| New model in OGS2.0 | DPOGS214994 |
|---|---|
| Genomic Position | scaffold361:- 3379-16318 |
| See gene structure | |
| CDS Length | 4614 |
| Paired RNAseq reads | 9730 |
| Single RNAseq reads | 25497 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA012159 (4e-10) |
| Best Drosophila hit | hu li tai shao, isoform A (1e-177) |
| Best Human hit | alpha-adducin isoform c (3e-80) |
| Best NR hit (blastp) | adducin [Aedes aegypti] (0.0) |
| Best NR hit (blastx) | PREDICTED: similar to adducin [Tribolium castaneum] (0.0) |
| GeneOntology terms | GO:0008302 female germline ring canal formation, actin assembly GO:0045169 fusome GO:0045478 fusome organization GO:0045170 spectrosome GO:0007294 germarium-derived oocyte fate determination GO:0045172 germline ring canal GO:0048135 female germ-line cyst formation GO:0035183 female germline ring canal inner rim GO:0003779 actin binding GO:0048134 germ-line cyst formation GO:0030721 spectrosome organization GO:0046872 metal ion binding GO:0007282 cystoblast division GO:0030723 ovarian fusome organization GO:0000212 meiotic spindle organization GO:0030724 testicular fusome organization GO:0051297 centrosome organization GO:0005886 plasma membrane GO:0005811 lipid particle |
| InterPro families | IPR001303 Class II aldolase/adducin, N-terminal |
| Orthology group | MCL10960 |
Nucleotide sequence:
ATGGCGGATACGGATACAGAGACGCTTCCCAACGGAAACGCGACCCTTAGCGCCGAGGAG
GAGGAGAGGCTGCGGCAGCGACCGGCTGACATCGATGCGGACGTCCGTGAGATGGAGCGC
AGGAAGCGAGTGGAGGCGATCATGTCGTCCAAGATGTTCCGCGAGGAGCTGGAGCGAGTG
CTGGACCAGCAGGCCAACGAGGGGAACGACGCCCCGCTGCTGCAGAGGATCCGCGAGATG
GTGGGCGGCAGGCTGGGCGCGGGCAGCATGAGGGGTCCGAGTTGTATGTTGCCGATCAAC
GACATCCGCGGCATCGAGGGTGTGGGCTACGAGAAGGGGGAGAAGATACTCCGCTGTAAG
CTGGCCTCCGTGTACCGGCTGGTGGACCTGTTCGGCTGGACCCAGAGTGGTATCTCCGGC
CAGATCACCGCCCGCCTGAACACAGCCGTGGAGCAGGTGTTGACGACGCCGCGAGGTCTG
CTGCCTCACGAGGTGACGGCCAGCTCTCTCGTGAAGCTGGACATGCAGGGCGCGGTTCAG
