| New model in OGS2.0 | DPOGS214042 |
|---|---|
| Genomic Position | scaffold2597:+ 424-18044 |
| See gene structure | |
| CDS Length | 6990 |
| Paired RNAseq reads | 35616 |
| Single RNAseq reads | 83367 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA012171 (2e-08) |
| Best Drosophila hit | beta spectrin (0.0) |
| Best Human hit | spectrin beta chain, brain 1 isoform 1 (0.0) |
| Best NR hit (blastp) | PREDICTED: similar to Spectrin beta chain [Apis mellifera] (0.0) |
| Best NR hit (blastx) | PREDICTED: similar to Spectrin beta chain [Apis mellifera] (0.0) |
| GeneOntology terms | GO:0045170 spectrosome GO:0045169 fusome GO:0005516 calmodulin binding GO:0051015 actin filament binding GO:0008091 spectrin GO:0007411 axon guidance GO:0003779 actin binding GO:0005886 plasma membrane GO:0007009 plasma membrane organization GO:0008017 microtubule binding GO:0008092 cytoskeletal protein binding GO:0030721 spectrosome organization GO:0045478 fusome organization GO:0007274 neuromuscular synaptic transmission GO:0016327 apicolateral plasma membrane GO:0005200 structural constituent of cytoskeleton GO:0050807 regulation of synapse organization GO:0042062 long-term strengthening of neuromuscular junction GO:0007026 negative regulation of microtubule depolymerization GO:0030424 axon GO:0016199 axon midline choice point recognition GO:0048790 maintenance of presynaptic active zone structure GO:0007409 axonogenesis GO:0005811 lipid particle GO:0031594 neuromuscular junction GO:0016328 lateral plasma membrane GO:0005546 phosphatidylinositol-4,5-bisphosphate binding |
| InterPro families | IPR002017 Spectrin repeat IPR001715 Calponin homology domain IPR001589 Actinin-type, actin-binding, conserved site IPR018159 Spectrin/alpha-actinin IPR016343 Spectrin, beta subunit |
| Orthology group | MCL10080 |
Nucleotide sequence:
ATGACGACCGACATCACGGTGTCCCGCTGGGACCCGTCCGTCCGCAGCGGACAGGAGATC
ATAGACGAGTACGATGGCGGCAATTCCTCATCAAGGCTATTCGAACGATCGCGTATTAAA
