959 2222 MobiDBLite consensus disorder prediction 1805 1819 - -
Gso18g1959 2222 MobiDBLite consensus disorder prediction 549 589 - -
Gso18g1959 2222 CDD SF2_C_SNF 1323 1448 - -
Gso18g1959 2222 Pfam Helicase conserved C-terminal domain 1327 1438 IPR001650 -
Gso18g1959 2222 MobiDBLite consensus disorder prediction 1842 1867 - -
Gso18g1959 2222 MobiDBLite consensus disorder prediction 1 66 - -
Gso18g1959 2222 MobiDBLite consensus disorder prediction 1772 1793 - -
Gso18g1959 2222 Gene3D - 1237 1447 IPR027417 -
Gso18g1959 2222 MobiDBLite consensus disorder prediction 1698 1823 - -
Gso18g1959 2222 ProSiteProfiles Superfamilies 1 and 2 helicase ATP-binding type-1 domain profile. 1009 1174 IPR014001 -
Gso18g1959 2222 SMART helicmild6 1354 1438 IPR001650 -
Gso18g1959 2222 MobiDBLite consensus disorder prediction 1750 1764 - -
Gso18g1959 2222 SUPERFAMILY P-loop containing nucleoside triphosphate hydrolases 982 1227 IPR027417 -
Gso18g1959 2222 MobiDBLite consensus disorder prediction 2051 2222 - -
Gso18g1959 2222 Gene3D - 799 872 - -
Gso18g1959 2222 Coils Coil 747 771 - -
Gso18g1959 2222 SMART QLQ_2 475 512 IPR014978 GO:0005524|GO:0005634|GO:0006355
Gso18g1959 2222 MobiDBLite consensus disorder prediction 2079 2124 - -
Gso18g1959 2222 MobiDBLite consensus disorder prediction 1869 1900 - -
Gso18g1959 2222 MobiDBLite consensus disorder prediction 211 230 - -
Gso18g1959 2222 MobiDBLite consensus disorder prediction 1910 1924 - -
Gso18g1959 2222 MobiDBLite consensus disorder prediction 2138 2152 - -
Gso18g1959 2222 MobiDBLite consensus disorder prediction 545 623 - -
Gso18g1959 2222 MobiDBLite consensus disorder prediction 21 66 - -
Gso18g1959 2222 Pfam SNF2-related domain 1000 1306 IPR000330 GO:0005524|GO:0140658
Gso18g1959 2222 Gene3D - 988 1236 IPR038718 -
Gso18g1959 2222 MobiDBLite consensus disorder prediction 306 378 - -
Gso18g1959 2222 MobiDBLite consensus disorder prediction 401 474 - -
Gso18g1959 2222 MobiDBLite consensus disorder prediction 1633 1661 - -
Gso18g1959 2222 MobiDBLite consensus disorder prediction 1698 1735 - -
Gso18g1959 2222 MobiDBLite consensus disorder prediction 1842 1924 - -
Gso18g1959 2222 ProSiteProfiles QLQ domain profile. 476 512 IPR014978 GO:0005524|GO:0005634|GO:0006355
Gso18g1959 2222 MobiDBLite consensus disorder prediction 2155 2201 - -
       

Duplication type information

Select Gene Chromosome Start End Duplicated_type
Gso18g1959 Gso-Chr18 52092175 52103248 Dispersed/Wgd
       

Functional genes information

Select Gene Gene_start Gene_end Function Ath_gene Identity(%) E-value Score
Gso18g1959 1018 1479 RAD5 or RAD16-like Gene Family AT1G02670 25.783 8.04e-28 120
       

Transcription factors information

Select Regulatory Factors Family Gene Hmm_acc Hmm_name E_value Clan
TR SNF2 Gso18g1959 SNF2_N 2.2e-65 CL0023
       

Pathway information

Select Query KO Definition Second KO KEGG Genes ID GHOSTX Score
Gso18g1959 - - gmx:100811608 4163.22
       

Event-related genes

Select Gene_1 Chr_1 Start_1 End_1 Gene_2 Chr_2 Start_2 End_2 Event_name
Gso18g1959 18 52092175 52103248 Gso9g2127 9 45552571 45564180 GST
Gso18g1959 18 52092175 52103248 Gso7g0604 7 6408237 6420932 PCT
Gso18g1959 18 52092175 52103248 Gso16g0288 16 3266810 3279068 PCT
Gso7g0604 7 6408237 6420932 Gso18g1959 18 52092175 52103248 PCT
Gso16g0288 16 3266810 3279068 Gso18g1959 18 52092175 52103248 PCT