| New model in OGS2.0 | DPOGS206029 |
|---|---|
| Genomic Position | scaffold4:- 693303-700136 |
| See gene structure | |
| CDS Length | 5418 |
| Paired RNAseq reads | 911 |
| Single RNAseq reads | 2496 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA000517 (0.0) |
| Best Drosophila hit | CG13917 (5e-59) |
| Best Human hit | BTB/POZ domain-containing protein 8 (3e-33) |
| Best NR hit (blastp) | PREDICTED: similar to CG13917-PA [Apis mellifera] (1e-118) |
| Best NR hit (blastx) | PREDICTED: similar to CG13917-PA [Apis mellifera] (2e-101) |
| GeneOntology terms | GO:0005515 protein binding |
| InterPro families | IPR011333 BTB/POZ fold IPR000210 BTB/POZ-like IPR013069 BTB/POZ |
| Orthology group | MCL18918 |
Nucleotide sequence:
ATGCCGGACTCGAGGGGTAAGCCTGCAAATGATTGCTCAGCCTCCGATGAAGCATCAAGG
TTGGATTTATATCTTCAGAGACAGCTTGAAGAGGATGTAGCAAGCGATGCGTATACTGAA
TGTGATATCCAAAATCAAGAAAAAGAAATTCTATTTTTTTTAAAACGAACTCATTTCGCT
AAAAATAATTTATTCGATTCAAATAAAATAAAAGAAGAGATAGAAGATATTGATGTGTTT
CTAACCCCAAATTCGAGTCCCTGTCCAGAACAAAAAATACAACAAATTTCCTGTCTTAGT
CCCAGTACAGAATTAACAAGAGAATATTACGCCCTAGTACCCATTGACGGTAATTTGCTT
GACCAGGAGCTCATTGAACAAGACGCGTTATCGAATGCTTTTCATACGATCATAAAAGGG
CAAGATAAAGATTCTAACAAAGTAACACAACTTAACAAACCCACTTCATTACCTTTGGTG
TCTAGTCACACTCCTAAAACCATTAAACATTCCATTAATTGTGATATATATAATAAACTA
GTCCATGAACATGAAAAATTAGGGAATGAAAGAGAAGTAAATAAGAAAACAAATAACAAT
TATATTTGTCAGAAAATAAATAATACAAATAGATTTGATACCAAATCAAATCAGATAAGT
TCCAGCGAGTCAGTTTTGAGTGAAAAATATTTTGATCCTTCATACTCTCCTGATAGTTTA
ATCACTGATGATCCCAGTTCCTCATCAGATTATTTATCCGCTGCATATGCTTGCTCCCCT
GCTGTAAGCACTTCAGGGTGTGTACGTCAAGCTCATGTTGAGGATTACATTAGTAAAATG
GAAAACATATTCACTTCTTCGGATTCCGGGCTGGAAAATACTGGTATGCTCGAGAGCCTG
AGCAGCCATAAAGACGTTACTTTAACAGATCTATCCTTAACCGAAAGTACGCTTCACGAT
CTAATCACTGACGAGACAAATAATTCAAACGGATCCTTGTCCAGTTCAACGTCAGATAAG
AATCAAATTTGTAAAATGAAATCGTCAACTCCTCGTACTGACATGGCATCTTATGCGAGT
ACTTCAGACGAATGGAATGGTCAGAGAGCAAATGTGCAAAATAAGCCTCTAGACTGTGTA
CATTCTAATTCTTCGAAAGAAGAAAAGCAACGACAGAACGAGGAAATAGTGATTTTAGAA
TCATCCTCTGTGTCGTCTGAAACTGGATCATGGGAATCAGTTTTTCCGCCGAGAATGGTA