GCGCTCGCAGACGAACGAGAAAGTGTACAGAAGAAGACCTTTCAGAAATGGGTGAATTCT
CACCTGGTGCGTGTGGGATGTCGCATCAATGACCTGAATGTGGATATGAGGGATGGGAAA
ATGCTCATCAAACTGCTGGAAGTGCTGTCCGGGGAGAGATTGCCTCGCCCAACAAAAGGC
AAGATGCGAATCCATTGCCTTGAGAACGTCGATAAAGCTTTGCAGTTCCTGCGTGAACAG
AGAGTCCACCTCGAGAACATGGGCTCCCATGACATCGTCGACGGGAACGCCAGGCTCAAC
CTGGGTCTTATATGGACCATCATATTGAGATTCCAGATCCAAGATATTACCATCGAGGAA
ACAGACAACAAGGAGACCAAATCGGCAAAGGACGCGCTGCTGCTGTGGTGTCAGATGAAG
ACGGCTGGCTATAACAACGTGAACGTACGCAACTTCACCACGTCCTGGCGCGACGGACTC
GCCTTCAACGCCATCATACACAAACACAGACCCGAGCTGATACAGTTCGAGAAGCTGCAC
AGGAGCAATCACATACACAACTTGAACAACGCCTTCAACGTCGCCGAGGAAAAACTCGGA
CTGACCAAGCTTTTGGATGCCGAAGATATCGCGGTAGAGCATCCCGATGAGAGGTCTATC
ATAACGTACGTGGTGACGTACTACCACTACTTCAGTAAGCTGAAACAGGAGACGGTGCAA
GGGAAGCGTATCGGTAAGGTGGTGGGGATAGCCATGGAGAATGAGAAGATGGTGCAAGAA
TATGAATCCCTGACTAGTGATCTCCTCCAATGGATCGAGCGCACAATCGAAGCTCTGGGT
GACAGGACATTCGCCAACTCCCTGGAGGGAGTCCGCCAACAGCTCATACAGTTCGCCAAC
TACCGTACTGTCGAAAAACCACCTAAGTTCGTGGAGAAGGGTAACTTGGAGGTATTGTTA
TTCACGCTCCAGTCTCGCATGCGGGCTGCCAACCAGAAGCCTTACACTCCTCGCGAGGGG
AGAATGATCCACGACATCAACAGGGCCTGGGAGCGACTGGAGAAGGCTGAACACGAACGA
GAGCTGGCGCTCCGCGAGGAGCTCATACGACAGGAGAAGCTGGAACAACTGGCCGCCAGA
TTCAATCGTAAGGCTCAAATGCGTGAGACGTGGCTGTCTGAGAACCAACGTCTGGTGAGC
CAGGATAACTTCGGCTTCGATCTAGCGGCGGTGGAGGCGGCCGCCAAGAAACATGAAGCC
ATAGAGACAGACATCTTCGCTTACGAGGAGAGAGTCCAGGCTGTAGTGGCTGTGTGCTCT
GAACTGCAGGCTGAAAGATATCATGATATGGAACGTGTCTGCGCGCGTCGTGATAACGTC
CTTCGTCTGTGGGCCTACCTGCTGGAACTGCTGCGGGCGAGGCGCGCCAGACTCGAGCTG
TCACTCCAGCTGCAACAGAACTTCCAGGAGATGCTATACATCCTGGACTCCATGGAAGAG
ATCAAGATGCGTCTGTTGACCGACGACTACGGCAAACATCTCATGGGAGTAGAGGACTTG
TTGCAGAAACACGCCCTGGTCGAGGCAGACATCAACGTACTAGGGGAACGAGTCAAGGTG
GTGGTGGGTCAATCCCAGCGGTTCCTGGAGCAAGAGGAAGGCGGTTACCGTCCTTGCGAC
CCCGCTATCACTGTGGAGCGGATACAACAGCTGGAGAACGCGTACGCTGAGCTTGTACAT
CTCGCTGTGGAACGCAGGAAGCGTCTAGAAGACAGTCGCAAGCTGTGGCAGTTCTACTGG
GATATGGCTGATGAAGAGAACTGGATCAAGGAGAAGGAACAGATCGTATCCGTCGACGAC
ATCGGACACGACCTGTCCACTGTGTACCTGCTGGTGTCCAAACATAAAGCGCTTCAAGCG
GACGTCGAGGCCCACGAGTTGCAGCTGATGGATGCCGCAGCTGTTGGAGACGAACTGGTC
