New model in OGS2.0 | DPOGS208619  |
---|---|
Genomic Position | scaffold862:- 33982-39134 |
See gene structure | |
CDS Length | 3321 |
Paired RNAseq reads   | 1081 |
Single RNAseq reads   | 2388 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA005723 (2e-61) |
Best Drosophila hit   | ND |
Best Human hit | ND |
Best NR hit (blastp)   | ND |
Best NR hit (blastx)   | ND |
GeneOntology terms   | ND |
InterPro families    | IPR009057 Homeodomain-like IPR001005 SANT domain, DNA binding |
Orthology group | MCL16541 |
Nucleotide sequence:
ATGGAGCAAATCGTGGTTAAAACTGAGGTGCAACCAAACGGAGACATACTACTATTTTAT
GTTGATGAAAATGAAGAAGCAGATGCTGGGACATTTGACCATGAAAATGGGAATGTCATG
CATATGCTGCCGGAAACAAAATATGTGATAGAAGATAACGGAGAAGGTGAATCTGCCGAT
GAACTGGATATAGCACAAGCCGCTGAAGAAGTTGCCAAAGAAAATTGGCTGAATGAGGAA
ATAAAACGTCTTATTGTTTTTTATATTGATAATAAAGAAACATTTCTTAGTGGGACAACA
AAGAAAAAACATTTGTGGGCTGTAGCTTGCAGAACTATACTCACAGGCAAAAATCCAGTT
TCATGTGAGGTTAAATTACGAATGCTCAAACAACAGTTCATACAACTATGTTTAGAAAAA
CAGAAAGGAAATATTGTCACTTGGCCCTATTACGATCTTTGCCATCAAGCATTCTATGAA
GATAGCTTCGAAACTGTCACAAATGATTCCGAACCAAATAAAGTTGTCATTAACATGCCC
ATGCAGAATGTTGTCAATCAAGATGGTATCTTAGTGGTAAAGAAAATTAATAATGGCCAG
GGTAAAGACGTTGATGAAAAAGTTGAAGCTATGCTCAAACTTTATATAAAGCATAAGAAA
ACATTCAAGAGGAATAATCATATGCCGAGAGGTTTGTGGGAAACCATAGCTTTAGAAATG
GGTGAAGACGACGTTGAATACTGGCACAAAAGGTTTCTGAATTTCAAACAGCATTATGTC
AGAATGCTTTATAAAAAGAAAGAGAGCGGCCCTGAAAATATCCATTGGCCCTATATGAAA
TATTTCGATCACATTTTCTGTGATGATGAGGAGTTTCAGAAGAAATTTCTCCCCAGCAAT
GAAGATGAAGACAGCCAAGACACTGAGCTCCAAGAAGATGTATGGAGTGATACAGAAAAA
ACTTTTCTAGTCAAATATTACTATGATTGCTTCCAAGAATTTCAAGATTCGACCATACCG
AACAAGTTTCTATGGCAGGAAGTCGGCAGGTTACTGGATAGAAAACCGGATGTCTGCAAG
GATAAATACAATGAGCTAAAGAACCAACATTTCAACTTACTCCTAGAGAGAGTCTATGAT
ATGACAAATAGAGTTCCGATGGCCATAATTTTTGACAATATAATCGCAAAGGAGACGTTG
AACGAATTAGATCAGCCAGCGAGAAAGTCGGATTCATCCGACATATGGAAAACTGAGCAA
ATTGACGAATTGGTTGAATATTTGTATGAAAATATAAATATGTTAAAAGATCCCATATGT
TACTACGTCTGTTGGGCCACGATATCTAAGAAAATCGATAGAACGGTACAATCCTGTATG
AGACAGTGGGATTCGTTAAAAACTCTTTATAAAAATATCTTGGAGGATAAGAAGGAAAAT
TCTGACATGCAAATAGATTGGAGATACATAGATCTGTTTGATAGGATATTTGACTATGGC
ATGGATACCAACTTGCTTGACGGCTACGAAAAAACGAAAGAACATAGTAATGACAGTAGT
AACGGAAAAGTTGGGGTTAAAAAGATCACAATTAAAGGAGATTACGAAAATTTTAATGTG
GATGGTACGGACGATGAGGAGTCGTACGACGAGAGAGGTTTCACGAAACGTTCCAAGAAA
AGAAACGGTGACTCGAAAGCGTTCAAGATATTAGAGTACTATTTGAAGAACAAAGACAAA
TTCTCATCGTCCCAACAAAAGAAACTCGCACTATGGGAAATACTGGCGAAACAAATTGGC
CTATCAGCCACAGAATGTGCCCATAGATTTCGTAATTTCAAGCAAGTTTATATAGGTTAC
GTTCAACGAGAAATAAATAAACCGGAAATGCCAATATTATGGCCATATTACACATTATGC
AAGAAAGTTTTCGGATACAGGGCTATAAAGTCCAAGTTAAAGAATGGAAAACTAGAATCT