GACCAGGGGACGACCAACTTCCCCGTCAACGTTGAGGGTTTCTCTCTGCACGCGTCGGTG
CACGCCGCGCGGCCCGACCTCCGCTGTGTGCTGCACGTCCGGTCCGCAGCGGCCCTGGCC
GTGTCCGCCAGCAAGCGACGCCTCATGCCGCTCTGCGGGGAAGCGGCGCTGGATCCTCTG
CAGCGGATAGTGCGCGTGCCCGGAGGTGTTCTGGACAACGCCGAACGCGATAAGCTGGTC
CGTGCCCTGGGACCTCACTCCAAGGTGTTGGTGCTGGCCGGTGGAGGAGCTCTCTGCTGC
GGGGAGACCCTGGAAGAGGCCTTCTATCACGCCCGCATGTTGACAGCGGCCTGCGACGTC
CAGCTTAGACTGGTCTCCATTCCCCAGGACGACCTGCTGCTGATAGACGAGGACACCAGG
AGACAGATGTACGAGGCGTCCCGCAAGCCGCCGTCCGACTCCTCCAAGTGGCGCATCGGG
GGCGAGGAGTTCGAGGCGCTGATGAGGATGATGGACAACGCCGGCTACAGGACCGGCCAC
GTCTACAGACACCCGCTCATCAAGAACGACGTGCCCAAGCCGAAGAGCGATGTAGAGGTG
CCGCCAGCTGTGTCCTCGCTGGGGTACCTGCTGGAGGAAGAGGAGCTGTACAAGCAGGGA
TTGTGGAAGAAGGGCGGTAAATCCGGCGAGCGCACGCGCTGGTTGAACTCGCCGAATGTT
TATCAGAAGGTGGAGCTCCTGGAGACGGGCACCTCGGACCCGAAACGAATCACCAAGTGG
GTCCAAGACGGGTCGCCGGCACACTCGACGCCGGTCAAGATCGACACTCTACAATTCGTG
CCCAAAAATACCAATCCCAAGGAGTTCAAACAGCTTCAGCAGCAGATAAAAGAGAATCGC
CGCGCGGACAAGATCAGCGCCGGGCCGCAGTCGCACATACTGGAGGGGGTGGCCAGGGAC
GAGGCGCGCCTGCTGCCCGAGGACGCGGCCGGCACGCACACCGGCGACCATGTGATCTTG
ATGGGAGCGGCGTCGAAGGGCATCATACAGCGAGGATATCAGCACAACGCGACCATGTAC
AGCGCGCCCTACGCCAGGAACCCCTTCGACCATGTCACGGACACCGACATAGACGAGTAC
AAGCGGGTGGTGGAGAGGAAACAGCGCGGCCAGGAGTACGACACGGACATATCAGAGTCG
GAGGCTCTCAGCGCGCCGCAGCGCTCCGCCCCCGACACCGAGGACGAGTCGCGAGAAGAA
CAACGCGTGCTGAGAATAGAGACGAAGCAGGTCCCCGTGATGAGCCAGCCGGAGGTTGTG
CTGAGTGATGACCCGTCAGATTTCTTGAATGCCGAACGCGACCACGCCGATCGGACCAGA
GCGTCCCGTGACCCGTACCTCCTGTCTGATGACGAGGTGTTCCTGCCGGCGGAACCAAAG
AAAATTGTGATCGTCAGTAGGACCACGACTAGCCTTAGCACTGTCGCCAGAGGTTCAAGG
GATATCAGAACGCACGAGGCCCTATCATCCCACAAGCGCTCCCTGCACAAATACTCCCGG
GCTCCCGGCTTTGACTGCACCGTACAGAAATATAACACAATACCCAAATGTAAAACCAGC
CTTCACCATAAACTAGCCATGTCCAATTACGTGTCGTGTAATACGGACAGCGTGGGCAGT
CGGTCCAGTCTGATATCGATACCGTCGATCGATTTAGATCGATGTAAAATCGATTCCTCA
TCTCGGAATCGATCCACATCGAAATGCAGTAACTTGTATCGGACGAATTCACACAGCGGC
TTCATTAATTCGTATATAAAAGACCCGGAACCGACTCATTACCATTTGCCCAAGTGTTAC