GGTCAAGGACACTTTGGAGCCGCTCGTATACAGGAACGTCTGCGAGATATTCTGTCTCAG
TGGAACCATCTCCTGGACGTGGTGCATCTTCGTAAGAACCGCTTGGACGCGGCGGTACGC
TATCATCAGCTTTTCGCGGACGCTGACGACATCGACTTCTGGATGTTGGATACTCTCAGA
CTCGTGTCGTCTGAGGATACCGGTGTGGATGAAGCGCAAGTACAGAGTCTGCTAAAGAAA
CACAAGGACGTCACTGACGAACTGAAGCACTACGCCAACGTTATACAACAGTTGAAGCAA
CAGGCGGCCGAGCTTAGTCCCGAGGATGCTAACAGCACCGAAGTCCAAGAACGTCTGGCC
GCCATAGACTCGCGACACGGCGAGATAGCTCGTCTGCGCAAGCAGCGCCTGCTAGACGCT
CTGTCGCTGTTCAAGCTGTTGGCCGAGGCTGATGCAGCGGATCAGTGGATCGCGGAGAAA
CACCGCATGCTGGATACCATGCTACCGCCCAAAGACATAGACGACGTGGAGATCATGAAG
CATAGGTACGACGGTTTTGACAAGGAGATGAACGCAAACGCGAGCCGCGTCGCGGTAGTG
AACCAGCTGGCTCGTCAGCTGGTACACGTGGAACACCCACAGGCGCCGCGGATACAGGAA
AGGCAACAGGCACTCAACACTGCCTGGAGCGCGCTCCGCGAGAAGGCCGAAGCCAAGAAG
GACGATTTGAAATCGGCACAGGGCGTGCAGACATTCTACATCGAATGTCGCGAGACTGTG
TCTTGGATCGAGGACAAGAAACGCATTCTGCAACAGACGGACAACTTGGAGATGGACCTT
AATGGTGTAATGACTCTCCAGCGTCGTCTGTCGGGTATGGAACGGGATTTGGCCGCCATA
CAGGCTCGCATCGCCTCCCTGGAGAGCGAGGCTTCAGCTATCGAGAACGAACATCCGGAG
GAAGCTCGGCTCATCAGAGACAGAGTACACGCCATCACTGACAACTGGGAAGATCTCACG
CAGATGCTCAAAGAGCGTGACTCTAAGCTGGAAGAGGCCGGTGACCTGCATCGCTTCCTT
CGCTCTGTGGATCACTTCCAGGCCTGGCTCACTAAGACGCAGACTGATGTTGCTTCCGAA
GATATACCAGCAAGCTTGCCGGAAGCGGAAAAGCTCTTGTCGCAGCATCAGACGATCAAG
GAAGAGATCGACAACTACAAAGACGAATACGCCAAGATGATGGAGTACGGAGAGAAAATT
ACAGCCGAACCGTCGACCCAGGACGATCCTCAGTATATGTTCCTTCGCGAGCGTCTGAAG
GCACTCCGCGAGGGCTGGGCCGAGTTACAACAGATGTGGGAGAACAGACAGCAGTTACTC
ACACAGTCCCTGGAACTACAGCTGTTGCAGCGGGACGCGAGACAGGCTGAGGTGTTGCTC
GCACACCAAGAGCACAGACTGGCTAAGACCGAACCGCCAGCAAACCTCGAACAAGCTGAA
AACATGATAAAAGAGAACGAAGCATTCCTTACTACTATGGAGGCGAACGACGACAAGATA
AACTCAGTGGTTCAGTTCGCTAACCGGCTCGTTGAAGAGAGGCACTTCGATGCCGACAAG
ATACAACGCAAGGCGGAGAGCATTCGTTCGAGACGCGATGCCAACAAGGAGAAGGCCTTA
CAGCAGATGGAGAAACTGCAAGACCAGCTGCAACTCCACCAGTTCCTGCAGGATTGTGAC
GAACTAGGTGAATGGGTGCAAGAGAAGAATGTCACCGCACAAGACGACACGTACCGCTCC
GCCAAGACCATCCATTCTAAGTGGACCCGCCATCAAGCTTTCGAAGCGGAAATCGCCGCC
AACAAGGAACGCCTCTTCGCCGTGCAGAACGCGGCCGAGGAACTCATGAAACAGAAGCCC
