Gene search


Sequence information


Select Gene Cds Cds_length GC_content Pep Pep_length
Gso15g2181 ATGCCTCTCTTCCTCTCCGACGAGGAGTTCGCGCGGTGCTCCGGCGACGGCGCCGCCGTGGCCGCGAAGGCCGACGCCTTCATCCGCGGCCTCCTCCACGAGCTCGACACCGTCCGCGCCAAGGCCGACGCAGCCGACATTAACGCCGAGCAGAACTGCTCCCTCATCGAGCAGAAGTACCTCTCCCTCACCGCCGAGTTCTCCAAACTCGAGTCGAACGTCGCCGAACTTCAATCCTCTCTCGATCAGCGCCTCCGCGAAATCGCCGAGGTGCAATCGCAGAACCATCGAATCCAATTGCAATTGGTCGAGAAAGATAGGGAGATAGAGCGGTTGAGGACGGAGGTTGCGGAGTTGCACAAGTCGAAGAGGCAGTTGCTTGAGTTGAACGAGCAGAAGGATTTGGAGCTAAGTGAGAAGAATGCAACCATGAAGAGTTATCTTGATAAGATTGTTCGTTTAAGTGAAAATGCTGCTCATAAGGAGGCGCGGTTGAGTGAAGTTGAGGCAGAAATGGCACGGTGCCGGGCTGCTTGCACTCGCTTTGAACAGGAGAAGGAGATTGTTGAGAGGCAGAATTCTTGGCTCAACGAGGAGTTGAATGCTAAAGTTAACATTGTTTTTGAGCTGCGCAGAAAGCACACAGAATATGAAGCTGATATGACTTCCAAGCTTGCAGATATGCAGAGACAGTTTGGTGAAAGCTCTAAATCTCTACAGTGGAATAAGGATAGAGTGAGGGAACTTGAAATGAAGCTTAAATCTGTGCAGGAGGAATTAATTTCTGCTAAAGATGTTGCTGCAGCCAACGAAGAACAATTATCTGCTGAACTCTCCACTGTTAATAAGCTTAATGAGCTATATAAAGAGAGTTCCGAGGAATGGTCAAAAAAAGCTGCAGACCTAGAGGGCGTGATAAAAGCAATGGAGTCACACCAAAAGCAAGTTGAAGATGATTATAAAGAGAAACTTGAGAAGGAATTATCTGCCAGAAAACAGGTTGAAAAGGAGGCCACTGATTTAAAAGAAAGGCTTGAGAAGTGTGAAGCTGAAATTGAGACAAGGAAGAAGACTGATGGAGTGAATAATCTTCCCCTTAGCAGTTTTGCTACTGAATCGTGGATGGAATCAATTGAAGCCGATAGCATGGTTGAGGAAAATAGCTTGCTAGTCCCAAGAATTCCTGTTGGAGTTTCTGGAACTGCATTGGCTGCTTCACTTCTGCGAGATGGGTGGAGTTTGGCCAAAATGTATGCAAAATACCAAGAGGTGGTTGATGCATTGAGGCACGAACAATTGGGAAGGAAGGAGTCAGAAGCAGTACTGCAACGGGTTCTATATGAGTTAGAGCAGAAAGCAGAAGCAATTTTAGATGAAAGAGTGGAACATGACAAGATGGCTGATGCATACTCCTTGATGAACCAAAAATTGCAAAACTCCCTGAATGAAAATTCCAACTTAGAGAAAACCATCCAGGAACTAAAGGCTGATCTGAAAAGGCGTGAACGGGATTATAATCTTGTCCTGAAAGAAACTGATGACCTTCAAAAACAGGTTACAGTACTTCTGAAGGAATGCCGAGACATACAACTTCGTTGTGGCTCAATGGGGTATGATATTGTTGATGATGCTTCAAATATTGCTTCAAGGACAAGTAGAGAGACTGAAGCTGAAGATGTCATATCAGAGCACCTTTTGACCTTCAAGGACATTAACGGACTAGTTGAGCAGAATGTTCAACTTAGAAGCCTTGTACGTAGTATTTCTGGCCATATTGAAAATCAGGAAGTGGAGTTCAAGGAGAAGCTTGAAATGGAACTCAAAAAACATACTGAAGAATCTGCTTCTAAAGTTGCAGCTGTTCTGCAGAGAGCAGAAGAGCAAGGTCACATGATTGAAGCGCTTCATGCATCTGTTGCGATGTATAAGAGGTTGTATGAGGAGGAGCATAATCTTCATTTATCTCATACCCATTCCTCAGAAGCTCTTGCAGCTGTTGCGGCAGTTGGAAGAAACAACATTAAGACTTCAATTGAAAGTTCACAGGAGGCTGCTAAGAAGTCCCTGGAAAAAGCTGCTGAGCGTGTGAGATGCCTTGAGGATGATTTAGCAAAGTCTAGGAGTGAGATTATTGTATTACGATCAGAACGTGACAAGAGTGCACTTGAAGCAAATTTTGCTAGAGAGAAACTTAATGACATTATGAAAGAATTTGAACATCAGAAAACTGAAGCAAAAGGCATTTTAGAAAGAAATATTGAGTTTTCTCAGCTGGTTGTTGACTACCAACGAAAATTGCGTGAAAGCACTGAGTCATTGATTGCTGCTGAGGAGCTTTCGCGGAAACTTTCTATGGAGCTGTCAGTTTTAAAGCAAGAAAAGGAAGTCATATCAAATGCTGAAAAAAGGGCATCCGATGAAGTTCACAGTTTGTCTGCAAGGGTGCAGCGTTTGCAGGCTAGTTTGAGTACCATACAGAGTACTGAGGAAGTTCGAGAGGAAGCAAGAGCTGCAGAGAGGGTTAAGCAAGAAGAATATATAAAGAAATTGGAGAGGGAATGGGCTGAGGCCAAGCAAGAGTTAAATGAAGAGCGGGAAAATGTGCGGAGATTCACATCAGATCGGGACCAAACACTAAAAAATTCTTTGAGACAGGTTGAGGATATGAGCAAAGAGTTAGCTAATGCATTGCGTGCAGTTGCATCTGCTGAATCAAGGGCTGCTGTTGCTGAGGCAAAACTCTCTGGTCTTCAAAGAAAGATGGGTTCCACAGATGACAAGCTTGTTGAAATAGGTGGAGTGAGTGGATCTTCCACTTTGTCAAGTGATGAGGTTGTTGCTGAATTGCAAAAGGCAAAAGACGAGATTGAAAAGTGGAAAGAGGAAGCGCATGCCAACAAAGCTCACATGCTGCAGTATAAGAGCATTGCTGAGGTGAATGAAGATGCATTGAAAGAGATAGAAAAGGCGCATGAGAAGTTTAAAACAGAGGCTGACAATGGAAAGAAAGTTTTGGAATCTGAACTTAACTCACTTAGAGAGAAGATGTTAGAGATTGAAAATGAATCTTCTTTGAAATATGAAGAAGTTGCTTCTGAAACTGTTGGAAAGGAAGAGGCTCTTACATCTGCTATGGCTGAAATCACAAATCTTAAAGAAGAAATTTTAACCAAATCTTCTCAAATTTCAGCAATGGAAATTCAGATCTCAGGTTTAAAAGAAAACCTGGACAGGGAGCATCAGAAATGGCGGGCAACTCAAACCAATTATGAAAGACAGGTTGTTCTCCAGTCCGAAACTATTCAGGAGTTGACAAAAACATCTGAAGCACTAGCCTTGCTGCAGGAGGAGGCATCTGAATTACGGAAACTAGCCAATACTCAGAAAATTGAAAATAATGAACTAAAGACTAAGTGGGAAGATGAGAAGGCACAACTAGAAAAGTCTAGGAATGATGCTGAGAAGAAATACAATGAAATCAATGAACAGAATAAAATACTACATAGCCAACTTGAGGCTTTTCATATTCAATGGGCCGAGAAGGAGCGTAATGCTGCTGGTATTTCATCTGGAAGTAGTAGTGCAGATGCCTTTGGTGATGCTGGTCTTCAAAACGTGATTAATTATCTCAGACGTTCCAAAGAAATTGCAGAAACAGAAGTTTCGTTGTTAAAACAAGAGAAGCTGCGATTACAGTCACAGCTTGAGACTGCTTTGAAGGCAGCAGAGTCTGCACATGCATCACTAGAAACTGAGCGTGCAAAATCAAGATCATTTTTGTTTACCGAAGAAGAGTTCAAAGCATTGCAGCTTCAGGTCAGAGAAATGAACTTACTTCGTGAGAGTAACATGCAGCTCAGGGAAGAAAATAAACACAATTTTGAGGAATGTCAGAAATTGCGTGAACTGGCACAAAAGGTTAGAGCTGAGACAGAGAACCTAGAGAATCTCCTGAAGGAAAGAGAAATTAAGCTTGATGGCCATACGAAAGAAATTGAAACCCTAAAAATGGAAAAAGATCATCTCAATAAGAAGGTTACTGAGCTGCTTGAAAGGAGTAAAAATGTTGATGTTGAGGATTATGATCGAGTGAAGAAACTTGCTAAAGAGATCCAGGATAAACTAAGAGAGAGGGATGCTCGGATTGAGGAAATTGGTAAAAGTCTATCAGAAAAGCAGGATTCTGTTTCATCCCTAGAGAAAGATCTTTCAAACTGCCGATTGGAGCTTGCAGAGAGAGAGAAGAGAATTAATGACATTCTGCATAATGAGGCTAACCTAAAACTTGATTCAGAGAAGCATAGGAAACTGCTGGCTCAGTTTAAGAAGAGGATTGATGTTTTGTCAAGGGAAAAAGAAGACCTAGGAAAAGAGAACCAGCAACTTTCTAGGCAATTAGATGAAATTAAACAAGGGAAAAGGTCAACAAGTGATACAACTGGTGAACAAGCGATGAAGGAGGAAAAGGACACAAGAATACAGATTCTGGAGAAACATCTGGAGAGACTGAGAGATGAATTAAAGAAGGAGAAGGAAGAGAGTCGTTTAGAGAAAAGTAGACGACTGAAGACTGAAAAGGCCATAAAGGACTCTTACAACAATGTTGAACAGGAGAAAATAAAATTGATTAATGAAATTGAGAGGTACAAGGAGTCTCTGAAAAGGTTATCTGATGAAGTTGAAAAGCTTAAGATTGTTATTGGAAATCTTCCTGAGGGTTCAAATGTGGTTCAACTTCTTTCTGGATCCAATGTTGATGACTTTGCTGCTCCTTACATATCTGCTGTGGAAAGTTTTGAAAAGGAAGCTCAGTCAGTATTTCGTGAGCTTGGAGGTCGCGGTAATCTTGGAGATGCAGCAACAGTTACGGATGGTTCAGCAGCTGCTACAGGTTCTCTTGTCCATCCTCAACCCCAAGGCATTACATTTTCAGCGGCCCCTGGAGCTAGTGGTTTACCACCTAAAGCCAGTGGAGAAAGTGAGAAAAGACTTGCATTACCCAAAGCTAGTGTTGAAACTCGTCGAGCAGGTAGGAGATTGGTCAGGCCTAAACTACTAAGACCTGAGGAGCTACAAGGTGGTGACACGGAAATGTCTGATGCCGAAGGACCAGGGGGCAAGCCTGGGCCATCTAGTGACACTGAAACTAGTAGTGTTGTTCAATCATCTCAACAATTGGCTCGTAAGCGTGTTGCTCCTACCTCCACTTCTGAATTACGTGAAGAATCAGTTGCACCTGGTGAGAAGAGCTCCGATGTCTTGAAGAAGTCTAAAGGATCTGAGTCCCCAGAAGAGAATACAGAAGAACAACCTGCTGCGACTCTGGAATTTACTGGCAGTCACCCTGTCACTGAAGAATTATTGGATAGTAGTGACATGCCCCAAGGCCAAAATGAGGAGGTTGGTGACGCTCAAAATGAAGATGGTGAAATTGCTGTTGGGAATGATGAGGAATCCAAAGATCCACAGAACTTGGATGTTACTGGTCAAGAGGAATTACAAGGTGACAAAACTGGAACTTTAGAAGAGAATCCGGATCAACCTGTTGATGCAAAAATGCTGTCTGATGAGATGCAGAGGGATCAGACAGACCCAGACAACCAGCAGTCAACATTGGCGCCCAGTGGTGAGAGAGAAGAGGGAGAATTGTTGCCAGATATCGGTGATCTAGAGGGTGCTAGTGATTTGTCTAACATTGCCGAAAACCAAGAATCTCGGGAAGGTCTATCTGAGTCTGCTGCAACCCCTGAACGTTCTCCGGCTACGGTTGATGATGATGCTCTAGAGGCCGGTGAGATTAATTCTCCTGAGCTTTCAAGTGATGATAAGAATGATGAGGGTGACTCGGTAGAGGATGCTGCTGATGCTTCCGACAAGTTGATGGACGTCAATGAACAAATATCAGCCGAGAGCGATCAGGTGGCCGAGCCTACACCTGTGGCAAGTGAGGGTGCTACTTTGACAAGCAGTGTTGTAGAGAGTAGCTCCTCTAAAGTGAACTTACCTGTTCCAAGGCAAGGGACCCCCAATGCCCCTGCTGAAACAGAAGAGACAAAGCAGGCATCACCTATTGGTAGTACTTCAACGACTATAATTTTATCAGAGCGAGCACGGGAAAGGGCCCAAATGAGACAGGCTGGGTTGGTTTCTTCTACCCTTAGAGGTCGTGGAAGAGGCGGTGCTCCCCGTGGTCGAGTTGGTCGAGTTAGGGGAGTAGTACGCCGACCACCTCCACCACCTGGCAGTGATCAATGA 