| New model in OGS2.0 | DPOGS215277 |
|---|---|
| Genomic Position | scaffold589:- 53013-65519 |
| See gene structure | |
| CDS Length | 6024 |
| Paired RNAseq reads | 5561 |
| Single RNAseq reads | 12856 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA009085 (0.0) |
| Best Drosophila hit | CG6509, isoform A (2e-89) |
| Best Human hit | disks large homolog 5 (1e-72) |
| Best NR hit (blastp) | discs large protein, putative [Pediculus humanus corporis] (0.0) |
| Best NR hit (blastx) | discs large protein, putative [Pediculus humanus corporis] (0.0) |
| GeneOntology terms | GO:0005515 protein binding GO:0019730 antimicrobial humoral response |
| InterPro families | IPR001478 PDZ/DHR/GLGF IPR008144 Guanylate kinase |
| Orthology group | MCL11830 |
Nucleotide sequence:
ATGGCATCTGGCACATCATCTCTAGAGAGTAATGGGAGCAATGAGTCCATATCCCACAGC
TACGTAAGCAATGAAAGACATAACACAACTCAGCTGCCGACAATACCTATACCTATTGAA
TATGAAGTTCTATCATCGTCCCAGTGCTACGACAAGCCCAACTACACCAGCCATACTCAC
ACCATGAGTGCTCCGTATGAGCTGGGGCAGTATGACGTCATCAATAAACAAGCTAATGAG
AATTTGAAGCAGCAGTGCGAGAAGGCCCTGCATGATTTGAACCAGTTACGACGACAGCAC
ACCGAGACATCCCGGCGCTGTGAGCATGTTATGAAAGAGTTGGAATACTTCCGCGGCCAG
CATCGAGCGGCGATGAACCAGCTCGAGGTGTCCGCTCAGGAGGCGAGCAGCCTGCGCGGC
AAGTACGGGGACTTGCTCAATGATAACCAACGACTGGAGCGCGAGGTGCAGGTGCTACAG
GGCGGAGGCGCCGAGGGCGGGGAGGCTCTCGTACACGCGCTCAGAGACTTCGACGCGCTC
AAAGAGGAATTTGAATGTTTTCAGAAGAGATATGATGACCTCATCGAAAACCACAACACA
ACCTTGGAGAAGCTTCAGATTGTTCAGGAAGAGAATAGTAGGCTGAAGACACAATGCCAT
GACCTCACACAGGAGAGGAATTCAGTTATCCGGGAGCGAAACGCCCTGAAGCAGCAGGTC
GCCAGCGTGGTGCGGCAGTGGGAGGGCGGCGTGCGGGAGAGAGCGGACATCAAGCGGCTC
ACGGACGAGAGGAACGCCGCCATGGCCGAGTACACGCTCATCATGAGCGAGAGGGACACG
GTTCATAAGGAAATGGAAAAGCTATCTGATGATCTGCAAGCCGCTTTAAAGCGGGTAGCG
GCGCTGGAGTCAGCGCTTCAAGCGTCCCGCGACGAACAGCGAGCTACCGCACTGCAGGCC
GAGAGTCTCCGTCGTGAGATCGAGTCAGCTCTAGCCGACCGCGACCGCGCCATCAAAGAG