GAATTCGTTGAAGTGATTTCACCAAAAATGCACGAACTTCAAGATCAGTTCGAGAATCTG
CAGACGACTACGAAGGAGAAGGGCGAGCGGCTCTTCGACGCGAACCGCGAAGTGCTCCTC
CACCAGACGTGCGACGACATCGACTCCTGGATGAACGAGCTGGAGAAACAGATCGAGAAC
ACGGACACTGGCACTGATCTGGCATCTGTCAACATTCTGATGCAGAAGCAACAGATGATC
GAGACTCAGATGGCCGTTAAGGCGAAGCAGGTCACGGAGTTGGAGACCCAAGCCGAGTAC
CTCCAGAAGACGGTCCCCGACAAGATGGAGGAGATCAAGGAGAAGAAGAAGTCCGTGGAA
CAGAGATTCGAACAGCTCAAGGCGCCGCTTCTGGATCGCCAGAGGCAGCTCGCCAAGAAG
AAGGAAGCCTTCCAATTCCGTCGCGACGTAGAGGATGAGAAACTGTGGATTCACGAGAAA
CTACCGGTAGCTAGCAACACCGACTACGGCAACTCACTGTTCAACGTACAGATGCTACAG
AAGAAGAACCAGTCGCTGAAGACCGAAACAGACAACCACGAGCCCAGGATATTGACCGTC
ATCTCCAATGGACAGAAATTGATCGACGAGGGTCACGAAGATGCACCCGAATTCAAAAGT
CGTATTGAAGAACTCACCGCTCGTTGGCGAGAACTTAAAGATGCCATCGAACAACGTAAA
AACAACCTGTCCCAATGGGAGAAGGCTCAACAATATCTGTTCGACGCGAACGAAGCTGAG
GCGTGGATGAGCGAGCAGGAGCTGTACATGATGGTCGAGGATCGCGGAAAAGACGAGATA
TCGGCACAGAACCTGATGAAGAAGCACGAGATACTGGAACAGGCTGTGGATGACTACGCA
CAGACCATCAGACAGCTGGGAGAAACTGTGCGACAACTCACCAGCGAGGAACATCCGCTA
AGTGAGCAAATCTCTGTGAAGCAATCTCAAGTGGACAAGCTATACGCGGGTCTAAAGGAT
CTGGCCGGCGAGCGTCGCGCTAAGCTGGACGAAGCTCTGCGTCTCTTCCAGCTGTCGAGG
GAGGTCGACGACCTGGAGCAGTGGATCACAGAGAGGGAACTGGTCGCCAGCTCCCAGGAG
CTCGGCCAGGACTACGATCATGTCACGTTACTTTGGGAGAGATTCAAGGAGTTCGCTCGC
GAAACTCAAAGCGTTGGATCAGAAAGAGTCGGGACGGCGGAGAGGATCGCCGACCAGATG
ATCTTCATGGGACATTCAGACAACGCCACCATCGCCCAGTGGAAGGAGAGTCTGAGAGAG
ACCTGGCAGGATCTGCTGGAACTCATCGACACGAGGACACAGATGTTGGCCGCGTCCCGT
GAGCTACACAAGTACTTCCACGACTGCAAAGATACTCTCCAGCGTGTGAATGAGAAGGCG
CGCGGAGTGAGTGAGGAGCTGGGACGGGACGCAATCAGTGTGAGCGCGCTCCAGAGGAAA
CATCACAACTTCATGCAGGACCTGAGCACGCTACAGCAACAGGTGGAAGCCATAGAATCC
GAATGCAGCCGTCTCGGAGCTTCGTACGCTGGTGAGAAGGCGGCCGAGATAACCCGCCGT
GCCGGCGAGGTGGTGGAGGCGTGGCGGGCTCTGCAGGCGGCGTGCGGCGCGCGGCGGGAG
AAGCTCGAGGACGCTGACCAACTGTACCGGTTCATCAGCATGGTGCGAGACCTCACGCTG
TGGATGGACGACGTCGTGCGCTCCATGAACACCGGGGAGAAGCCGCGTGACGTAAGCGGC
GTGGAACTGCTCATGAACAACCACCAGTCCCTGAAGGCGGAGATCGAGACCAGGGAGGAC
AAGTTCACGGCCTGCATCAGTCTGGGACGAGAGCTACTGGCGCGGCAACACTACGCCTCG