TCTTGTGGGAGCATTGCCTACTCTTATCCGAGGTATTCGGGTGACGCTGTGAGGTATTTC
TCGTGTGATAACATAGCTAGTAGAGCTTCAAATGATAAAGATGACAGACCTTTAAAGGTC
AAAGTTAAAGAAGACACAGTACCCGTGTTCAAAGTGACGAACCAGGAGTTCGTTGATAGT
CAGGAATTTAACGAGGATAATTATTTAGGTGACATCGGACACAGCTTCTCGTCAGAGAAA
CGGACGGTTGTTGAGGAAATGACGAATGCCAGTAGAATGGAATCCAACTTAGACGAGTTT
AAGAATGACGCGAAGGAAAAAGATAGAGATGATATATATCGAGCCGTGTACGTTAAAGTA
GACGAGGAGGCTGGTTCGGCTGAAGGAGAATATCACAGTTTTATAGACGATATGGACTTT
GAAGAGGCCGTGTACGACAGTCCGGTGAAAGCTCTCGTTGACAAAGACATTAGAGACTAT
TCAGTGCCGATAGACTTCTACTGTGAGGACTATAATAGAAACGAGACGAGGAAACAGTCG
CCAATGAAGGTGATAGAACACGCGGTGCAGACTGTCTTAGAGCCGATCCTAGAGGAGTCT
AAGAGCTCGTCTGACTCGTGCAGCGAAAGCAACAAGACTGTCATATATAACGAAATCGGC
TTCAGAGAACGCGTTGAGGGAAATCCAAATGGAACGAATGACGGGAGAATTTCGGGAAAC
GAATTAGAAAGAGAAAATTTAGCGCAACCCGAAAGTTATGTTACAACTAATGAAAATGAT
GACACAAACAAAAAAGCGCGAAACTTTGAGGAAGAAAGCAAGGGAGAGAAGAGAACCAGC
TCCCTGAGCGGCGGAAGTTCCATGACCGTGCCTAGCCTAGATTCAACGGTGGAGTTTGAA
AAATACGAAGTAATAGCTGACGTGATCAGCGTGATGTTGAAAAGATTTGAAGTTCAGGTC
CAAGAGGAGTACAACAAACAAACCAACGACCAAACTCGCGTTGACTTACGATCAGGTGAC
GATAACGACGAAGACGATAAAGATGCCTTCTCTATCACGGAAATGGTTCTGGATTATGAG
AAGAATTTAAGCTACAATAACACAGAGCTGAGCGAGAGCAGCGAGACCGAGGCGAGTTAC
CCACAGAGAATCGTTGAAGCTGTGGTCTACTTCATATTCGACAGGGCCGTTTACTGTTGT
GACAGAAAAAATAAGAAGAGAGGTACCACGAAGAGGGTTGTCACCGTGGTGGACTGCGAG
GACATTATATATACGACTTCTGATAAGATACTCCTCTTAAACGATACTTCTACCACGGAT
GTACCGAATGAAGACAGTTCCGGGCTGAGAGCTGTGGATGAAGTCCCAGTGTGTGATGAT
GATGCTAAAATGGGTTTTTTAAGTGAGAGTAGCCAGGACCCTGACTGCAGCCGTGACAGT
GTGCTTCATAACGAGGTGACACCGAATTCCACGTTCGTCACCGACAGTGCGGACGTGTCG
TTCACGTACTACAGCCAGACGGACGTACATGCTGGGATTGTAGACGATTTATTGGAGAGG
TCGTTAAGAACATACGAGATCCCGAAGAATTCGAGCGAAAGTTTTGTTGCTGATGGCGAA
GTCATGAATACGGCGTTTGTCGATTCCGATTTCTACGACAGATCGTCCTCTCCCCTGAGG
AAGGTGTTCGAGGTGTGTACGGAGTCCCCCATCAGGAGGACAGGGTCCAGCCCAAACGAG
TCCGTCTGTGACGCGGACTCGCCGTTTGTGAAGAAAATTAACGTAATATCGATGTCCCAG
ACGGTGCACAGCGGCGGCATCAAGTACTGGCTGTCCTTCGACGACAATTTAATTATCGAG
AAGCCTTCACCGAAGTCGACCAAAAAATTCTCTGACAACAAGACACCCAGCTTCCTGGTT