TGCACCGACCTTAAGACACCACAGAACACCAACACTCTGGGGAAGTCGCGGCAAGAGAAC
TCTGTATATCATCACCTGGGACTCTCGACTGGTGTTGGCACCGACGGCTTCTTGAACGGA
CAGCATTCCAATGATCCGTCTATGGATAAGTTGCAAGGTCTCGTGCTGGGTGAAGGCGAC
AAGGCCCAGTCCGACAACCTGGAGCAGGCCAACCAGGAGCTGCAGCGACTCAGGGCTCGC
TCACACCGCCTGCAGGCCGAGCTGGCGGACGCGCTGAGGGAGGCCGACGTGGCTCGCCGG
AGGAGGGACTGGGCCTTCTCCGAGAGGGACAAGCTGCTGCAGGAGAGGGAGAGCGTTAAG
GCTCTGTGCAATAGACTGAGAAAGGAGCGAGATCAGATGGTGGGCGAGCTGGCGGAGGCG
AGGCGACACGGAAACAACAAGAAGGAGACCAAGGACAAGCCGCGAGCCAGGTCACACGAC
GACAAGTGTCGCCTGGCCTGGTACAGGGACTACGGGGACTTGCAGAAGTTGGAGTGGGAG
GAGTTGGAGGTGGAGCTGGAAGGCAGCCCCGAGGCCTTGGGGTTAGAGTTCTGTGGAGGG
AGAGAGGCTGGGACCGACCAGCACGTTTACGTCACGTCCGTGCGGACAGGCTCGCTGGCC
GACGGGAAGATACTTCCTCTAGATCGTATCACGGAGGCTTGCGGGGGGTCGGGCTGGTCC
CGGGGCGGAGTGCTGGCGGGCTGCCTGAGGGCGGCGCTGTCCCGGGGCGGAGCCCTGCTT
AGGCTCCAACGAGCGCGTGCAAGGAGAATTGACATACGACTGGCGCCACGGGACCACGCG
GCGCTCACACTCTCACACGGTATTTTCATCAGCAAAATAAGTCGCGGCAGCGCCGTCTCG
AAGGAGGGAAGTCTCCAGGTCGGAGACAGGGTCGTGAGCATCAATAATCGTTCTCTGGAG
GGCGTCAAGAGTGTGTCGGAAGCGCTATCTCTGTTAGACGACAGCGCGTACGATGGCGCC
ACGCTCACCGTGCTGAGAGCACTGCCGACCTTACAACGGGCTCCCGACTGTGACGGGGAC
TGCAAGGACGAGACCTGCGCCTTCCTGCCGCCGCCCGACACTAAGATCCACACAGAGCAC
GGCGTGCCGGATTTTGATAGACGATACGTGTACCACGTGACCGCCGGCAGCCAGGGGAAG
ATCTCCCAGGACAGGGTAGTGCATCGTGTTGCAGGCGCGTGGGACATGCTGAGGGGGAAG
ATAGAGGCGGTCACCAGCAAGGGGAAAGACAAACAGAAGGTGCCCGAGTCGGACGCCATC
GCCGAACTGGACTCCGTCATAGACAGCTATCACGGGAAGACAATAAAAGAGACGAGCAGC
GTGTTGAAAAGATCACGACGAAAAAATAAAGAAGCACAGAATGATGCTAAGAATGGCGGC
ACGTGGCCTAAGGCGCGGGCGAACTTTGTGCTAGAAGACAGCGCCACGGGGACCATAGTG
CAGCCAAGGTCCAGGAAAGAGAGACCGCCGCTGTCCATCCTGCTCAGTCCTCCGACTAAA
CTGCCGCCCGAACCTCAGAGGTCCAACACGAACCGAAACTCGAACCCCATACCTCTGGGA
CACGTTCCATTGACTCAAGTGACCACGCCCGCACGACATTCGGTTTATAAATCTATAGAA
TCGAGTCCCGCTGTGGAACATTTTCCGAAATCGGCTCCCTTAGCCATACATAACCCCTTC