GAAAAAGAAATATGTGAAAAATTTATAAATACTGAACGTCATCACAACAAACAGGATGTT
ATGTGGAGACGGAACAACCCTACTTCTCTGGCGGTGATTAAACACATTGATATTTCTTTG
AAATCTACACCTTGCTTTATTGATGCAGCGAGTCTGGCAGATGAAGACCAGTCTATAGAA
TTGAAGAAATCTGACCAGAATGAATCTGCTAATCTCTCATCTGATCACACTCCTACACCT
AGCCAGCCGGTCCCCTGTTCTAAGGTGAATAAGCTTGATCATAGTCCAGGTGACTGGTCC
GAAAGTAATGAAAACGAGGATTCTTTGGAACAGGGAGACAATAAAGATGCTGATTCCATT
CAGAAAGATTTATCACCCACTATTTTTGAAATGACTCCCATAGCTGAGGATTCTTTAATT
TCAAATATTTTTGACCGCAGTACTGAGGCGAAGATGGACAGGGAAACGTATGACGCTAAT
GCTATTTCCGCTTGCGAGACTGAAAAAGCAACTTCCTTATCTGCGAGCACAGTTTACATG
GGTACAACTCCACACAATTCAATTCTGTCTTTAAAAACTTCGTCCATCAAGAACTACGAC
TCAGAAGAGAGCGAAAATGACACAATACATATAAGCAAGGAAAGTCTTATAAATTTCAGA
CAAACTAGGTATAATGAATCGTCTCCTATAGTTTCAGGCGGAGCATCAATCGAAGATGTT
CGATCTCCAAAGTTGAATCAACAGAGTCCGTTAATAAGAAGAAAAATTGAAAACACGCCC
ATTGTAACTGGAGCGTGTTATCCAAATGTGGATGACAGTAAAGATAACGCCGTACCGAAA
ACGCCTAAACCTGTCCATGCATCTGCATGGGTAGTTGACATGGCTTCGGATTTTAATGCC
ACCGAATCAAGTATTAATACATCAAACTCCAGCTTGAATTCTAAAAAATCTAACGACAAA
GTTCATGAAAATTTAAAAAGCGAATCGAAAGCAAATAGTAGCGAAAGTTCTAATAAAAGT
CGATGTTCCGTTGACTCTGATAGTAGTGAAAAATCTGGCCATAAATTTTATATTGATTTA
TCGTCTTTACCTGATCCTTTGCCACCAGAAAAACCGAATGTCATAGATAGCAATTCTGAA
AAAAAGAATATATTTTCTATGTTTATAGATTTAGGAGAAAAATCTACTCTCAAAGAAATG
CCATCCCGTTTATCTTCATCTTTGAATAGTCAGAAACAGTCTCACGACAGTAACCACAAA
ACATCAAGCAAGACTTGCAAGAATCAGAAGACAGTAAACAATTTGAAAACCTTGGATGCG
ACCCCGAAATCACTTGATCCATCGATAAGTACAACAACATTCGAAAGATACGAATCATTG
TGCAATGATCCTAACATAAGCATATCAGAAATAATCGCTATCCCCGAGGCTCCTTGTTTG
AAAGAGAACGAAGAAGTTACCGAAATGGTGAATCTTAAAAACGATAAACATTCCAGGCGA
ATAAATGGAGACAAAACGTTCAATACTTATGTTATTCACGAGGAACCGGTCAATGAACCC
TCGGATCTGTTTGTTAAATTATCCGATTTGGATAAACCGTTACAGAAATCTGATATATTC
GAAAAAAATTGCTTCGAGTCAAGAATGACCAGGTCGATACCGGATAACAAATGGTCACAA
CAAACCCTCGGAGGATCTTCCAGGTCTAGTGAAGTGATTAGTTCCTTTCATTCTGAGAAT
GCGTTGAGTCTGAACAGGCTTTTTCCCCACCTGAAAAACGAGTTCAGTAGGAGCATGCCG
ATATCACTATCAACTAGAACAAGATCTCCATCAAGACCGACTGCATTGAGCGTGGGCGAG
ATGGATGATCAGGTTTCCGATGTATCGGAAATGAGTAGTGTACAAAGCAGTATATGTCGT
TCTGTAGTCGAAAATAGTACAACAGAAGAAACTAGTCAAACTTCGAGTTTAATAGGTAAC
