New model in OGS2.0 | DPOGS202650  |
---|---|
Genomic Position | scaffold208:+ 84091-92753 |
See gene structure | |
CDS Length | 3591 |
Paired RNAseq reads   | 2510 |
Single RNAseq reads   | 6621 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA000848 (0.0) |
Best Drosophila hit   | jing, isoform I (5e-48) |
Best Human hit | zinc finger protein AEBP2 isoform b (2e-18) |
Best NR hit (blastp)   | PREDICTED: similar to jing CG9403-PA, isoform A [Apis mellifera] (4e-69) |
Best NR hit (blastx)   | PREDICTED: similar to jing CG9403-PA, isoform A [Apis mellifera] (8e-54) |
GeneOntology terms    | GO:0007382 specification of segmental identity, maxillary segment GO:0005634 nucleus GO:0003700 sequence-specific DNA binding transcription factor activity GO:0045449 regulation of transcription GO:0007298 border follicle cell migration GO:0007424 open tracheal system development GO:0007417 central nervous system development GO:0008270 zinc ion binding GO:0007479 leg disc proximal/distal pattern formation GO:0007474 imaginal disc-derived wing vein specification GO:0016564 transcription repressor activity GO:0008347 glial cell migration GO:0007411 axon guidance GO:0042246 tissue regeneration |
InterPro families    | IPR015880 Zinc finger, C2H2-like IPR013087 Zinc finger, C2H2-type/integrase, DNA-binding IPR007087 Zinc finger, C2H2-type |
Orthology group | MCL31119 |
Nucleotide sequence:
ATGGCTGAACCGCGTTTAACGGGACTTATGGCCAGTGGCGTGGCGGTGCTGAGTCCTACG
GAAAGCAGTGGGTGCAGCGGTAGTGACATCACTGAGCCTCGCTCGCCCCGGAGCCCCGAG
TCGGGGTGCAGCACGAGTGAAGAAGGCGCTGGCGTGCGCATGCCGCCTTGGGCGAGCGAT
CCGGCGCCGCCGGGCCCGAGACGCCTCGCGGCTCAACCCGCGCCCCTCCGGCGACCCAAT
CCACCTATACATCGCCGCATAACAGAATACTTCAATCATAAAATGAAGCCACAAAACGGC
GTCAAGCGTGACTCGAGTTTAATTAGTAACGATGACAGCAAGAAAAAGTGTCTCCCTAAG
AATGGTGTCACGCATGATCTCGAAAAGTATATTTCGTATTTATCTCAGACGCTGAATCCA
AAAGTTCTAATTGATGTCGAAAAACCAGCAGACTCTATGAAAAAGCCTGTCAGTCAAGCA
ACAAATTTCAATACAGATGTAACTAAAAATGGTCTACATAAAACAGCTTCATCTACTAAT
ATCAATACTTTAAGAGATCGTATCAAACCTAAAGACAATAAAGAGACTCACACAATGAAC
GGTTTGGTAGATATCCGTCACGGCACTGAGTCGTCCAACAAAGAAAAAAGTTTTGAGGGC