GCTCCGCCAAACATGAGCTTCGAGAAGAATCGCACTCTGGAAAAGGACAAAATATCTATC
AGTGACTACGAACAGGACGTCACTCCGAACAGATTAAGTCTAGTATTGAACCCGTCAGAA
GACTCTCTCTTCTACCAACCGGGCAGGAACCGCACTAAAAGTCCTCACTCCTTGGACTTC
ATGGTGAACAAGGGTCCTAATTCCCTGGACTTCGTGTCTAGAAAATCACCGAGTTCCCTG
GACCATACAATAAAAAATCATACGGGCAAAGATATACTCGACTCTTACTATTCATCGAAG
AAGTCATCGTCACCGAAGGCGGTGAATAAATATCCATCGGACAGCGACAGCTTCGGGCCC
GACAGCTTGAACAGCAACGGGAATTTCCCGATGACCGGCACGCTGCCCTCACAGTCGCGG
CTACAGTCACAATACTACAGAGGTCCTTTCACAAATTCGAATCCACACTCTTCGAGTCGC
TACACGCATCTGTCGAGTCCAACCAATATTCCCCAAAGTCAATCCGGGGAGAGCATCGGC
ACGAGCTACGACATGCACTCGTTCACATCCCACACGCACAACATGTCTGACCTACATCCA
GTTCCGAGGGTCAACAGGGACTATCATCACACATACGAGGGCGGGACTTTTCCTAGGAAA
AAAGAGAACCAGCGATTCAGAATACCGTCTAACCCGAGTGTGACGTCGAAGAATTCTGCG
GGAAAACTCAGCACGGGCTCCATAGAACGGAGCTCCGAACGAAATTCTCCGATGCCGACT
TTTCATGTTGAAGTTTTAAGTCCGGGACGAGGTGCAAAACAAATGGCTCATAAAAGTACT
AGAAATTCGATGCCGGAATATTGCGGGCTGGGCTGGAACAAGCCGTTGCCGGGAGAGCTG
AGGAGGGTGCACATCGATAAGAGTCAGCAGCCTCTAGGCATTCAGATATACTGTCCGCCG
AGCAGCGGGGGCGTGTTCGTGTCCACCGTCAACGAGAACTCCTTAGCCAGCCAGGTGGGG
TTGCAGGTTGGAGATCAGTTATTGGAAGTGTGCGGCATCAACATGCGCTCAGCGACGTAT
ACTTTAGCAGCGAGCGTATTACGTCAGATAGGAAATTCCATAACGATGTTGGTGCAGTTC
AGTCCAGAGAAATACAAGGATGAAATGGAGGTCCCGGGAAGTTCTTCATCCGGGGAGAGT
TCTCACGACGAAGAAGTTTCCTTATCCGGGTCTCCAACACCCAGGAACTCACCCGGACCT
CAGCAATCATTACGTATGGACGTGCCATCAACAGACGCGGCTACACTGCGACAGTCGCAG
GGTAATAAAGATCTTCCCAGGTTTCTCTTAATAGAAATGCGCAACTGTTCAGATTTGGGC
ATCAGTCTTGTGGGTGGCAACGCCGTGGGCATATTCGTGCACAGCGTTCAGATGGATTCT
CCGGCGTATATCGCGGGATTGCGGACAGGAGACCAAATCTTGGAATACAATAACGTGGAC
TTAAGACGAGCCACCGCTGAACAAGCCGCTCTGGAACTGGCGAAGCCAGCGGACAAGGTG
AGCGTGTTAGTCCGACACGACCTCCAACAATATCACGAAATAAAAGACAAGCCTGGCGAT
GCGTTCTACATACGAGCGGGTTTCGACCGCTGTGCTAAGATCAACTCCATAGGCATGGAC
ACCATAGATGAATACTCGCTGTGGTTCAGAAAAGACGAGGTGCTCTTCGTAGATAACACA