6255 0.4365 MPLFLSDEEFARCSGDGAAVAAKADAFIRGLLHELDTVRAKADAADINAEQNCSLIEQKYLSLTAEFSKLESNVAELQSSLDQRLREIAEVQSQNHRIQLQLVEKDREIERLRTEVAELHKSKRQLLELNEQKDLELSEKNATMKSYLDKIVRLSENAAHKEARLSEVEAEMARCRAACTRFEQEKEIVERQNSWLNEELNAKVNIVFELRRKHTEYEADMTSKLADMQRQFGESSKSLQWNKDRVRELEMKLKSVQEELISAKDVAAANEEQLSAELSTVNKLNELYKESSEEWSKKAADLEGVIKAMESHQKQVEDDYKEKLEKELSARKQVEKEATDLKERLEKCEAEIETRKKTDGVNNLPLSSFATESWMESIEADSMVEENSLLVPRIPVGVSGTALAASLLRDGWSLAKMYAKYQEVVDALRHEQLGRKESEAVLQRVLYELEQKAEAILDERVEHDKMADAYSLMNQKLQNSLNENSNLEKTIQELKADLKRRERDYNLVLKETDDLQKQVTVLLKECRDIQLRCGSMGYDIVDDASNIASRTSRETEAEDVISEHLLTFKDINGLVEQNVQLRSLVRSISGHIENQEVEFKEKLEMELKKHTEESASKVAAVLQRAEEQGHMIEALHASVAMYKRLYEEEHNLHLSHTHSSEALAAVAAVGRNNIKTSIESSQEAAKKSLEKAAERVRCLEDDLAKSRSEIIVLRSERDKSALEANFAREKLNDIMKEFEHQKTEAKGILERNIEFSQLVVDYQRKLRESTESLIAAEELSRKLSMELSVLKQEKEVISNAEKRASDEVHSLSARVQRLQASLSTIQSTEEVREEARAAERVKQEEYIKKLEREWAEAKQELNEERENVRRFTSDRDQTLKNSLRQVEDMSKELANALRAVASAESRAAVAEAKLSGLQRKMGSTDDKLVEIGGVSGSSTLSSDEVVAELQKAKDEIEKWKEEAHANKAHMLQYKSIAEVNEDALKEIEKAHEKFKTEADNGKKVLESELNSLREKMLEIENESSLKYEEVASETVGKEEALTSAMAEITNLKEEILTKSSQISAMEIQISGLKENLDREHQKWRATQTNYERQVVLQSETIQELTKTSEALALLQEEASELRKLANTQKIENNELKTKWEDEKAQLEKSRNDAEKKYNEINEQNKILHSQLEAFHIQWAEKERNAAGISSGSSSADAFGDAGLQNVINYLRRSKEIAETEVSLLKQEKLRLQSQLETALKAAESAHASLETERAKSRSFLFTEEEFKALQLQVREMNLLRESNMQLREENKHNFEECQKLRELAQKVRAETENLENLLKEREIKLDGHTKEIETLKMEKDHLNKKVTELLERSKNVDVEDYDRVKKLAKEIQDKLRERDARIEEIGKSLSEKQDSVSSLEKDLSNCRLELAEREKRINDILHNEANLKLDSEKHRKLLAQFKKRIDVLSREKEDLGKENQQLSRQLDEIKQGKRSTSDTTGEQAMKEEKDTRIQILEKHLERLRDELKKEKEESRLEKSRRLKTEKAIKDSYNNVEQEKIKLINEIERYKESLKRLSDEVEKLKIVIGNLPEGSNVVQLLSGSNVDDFAAPYISAVESFEKEAQSVFRELGGRGNLGDAATVTDGSAAATGSLVHPQPQGITFSAAPGASGLPPKASGESEKRLALPKASVETRRAGRRLVRPKLLRPEELQGGDTEMSDAEGPGGKPGPSSDTETSSVVQSSQQLARKRVAPTSTSELREESVAPGEKSSDVLKKSKGSESPEENTEEQPAATLEFTGSHPVTEELLDSSDMPQGQNEEVGDAQNEDGEIAVGNDEESKDPQNLDVTGQEELQGDKTGTLEENPDQPVDAKMLSDEMQRDQTDPDNQQSTLAPSGEREEGELLPDIGDLEGASDLSNIAENQESREGLSESAATPERSPATVDDDALEAGEINSPELSSDDKNDEGDSVEDAADASDKLMDVNEQISAESDQVAEPTPVASEGATLTSSVVESSSSKVNLPVPRQGTPNAPAETEETKQASPIGSTSTTIILSERARERAQMRQAGLVSSTLRGRGRGGAPRGRVGRVRGVVRRPPPPPGSDQ* 2085
       