TGTCAGTCTCGTTTGGGACAGGATTTGCTTCGTATGTTCTTAGAGGAGATAGCCCCTGAC
GTTATAGTCGAAGTATCAGGAAAGAGAATTAAAGCACATAAATGTATTCTATCATCTAGG
TGTCAGTACTTTGCAGGTATACTAAGTGGCGGTTGGGTCGAAAGTGCTGGGAACGTCATC
GTTTTACCACCGTTCTCATTTAACGTGGTACACTTCGCTCTGTGCCATATATATTCCGGT
TTGTCTACTATACCCGATTCTATAAGTATCGTGGAACTAGCCACTATAGCTGACATGCTC
GGACTCGAAGGCCTGAAAGAAGCTATTATGTTCACATTGAAGTCCAAATATTGTCATCAC
TTCCACAGGCCTTGTCAAGTTTGCACAGCCGGTGTATTGGAATGCTTCCCCTTGTCTTCG
GTTTATGGCCTGGATGATTTATACCGCAAATGTCTCAGATGGATAACCAAATACTTCTCG
AAGGTGTGGCCAACCAAAGCTTTTGCCACTTTACCAAAAGAACTCCTTGATAAATGTTAC
CAAGAACATGTTGTTAATCTTTCTTTGGAAAATTTTATTGACACTGTCTATGGATGTGGC
ACTACGGTGTCATCACTTCAAAATAGTAGGTGGGCTGAGGGTGTAGCCCGTATGTGCAGG
CGTCTAGTAAACGCGGCCGCACATTTCGCTGCTCCAAGACTACCGGCTGTTTTGGAACTA
ATATCTGTTGCTCCAGAGGCTCCTCAAACAGCCAAACAAGCGCTGGACGACTGTCTTGCA
GCCGCCATTGAATGGGCTCCTCCTGATGAAACCTGCCGGGCCTACGCTTACTTATCGAAT
CTCGTCAAGCAAATCAGAAACCAACACCTTGCTAAGCCCGATCTGATATCTAATGGAAAC
CAAATCAAGGTCCCGGAAACCACCAATCTTTTATACATCCACGCTAGCAGTTGGAGGCTT
CAGTGCGAAGTGGCCCTTGTTAGAGCAGCACCCAGGGTTGTGGGCACCCAAGCATTCAAA
GACCTTCCATCTGATCTACGTAAACGACTACGAGAACTCGGCTGTATTATGTACGGACCT
CAAGCCATACCGCTCACTACGTCTCCGCTACAGGACAGAAAATGCAAGAGCACTTACCAC
AGCAAACCTACTAAAATTATCAATTCTTCGGCAACTCGGAGTTTGGATATGGATAAGGTG
CGCAATTCGTTCGTACCCTACAAACCAAAGCCGATCACGATGACGGGATCAAAGGATAAC
ATAAAAAGCAACAGCGAGCTTAGAGAATTGAAGAAACAAAATAAAACAACTGTCCCCAAA
GTGAGGACTACGAAAGCCCAAGAAGAGCGAGCGAAGTTCAATCAATCTAAGACAATAACA
ACGTCTCAAGAGAGATCAGTGACTAAGCCAGCCACAACACGAGTCCATCCATTCGAGAAT
ACAAAACCGAGATACTTACAACCACGTGTTAAAGACACCGAGAAGAAATTACCACCGAAG
AAGCTGGTTAATAAGATAGTGTCCTCGAGTGAGTCTTCAAGGAATTCCAGTCCGATCCAA
GCTCGCAATTTGCGGCCACGGGTACAACCGAGCGACAGAACCCACATGTCACAAGACAGT
CTTGCGACGTCATCGAGACCTCGGACTGCGGAACCCTCCACGGACTCCCTCAGCGAATCA
CAAAACAGCAACAAATACGCTACGTACACCAAAACTAAGCACAATAAACAGGGCTCCGTT
GAATCGATCATATCGGCTAAATGTCAGGGCGTGTCGCCGTCCTCATTGCTGAATTCGGCC
GTCAGAACGAAGATACCTGTGTTTTTGAACCAGCACGCGTCCGCTGCGTACAAACGTACA
AGCCCAACGAAGACGTCGCGGCCGAATTCAGCGACCGTTGTGCAGGCGACTAAGGACAAA
CGCAGGACTCAAGACAGAAAACTATCCGGTTCCCTGATGAATGCGACCAAATCGAGCTCA