TTCTTTAATGGGGTAACTGTCAGCAGAATACCTAACCCTAAAGTAAATCAAGGACCATCC
GCTATAACACCAGTAAACCATATTAACAAATGTAAAATTCCAATTCCATCAGTTAACCAA
TCACCCAAAAAACAAGTGAATCATAAACCTGATACAACACATCTAAATGGAGTCGTGAGT
TCCACGACTAAGCTAGACAGTCGAATGAACGGGGTTACCTGTGGGTCTAACAACTTAAAT
CTTATGAACAAACCATCTACAGTAAAAAAGGAACCTGTTAAGAGAAATTTACAACCTAAG
AGAACCAATCGCAAATCATCAGCTTGTATAGCTAATAGCAAGAACTTGACTTGGTCGAAG
GCTAATAATCTTAAACAGGTACAGTTGCAGAAACAAAATTGTAGTAAAATTATTCCAAAC
ACGCCTGTTAATAACAATGTACCAGGTGAAGCAAGCACTGCGCCAAAGATGCAAATCCCA
AATGGAGTAAGACAAGTATCGATGGCAGTCAACGGAAATATAAGCAATATAAATGTGCCT
GTGACTAATTTTCAAAGTTGTCATTCATTAAATATTCCACAACCCTGTAATGGGACGGTA
ACCTCCACCAATTTGGCTTCGTTCGTCGCTGTTCCTCATAACGTAATGCTTACAACACTT
CGAATACCACAAAACGGTCTACCTCCGCAGACATTAAACCAACAAGGTAATATGGCATTT
AATCGTCAAAACGTCAACGTGACAAGTCCGACTAAATTAAACGGTCAATTCGTTTTCCCG
TTGGTTCAGAATATTAATGGAACTGTCGTTCAAATACCAAATTTAATGGCCAAGATGCCG
AATTTCGTTCTTCCGCAAACTCCTCAAATAACAACGCAGAGACAAGATCATCTACAAAAC
CAAACTTTAAACCAATTTCTCATTAATGGTACTTTATTGAAATTGGCAAACACGATGCCA
CCTACCTATACAACGGCGAACAAATCTGGTCCAGTCACTAGTCAGCCACTACCAGTAATT
AACAAAAATGTGCCTGGTCTTCAAGCTGTCGGAATGTCAGTTCAACCAAAACAGAACTTC
ACAGTGAACCTTAGCCATCCGATGCTAGTGCCTCAACCAGGATTTATTGTAACATCTGTG
CCAAATATGAGTGTGAAAGAAACGTGGAGTTATACCGGTACCCATTCGGTTGCCTCGTCA
CAGATATCGTGTTCGAGTCCAATAGTTCCACAACAGCCCGCGATGGTTGCCAATTTTATG
AATCAAAATCTCCACTCGAGTAGTATTCCTATAGCCCCCGTGAAGCCACCGGACAATCCG
ATTCAAGGTACAGAGCCGCCCAGCAGTACTGTTAAAGAGACGGAAATTAATGAAATTGCC
AATCAAAAGTGTGATATTCCATGGCTGTCAAAAACTGTGAACAATAATATTGTTCCTTTA
GATACTAATAAATTAACGAGGCCTTTTGCACAAGTTAGTAGTTCAGGGAATCTCAAAGAT
TTCAGCATAGAGAAGGTTGGAAAGAAACGAAGAGCGAGTAAAGATTTACAGAAGGATTTT
AAAGTTGGTAGTACGAGTGAAATAAGAAAAGTAGAAGAAGTCGCCAGAAGAGAAGAGACA
ATATTTACACAAATAACCGTATTGAAGGATGTTTCGTCTAATGTCCAAAGTTCTGTTATA
GAAGCAAATTTCTGTAGTGCTACTACAGAGTCTTCAGAGTCCGGTATAGGAACCGATAAG
TCTATTGACTCGCCCAGCGACTCCCAGGCTAGCAAAGAGTGTGACGATGACTCCTCCTTA
TCATTAAGTATCAGTGTGAGTTCCGTCGAAGCTCAGAGTAGTCAAAAAAGTCCTATACTA
AAACAACCTAAAACATTACGGTTTCCACCAAGAAGTATTATCAAACCTCAAAGCGATAAG
AGAAAATCTAGCACTGATACGACGTCGGTCACGATATGCTTATGGGAGAAGTGTAAGCAA
GAGTTAGAGAGTGATAGCGATCTCCTGGAACACCTGCAGTCTGTCCACGTGGAGTCTCAA
GCTGGTCAAGAGAACTACGTATGTCTGTGGGAGCGCTGCAAGGTCCGCGGCAAACCTTCC