CTGTTCAATGGAGCTCCGGGTCTGTGGCGCGCCTGGCAGTTGGACTGCAAAGGAGTCAAG
CGACATTGGGGTACTATACCCAGCAAGTTCAAAGTGGAAGACATTTTGCGTAGATCTGTC
GGCACTTTAGACAACGAAGCCCAACGACGAGCTTCCAGTACAGCACGGAGGTCGTTCTTC
CGCCGCAAGAAACATAGGGACAGTAAAGAGCTCGCGTCTTTCTCAAACACGGAGCTGGGA
TGCTGGAGCGACTCCGGGACCCTGGCCGATGACGCACCTCCACTGTCCTATCAGAGAGTG
GAGCGGCTCCATTATGGGTCTCGGCGGCCGGTGGCGGTGCTGGGTCCTCTGCGGGAGTGC
GTGGCCGGTAAGCTGGTCACGGACTGGCCGCACGTGTTCGCACGCGCGAGGCCGGACCCA
CGAGCTCTGAGGGACTTGGCTGATAAGGGTATTCACTGCATAATAGACGTCAGCGTGCCG
ACGATAGAGAAGCTTCACAAGCATCAGATATACCCTATTGTTCTGTTCATCAAGTTCAAG
TCCTTCAAACAGATCAAAGAAGTCAAAGACACGAGGTATCCCGCCGATAAAGTGTCGGCC
AAAGCCGCCAAGGAGATGTACGAGCATGGATTGAAAGTCGAAAACGAATATAGGAATTAT
ATATCGGCCGAGATCCCAGCTGGCGTGAACATCGCCTACATGTGCACGCAGATTAAGGAG
GCGGTGGAGGAGGAGCAGAACAAGACGCTGTGGTCAGTGACCTTCTGTGCACACTGTAAA
TACGACCGGCAGCCGGCGCCGCTCCCTGACACGGACGTCAGATACTACTCCGACCCCGGA
CTTCCCGAGCCGCCCAAACAGAAGACCAAAAAGAAACCCAAAGAGACCAAGTACCACGAC
AAGATGGATGCTGACCTCAGATACTACTCGGAGCCGGATGCCAAGTACTTCGAGATAGAC
TACGTGTTCCTCAAGGAGCTCAGGAAGATCGCTCGCAACAACTGTCCCAAGTGTAAGAGG
AAGAGGTCGAGGAAATACGAAGGTAAGACCAAGGAGAGGCGACAACGGGGCGTCCGGCTC
AGGGAGAACTACGTGCTCTGTAATGGAAGGTACCACAGCGAGATGGAGCACTGCCAGCTG
TGCTGCAAGATCTGCAACCGCTCCACGGACACCCTGGACTCGTTGGACGATTACTCGTTG
GCGTCCAAGAGCTACAGCCTCCCTTCTAGCCGCGCTACCACGAGTTCCCGATCCAAGTCC
ACACCCAGCCGTCGCGACAGAAAGAACTCGATCCAGTCGAACAAATCGGTGTCTTTTCTC
GAATCCAGTAACGAGGAGCTGAAGGACGAGCCCAACTACACCGCCACGAGTTTCACGAAC
GATCTCAAGAAGTTCCTCCTCAAGCCGTCGTCGCCGAGGCTCAGCCTGCGGGAGAAGTTC
ATCATCAGCTTCAAGCAGGAGCTGGAGGCCACCAAGAGGTCGCCCAAGCTGCGAGCCATC
AAGGGCCTCTGGAAGTCGTACTGA
Protein sequence:
MASGTSSLESNGSNESISHSYVSNERHNTTQLPTIPIPIEYEVLSSSQCYDKPNYTSHTH
TMSAPYELGQYDVINKQANENLKQQCEKALHDLNQLRRQHTETSRRCEHVMKELEYFRGQ
HRAAMNQLEVSAQEASSLRGKYGDLLNDNQRLEREVQVLQGGGAEGGEALVHALRDFDAL
KEEFECFQKRYDDLIENHNTTLEKLQIVQEENSRLKTQCHDLTQERNSVIRERNALKQQV