GCGAAAATGGTACCAAAGATATCTAAAGAGATCCACACGCAGCCAACCAAGTCCAAACAT
AGCAAACCGGTCAAACATCCGAACAGAAGTGATGAGCAACAGCGTACTGAGATACCGTTG
ATGGAACGCTCTGGTACGTTCTTGAAAGACGAACCAACATTTGGCGATAAAACTACGGAT
ATTGATATAGATTATTAG
Protein sequence:
MPDSRGKPANDCSASDEASRLDLYLQRQLEEDVASDAYTECDIQNQEKEILFFLKRTHFA
KNNLFDSNKIKEEIEDIDVFLTPNSSPCPEQKIQQISCLSPSTELTREYYALVPIDGNLL
DQELIEQDALSNAFHTIIKGQDKDSNKVTQLNKPTSLPLVSSHTPKTIKHSINCDIYNKL
VHEHEKLGNEREVNKKTNNNYICQKINNTNRFDTKSNQISSSESVLSEKYFDPSYSPDSL
ITDDPSSSSDYLSAAYACSPAVSTSGCVRQAHVEDYISKMENIFTSSDSGLENTGMLESL
SSHKDVTLTDLSLTESTLHDLITDETNNSNGSLSSSTSDKNQICKMKSSTPRTDMASYAS
TSDEWNGQRANVQNKPLDCVHSNSSKEEKQRQNEEIVILESSSVSSETGSWESVFPPRMV
EKEICEKFINTERHHNKQDVMWRRNNPTSLAVIKHIDISLKSTPCFIDAASLADEDQSIE
LKKSDQNESANLSSDHTPTPSQPVPCSKVNKLDHSPGDWSESNENEDSLEQGDNKDADSI
QKDLSPTIFEMTPIAEDSLISNIFDRSTEAKMDRETYDANAISACETEKATSLSASTVYM
GTTPHNSILSLKTSSIKNYDSEESENDTIHISKESLINFRQTRYNESSPIVSGGASIEDV
RSPKLNQQSPLIRRKIENTPIVTGACYPNVDDSKDNAVPKTPKPVHASAWVVDMASDFNA
TESSINTSNSSLNSKKSNDKVHENLKSESKANSSESSNKSRCSVDSDSSEKSGHKFYIDL
SSLPDPLPPEKPNVIDSNSEKKNIFSMFIDLGEKSTLKEMPSRLSSSLNSQKQSHDSNHK
TSSKTCKNQKTVNNLKTLDATPKSLDPSISTTTFERYESLCNDPNISISEIIAIPEAPCL
KENEEVTEMVNLKNDKHSRRINGDKTFNTYVIHEEPVNEPSDLFVKLSDLDKPLQKSDIF
EKNCFESRMTRSIPDNKWSQQTLGGSSRSSEVISSFHSENALSLNRLFPHLKNEFSRSMP
ISLSTRTRSPSRPTALSVGEMDDQVSDVSEMSSVQSSICRSVVENSTTEETSQTSSLIGN
CQSRLGQDLLRMFLEEIAPDVIVEVSGKRIKAHKCILSSRCQYFAGILSGGWVESAGNVI
VLPPFSFNVVHFALCHIYSGLSTIPDSISIVELATIADMLGLEGLKEAIMFTLKSKYCHH
FHRPCQVCTAGVLECFPLSSVYGLDDLYRKCLRWITKYFSKVWPTKAFATLPKELLDKCY
QEHVVNLSLENFIDTVYGCGTTVSSLQNSRWAEGVARMCRRLVNAAAHFAAPRLPAVLEL
ISVAPEAPQTAKQALDDCLAAAIEWAPPDETCRAYAYLSNLVKQIRNQHLAKPDLISNGN
QIKVPETTNLLYIHASSWRLQCEVALVRAAPRVVGTQAFKDLPSDLRKRLRELGCIMYGP
QAIPLTTSPLQDRKCKSTYHSKPTKIINSSATRSLDMDKVRNSFVPYKPKPITMTGSKDN
IKSNSELRELKKQNKTTVPKVRTTKAQEERAKFNQSKTITTSQERSVTKPATTRVHPFEN
TKPRYLQPRVKDTEKKLPPKKLVNKIVSSSESSRNSSPIQARNLRPRVQPSDRTHMSQDS
LATSSRPRTAEPSTDSLSESQNSNKYATYTKTKHNKQGSVESIISAKCQGVSPSSLLNSA
VRTKIPVFLNQHASAAYKRTSPTKTSRPNSATVVQATKDKRRTQDRKLSGSLMNATKSSS
AKMVPKISKEIHTQPTKSKHSKPVKHPNRSDEQQRTEIPLMERSGTFLKDEPTFGDKTTD
IDIDY