TGCTCTCGGCTATGGCTGGAACGACACGCTCTCTCCCACGGCGGAAACAAACCGTTCAAG
TGCATCGTTGACAGCTGCGACAGGAGATTCTCTACTCAGATATTACTCGAACGTCACGTA
AACAATCACTTCAACGAGGCGACGCCGAACACGGGGAACGGGAAGAAGACCGCAGACAGC
TCGGCGAAGATGATACGACGGAATGGAAAGAAACTCAGATACAGAAGACAACCGTGGTCT
GCCCGCATGTTCGACTTCTTCGACTCCGGCATGATGGAGGGTCTAGCGTGGCGGCTCGCC
CGCAGTACTCGCTGGCGGTTGGGTGGGTTCTGCCCACTGAGGGACGGCGGCGGACACACG
CTCACACTGCACGCCGCGCTCACAGCGACCAGATACAACCCGGCCACCGCCGCGCGCGAG
GCGCTACTGACGTACTACCCGCCGCATGTTATCGAGGACGAGTGGGTGCCCGAGGAGGAA
GTGAAACGGGTCAAAAGGGTGGAGATCTCCGAGCTGCCGGTCCACACCAAGGTGCTGCTG
TACGAGGAGTTCTGCAACTCGTACAGGAAGACTCCGCCGCCGCCGCCCAAGAAGACGCAG
GCTGCGGCGCAACCCGTCCGCCTGCTTCCGGCCAGGCAGTGCACATCGTCACGCCTGCTC
AACAACCTGATAGCGAAGCAGCGCAAGGAGAGAAACGACTGCAGCTCCACCGGCCTGCCG
CCGCTGTTCGACGACGACAGAGACAGAGAGAAGAGCGAGGTCAGCGGCGCCAAGAAGAGG
AAGATGGGCAGGAGGTACGGCGGGAACGCGTTCTGGCCCTGCGGACGATAG
Protein sequence:
MAEPRLTGLMASGVAVLSPTESSGCSGSDITEPRSPRSPESGCSTSEEGAGVRMPPWASD
PAPPGPRRLAAQPAPLRRPNPPIHRRITEYFNHKMKPQNGVKRDSSLISNDDSKKKCLPK
NGVTHDLEKYISYLSQTLNPKVLIDVEKPADSMKKPVSQATNFNTDVTKNGLHKTASSTN
INTLRDRIKPKDNKETHTMNGLVDIRHGTESSNKEKSFEGFFNGVTVSRIPNPKVNQGPS
AITPVNHINKCKIPIPSVNQSPKKQVNHKPDTTHLNGVVSSTTKLDSRMNGVTCGSNNLN
LMNKPSTVKKEPVKRNLQPKRTNRKSSACIANSKNLTWSKANNLKQVQLQKQNCSKIIPN
TPVNNNVPGEASTAPKMQIPNGVRQVSMAVNGNISNINVPVTNFQSCHSLNIPQPCNGTV
TSTNLASFVAVPHNVMLTTLRIPQNGLPPQTLNQQGNMAFNRQNVNVTSPTKLNGQFVFP
LVQNINGTVVQIPNLMAKMPNFVLPQTPQITTQRQDHLQNQTLNQFLINGTLLKLANTMP
PTYTTANKSGPVTSQPLPVINKNVPGLQAVGMSVQPKQNFTVNLSHPMLVPQPGFIVTSV
PNMSVKETWSYTGTHSVASSQISCSSPIVPQQPAMVANFMNQNLHSSSIPIAPVKPPDNP
IQGTEPPSSTVKETEINEIANQKCDIPWLSKTVNNNIVPLDTNKLTRPFAQVSSSGNLKD
FSIEKVGKKRRASKDLQKDFKVGSTSEIRKVEEVARREETIFTQITVLKDVSSNVQSSVI
EANFCSATTESSESGIGTDKSIDSPSDSQASKECDDDSSLSLSISVSSVEAQSSQKSPIL
KQPKTLRFPPRSIIKPQSDKRKSSTDTTSVTICLWEKCKQELESDSDLLEHLQSVHVESQ
AGQENYVCLWERCKVRGKPSCSRLWLERHALSHGGNKPFKCIVDSCDRRFSTQILLERHV
NNHFNEATPNTGNGKKTADSSAKMIRRNGKKLRYRRQPWSARMFDFFDSGMMEGLAWRLA
RSTRWRLGGFCPLRDGGGHTLTLHAALTATRYNPATAAREALLTYYPPHVIEDEWVPEEE
VKRVKRVEISELPVHTKVLLYEEFCNSYRKTPPPPPKKTQAAAQPVRLLPARQCTSSRLL
NNLIAKQRKERNDCSSTGLPPLFDDDRDREKSEVSGAKKRKMGRRYGGNAFWPCGR