Annotation information


Select Seq ID Length Analysis Description Start End IPR GO
Gso15g2181 2084 MobiDBLite consensus disorder prediction 1452 1488 - -
Gso15g2181 2084 Pfam TPR/MLP1/MLP2-like protein 1047 1173 IPR012929 GO:0006606
Gso15g2181 2084 Coils Coil 470 511 - -
Gso15g2181 2084 MobiDBLite consensus disorder prediction 1661 1694 - -
Gso15g2181 2084 Coils Coil 1431 1472 - -
Gso15g2181 2084 MobiDBLite consensus disorder prediction 1710 1741 - -
Gso15g2181 2084 Coils Coil 1104 1170 - -
Gso15g2181 2084 Coils Coil 1214 1252 - -
Gso15g2181 2084 Coils Coil 1486 1520 - -
Gso15g2181 2084 Coils Coil 60 132 - -
Gso15g2181 2084 Coils Coil 1269 1289 - -
Gso15g2181 2084 PANTHER NUCLEOPROTEIN TPR-RELATED 1 2059 - -
Gso15g2181 2084 MobiDBLite consensus disorder prediction 1982 2004 - -
Gso15g2181 2084 MobiDBLite consensus disorder prediction 1742 1765 - -
Gso15g2181 2084 Coils Coil 1389 1416 - -
Gso15g2181 2084 Coils Coil 239 273 - -
Gso15g2181 2084 Coils Coil 1532 1566 - -
Gso15g2181 2084 Coils Coil 879 920 - -
Gso15g2181 2084 Coils Coil 840 874 - -
Gso15g2181 2084 Coils Coil 151 199 - -
Gso15g2181 2084 Coils Coil 1297 1352 - -
Gso15g2181 2084 Coils Coil 773 793 - -
Gso15g2181 2084 Coils Coil 973 1022 - -
Gso15g2181 2084 MobiDBLite consensus disorder prediction 2011 2035 - -
Gso15g2181 2084 MobiDBLite consensus disorder prediction 1629 2084 - -
Gso15g2181 2084 Coils Coil 942 969 - -
Gso15g2181 2084 Coils Coil 306 358 - -
Gso15g2181 2084 MobiDBLite consensus disorder prediction 1896 1917 - -
Gso15g2181 2084 Coils Coil 682 709 - -
Gso15g2181 2084 MobiDBLite consensus disorder prediction 1849 1863 - -
Gso15g2181 2084 PANTHER NUCLEOPROTEIN TPR 1 2059 - -
Gso15g2181 2084 Coils Coil 1062 1093 - -
       

Duplication type information


Select Gene Chromosome Start End Duplicated_type
Gso15g2181 Gso-Chr15 50105760 50141632 Dispersed/Wgd
       

Pathway information


Select Query KO Definition Second KO KEGG Genes ID GHOSTX Score
Gso15g2181 K09291 - gmx:100811882 3721.01
       

Event-related genes


Select Gene_1 Chr_1 Start_1 End_1 Gene_2 Chr_2 Start_2 End_2 Event_name
Gso8g1344 8 12741714 12775111 Gso15g2181 15 50105760 50141632 GST