GTGGATTACGATAGGAAGACTGACTTCGTTGAAAAATGTTCCAGCATATTGACGGACAGC
AGGTGTTTAGACGAAGCCGACGCCAGCACCTCCAATTACAACACCTGCGAGAGTTCAAGG
TTCGATTCCACCACCGAAAAGTATATCTACAGTTCCAGGTCCAGGAGCAATAAAATACTG
CACTCCACCTGGCCACCGTACGACGACACGCTGTTCTATAGAATCATATCTAAGTTCAGG
CTCACGGAGAGTTTCGATTTCAATCAGCTGCAAAAGAGATGCGGCAGCTTCTGA
Protein sequence:
MADTDTETLPNGNATLSAEEEERLRQRPADIDADVREMERRKRVEAIMSSKMFREELERV
LDQQANEGNDAPLLQRIREMVGGRLGAGSMRGPSCMLPINDIRGIEGVGYEKGEKILRCK
LASVYRLVDLFGWTQSGISGQITARLNTAVEQVLTTPRGLLPHEVTASSLVKLDMQGAVQ
DQGTTNFPVNVEGFSLHASVHAARPDLRCVLHVRSAAALAVSASKRRLMPLCGEAALDPL
QRIVRVPGGVLDNAERDKLVRALGPHSKVLVLAGGGALCCGETLEEAFYHARMLTAACDV
QLRLVSIPQDDLLLIDEDTRRQMYEASRKPPSDSSKWRIGGEEFEALMRMMDNAGYRTGH
VYRHPLIKNDVPKPKSDVEVPPAVSSLGYLLEEEELYKQGLWKKGGKSGERTRWLNSPNV
YQKVELLETGTSDPKRITKWVQDGSPAHSTPVKIDTLQFVPKNTNPKEFKQLQQQIKENR
RADKISAGPQSHILEGVARDEARLLPEDAAGTHTGDHVILMGAASKGIIQRGYQHNATMY
SAPYARNPFDHVTDTDIDEYKRVVERKQRGQEYDTDISESEALSAPQRSAPDTEDESREE
QRVLRIETKQVPVMSQPEVVLSDDPSDFLNAERDHADRTRASRDPYLLSDDEVFLPAEPK
KIVIVSRTTTSLSTVARGSRDIRTHEALSSHKRSLHKYSRAPGFDCTVQKYNTIPKCKTS
LHHKLAMSNYVSCNTDSVGSRSSLISIPSIDLDRCKIDSSSRNRSTSKCSNLYRTNSHSG
FINSYIKDPEPTHYHLPKCYSCGSIAYSYPRYSGDAVRYFSCDNIASRASNDKDDRPLKV
KVKEDTVPVFKVTNQEFVDSQEFNEDNYLGDIGHSFSSEKRTVVEEMTNASRMESNLDEF
KNDAKEKDRDDIYRAVYVKVDEEAGSAEGEYHSFIDDMDFEEAVYDSPVKALVDKDIRDY
SVPIDFYCEDYNRNETRKQSPMKVIEHAVQTVLEPILEESKSSSDSCSESNKTVIYNEIG
FRERVEGNPNGTNDGRISGNELERENLAQPESYVTTNENDDTNKKARNFEEESKGEKRTS
SLSGGSSMTVPSLDSTVEFEKYEVIADVISVMLKRFEVQVQEEYNKQTNDQTRVDLRSGD
DNDEDDKDAFSITEMVLDYEKNLSYNNTELSESSETEASYPQRIVEAVVYFIFDRAVYCC
DRKNKKRGTTKRVVTVVDCEDIIYTTSDKILLLNDTSTTDVPNEDSSGLRAVDEVPVCDD
DAKMGFLSESSQDPDCSRDSVLHNEVTPNSTFVTDSADVSFTYYSQTDVHAGIVDDLLER
SLRTYEIPKNSSESFVADGEVMNTAFVDSDFYDRSSSPLRKVFEVCTESPIRRTGSSPNE
SVCDADSPFVKKINVISMSQTVHSGGIKYWLSFDDNLIIEKPSPKSTKKFSDNKTPSFLV
VDYDRKTDFVEKCSSILTDSRCLDEADASTSNYNTCESSRFDSTTEKYIYSSRSRSNKIL
HSTWPPYDDTLFYRIISKFRLTESFDFNQLQKRCGSF