ASVVRQWEGGVRERADIKRLTDERNAAMAEYTLIMSERDTVHKEMEKLSDDLQAALKRVA
ALESALQASRDEQRATALQAESLRREIESALADRDRAIKECTDLKTPQNTNTLGKSRQEN
SVYHHLGLSTGVGTDGFLNGQHSNDPSMDKLQGLVLGEGDKAQSDNLEQANQELQRLRAR
SHRLQAELADALREADVARRRRDWAFSERDKLLQERESVKALCNRLRKERDQMVGELAEA
RRHGNNKKETKDKPRARSHDDKCRLAWYRDYGDLQKLEWEELEVELEGSPEALGLEFCGG
REAGTDQHVYVTSVRTGSLADGKILPLDRITEACGGSGWSRGGVLAGCLRAALSRGGALL
RLQRARARRIDIRLAPRDHAALTLSHGIFISKISRGSAVSKEGSLQVGDRVVSINNRSLE
GVKSVSEALSLLDDSAYDGATLTVLRALPTLQRAPDCDGDCKDETCAFLPPPDTKIHTEH
GVPDFDRRYVYHVTAGSQGKISQDRVVHRVAGAWDMLRGKIEAVTSKGKDKQKVPESDAI
AELDSVIDSYHGKTIKETSSVLKRSRRKNKEAQNDAKNGGTWPKARANFVLEDSATGTIV
QPRSRKERPPLSILLSPPTKLPPEPQRSNTNRNSNPIPLGHVPLTQVTTPARHSVYKSIE
SSPAVEHFPKSAPLAIHNPFAPPNMSFEKNRTLEKDKISISDYEQDVTPNRLSLVLNPSE
DSLFYQPGRNRTKSPHSLDFMVNKGPNSLDFVSRKSPSSLDHTIKNHTGKDILDSYYSSK
KSSSPKAVNKYPSDSDSFGPDSLNSNGNFPMTGTLPSQSRLQSQYYRGPFTNSNPHSSSR
YTHLSSPTNIPQSQSGESIGTSYDMHSFTSHTHNMSDLHPVPRVNRDYHHTYEGGTFPRK
KENQRFRIPSNPSVTSKNSAGKLSTGSIERSSERNSPMPTFHVEVLSPGRGAKQMAHKST
RNSMPEYCGLGWNKPLPGELRRVHIDKSQQPLGIQIYCPPSSGGVFVSTVNENSLASQVG
LQVGDQLLEVCGINMRSATYTLAASVLRQIGNSITMLVQFSPEKYKDEMEVPGSSSSGES
SHDEEVSLSGSPTPRNSPGPQQSLRMDVPSTDAATLRQSQGNKDLPRFLLIEMRNCSDLG
ISLVGGNAVGIFVHSVQMDSPAYIAGLRTGDQILEYNNVDLRRATAEQAALELAKPADKV
SVLVRHDLQQYHEIKDKPGDAFYIRAGFDRCAKINSIGMDTIDEYSLWFRKDEVLFVDNT
LFNGAPGLWRAWQLDCKGVKRHWGTIPSKFKVEDILRRSVGTLDNEAQRRASSTARRSFF
RRKKHRDSKELASFSNTELGCWSDSGTLADDAPPLSYQRVERLHYGSRRPVAVLGPLREC
VAGKLVTDWPHVFARARPDPRALRDLADKGIHCIIDVSVPTIEKLHKHQIYPIVLFIKFK
SFKQIKEVKDTRYPADKVSAKAAKEMYEHGLKVENEYRNYISAEIPAGVNIAYMCTQIKE
AVEEEQNKTLWSVTFCAHCKYDRQPAPLPDTDVRYYSDPGLPEPPKQKTKKKPKETKYHD
KMDADLRYYSEPDAKYFEIDYVFLKELRKIARNNCPKCKRKRSRKYEGKTKERRQRGVRL
RENYVLCNGRYHSEMEHCQLCCKICNRSTDTLDSLDDYSLASKSYSLPSSRATTSSRSKS
TPSRRDRKNSIQSNKSVSFLESSNEELKDEPNYTATSFTNDLKKFLLKPSSPRLSLREKF
IISFKQELEATKRSPKLRAIKGLWKSY