GAAGACGGGGAAGATTGGTCGGCCAAGGAAATAAAGCAATTGATAAACTATTTCTCAAGA
AACTATCACGATTTGGTTGATAATATCGAAGATAAATCCAGATGGGTCCAAGTAGCACAG
GAAATGGGCAGAACTGAGGGTAGTTGTTGTGATAAGTTTTTAGAATTAAGAAAGTCCTAT
AGGAAATTGAAGACGATGAAGTCCAGGAATCCAGATGTCAAGGTGTCATGGAAGTATTTC
AATATGATAGACGAGATATATCAAAACGGCGCCGAGAATATCGAGGTCTTGGAAGAAATG
GATTTTGATGAATCAAGTGCCTTTGATGTTAAGACGGAAATTCAGGAAGACGATGACTTC
CAATGCATTATAGTTGTACCAGAAGGGGATGACATTAATAACGCCCAGATTATAATACAA
GAAGAGAAAAACTCGACAGAAGACAACACGGAGACAGCGGAAGTTAGGAAGAATATTACA
GTATGGAATAGAAGAAGCAAGAGACGGTTACTGATATTATATCTGAAATACTTAAGATTG
AATAAAGAAACGGAAATCAATGCAAAAGACATGTGGACAGAGATCGCTTCACAGTTAGAA
GCCAAAACACCATCGTCCTGCAAGAAAATGTACATAAAACTGAAGAATCAATACAATATT
GATAAAGAAAAAAACATTATAACACCCTACAATGTCGTAATGGAAAAAATCTTGGCTATA
AAACCTAGGTTTGCTAAAACCAATAAAATTAAATCATTAGATGACATAACTGTTTACAAT
GATGTACCAATGTCTGAAGAGAAGGTCCTCAACGCTTTAAATTACTATATGCAGAATCTA
GAAGACTTTGTGAGTCCCAAATTCGAGAAGAGATATCTATGGATCGAGCTTGCCAAATAT
ATATCTGAGTCGGTGACGAATGTATATAGCAAAATAAATTATATGAAGCAGAATCATGAT
ACTATTGATTCACCATTCCGTGAAGTTGTTCAAGATATCATTGCCAAGGAAAATACATTG
AAGGAAGTTAACAAAGATATGAGTACGGTCAAAGACGATGAACCCGAAGGACAAATCTGG
TCTGATTTGGAGATAGAACGCCTCTTGACCTGGTATCTGGCACATTTGGACAAATTCAAG
AATCCAAAATTCGTCAGAAGCTACCTTTGGATGGAGGCGTCGGATATACTGAAAAAAAGT
CCACTCGTCTGTTCAAAGAAAATGTTAGAAATAAGATCACAATACAGAAGTATGGTTAAG
GAAAATCCAGAAGAATTAAACAATTGGAAATTTTATAATCTATGTCAGAGAATTTACGGA
ACCGGAAAGAAGAGTAATTGA
Protein sequence:
MEQIVVKTEVQPNGDILLFYVDENEEADAGTFDHENGNVMHMLPETKYVIEDNGEGESAD
ELDIAQAAEEVAKENWLNEEIKRLIVFYIDNKETFLSGTTKKKHLWAVACRTILTGKNPV
SCEVKLRMLKQQFIQLCLEKQKGNIVTWPYYDLCHQAFYEDSFETVTNDSEPNKVVINMP
MQNVVNQDGILVVKKINNGQGKDVDEKVEAMLKLYIKHKKTFKRNNHMPRGLWETIALEM
GEDDVEYWHKRFLNFKQHYVRMLYKKKESGPENIHWPYMKYFDHIFCDDEEFQKKFLPSN
EDEDSQDTELQEDVWSDTEKTFLVKYYYDCFQEFQDSTIPNKFLWQEVGRLLDRKPDVCK
DKYNELKNQHFNLLLERVYDMTNRVPMAIIFDNIIAKETLNELDQPARKSDSSDIWKTEQ
IDELVEYLYENINMLKDPICYYVCWATISKKIDRTVQSCMRQWDSLKTLYKNILEDKKEN
SDMQIDWRYIDLFDRIFDYGMDTNLLDGYEKTKEHSNDSSNGKVGVKKITIKGDYENFNV
DGTDDEESYDERGFTKRSKKRNGDSKAFKILEYYLKNKDKFSSSQQKKLALWEILAKQIG
LSATECAHRFRNFKQVYIGYVQREINKPEMPILWPYYTLCKKVFGYRAIKSKLKNGKLES
EDGEDWSAKEIKQLINYFSRNYHDLVDNIEDKSRWVQVAQEMGRTEGSCCDKFLELRKSY
RKLKTMKSRNPDVKVSWKYFNMIDEIYQNGAENIEVLEEMDFDESSAFDVKTEIQEDDDF
QCIIVVPEGDDINNAQIIIQEEKNSTEDNTETAEVRKNITVWNRRSKRRLLILYLKYLRL
NKETEINAKDMWTEIASQLEAKTPSSCKKMYIKLKNQYNIDKEKNIITPYNVVMEKILAI
KPRFAKTNKIKSLDDITVYNDVPMSEEKVLNALNYYMQNLEDFVSPKFEKRYLWIELAKY
ISESVTNVYSKINYMKQNHDTIDSPFREVVQDIIAKENTLKEVNKDMSTVKDDEPEGQIW
SDLEIERLLTWYLAHLDKFKNPKFVRSYLWMEASDILKKSPLVCSKKMLEIRSQYRSMVK
ENPEELNNWKFYNLCQRIYGTGKKSN