CCCGACATCAGGGACAAACTGTTACAGCTCACCAACCAGAGAAACGCTCTGCTGAGGAGG
TGGGAGGAGCGCTGGGAGAACTTGCAACTCATTCTCGAGGTGTACCAGTTCGCCCGCGAC
GCAGCGGTGGCGGAGGCCTGGCTGATCGCTCAGGAGCCCTACCTCATGTCACAGGAACTG
GGACACACCATCGACGAGGTGGAGAGCCTCATCAAGAAACACGAAGCCTTCGAGAAGTCC
GCGGCCGCCCAAGAAGATCGCTTCTCAGCGCTGCAGAGGCTCACCACCCTTGAAACGAAA
GCGGGATCTCTATGGCCCAAAGAAAAACCGTGGGAAACCTACGACGAATCCTCTTTTACC
TATCAACCCCCCACTTGCGATAAAATAAAAAATCGCCCTCCAGCCTTAAAAATCACAGAC
GACCGCCCCGTCGCCGAAATAATATGCGAAATAGTGCACACGAATGATAAATATAAGCTG
CCAGAGAAATGTGGGTCGAAACGAGCACACGGCAGCCAAACCACCAAGCCGGCGGCCAAA
AACGACTCGTATCTGTGGACGGTTGTAAAGAACAGTCTGTCGACGATATCCGAGGACAGC
ACTCCACAGCGGTCGCCGCTAAAGACACCTCTATCACCAGAGATTTACAGTTCAATATTC
TTCGAATATAATTATGAGAATGAGAAAAGTGACGACAGATTGGCCTGCGTCGATTTGATA
CTATGGGAGAGACTCTCATACCTGGGAGTATATCCAAATGTGTCGCTACTGAGACGGCGC
AGCACTTCCTCGTCCAAGTCCGGCAGTAGAAAGAGTCTGTGGAAGAGATTGTCATGGAAA
AGAAAGTCCTGTGAAGGTGACAATAGCAGCGATATCGCCGTGCTGTCGCTACCCGGCCTG
ACGAGCAGCACGAGGGACATCAACGATCTCGGAAACGAAATTAAATCCATTCCATTAACA
TCTTCATTGCTTTTACTATCACAAACACGCAGCCTGTTGTTCCCAGAAGGTGACTGGTAC
TATAACTATATGGATAGTGTAAGTGTATAG
Protein sequence:
MTTDITVSRWDPSVRSGQEIIDEYDGGNSSSRLFERSRIKALADERESVQKKTFQKWVNS
HLVRVGCRINDLNVDMRDGKMLIKLLEVLSGERLPRPTKGKMRIHCLENVDKALQFLREQ
RVHLENMGSHDIVDGNARLNLGLIWTIILRFQIQDITIEETDNKETKSAKDALLLWCQMK
TAGYNNVNVRNFTTSWRDGLAFNAIIHKHRPELIQFEKLHRSNHIHNLNNAFNVAEEKLG
LTKLLDAEDIAVEHPDERSIITYVVTYYHYFSKLKQETVQGKRIGKVVGIAMENEKMVQE
YESLTSDLLQWIERTIEALGDRTFANSLEGVRQQLIQFANYRTVEKPPKFVEKGNLEVLL
FTLQSRMRAANQKPYTPREGRMIHDINRAWERLEKAEHERELALREELIRQEKLEQLAAR
FNRKAQMRETWLSENQRLVSQDNFGFDLAAVEAAAKKHEAIETDIFAYEERVQAVVAVCS
ELQAERYHDMERVCARRDNVLRLWAYLLELLRARRARLELSLQLQQNFQEMLYILDSMEE
IKMRLLTDDYGKHLMGVEDLLQKHALVEADINVLGERVKVVVGQSQRFLEQEEGGYRPCD
PAITVERIQQLENAYAELVHLAVERRKRLEDSRKLWQFYWDMADEENWIKEKEQIVSVDD
IGHDLSTVYLLVSKHKALQADVEAHELQLMDAAAVGDELVGQGHFGAARIQERLRDILSQ
WNHLLDVVHLRKNRLDAAVRYHQLFADADDIDFWMLDTLRLVSSEDTGVDEAQVQSLLKK
HKDVTDELKHYANVIQQLKQQAAELSPEDANSTEVQERLAAIDSRHGEIARLRKQRLLDA
LSLFKLLAEADAADQWIAEKHRMLDTMLPPKDIDDVEIMKHRYDGFDKEMNANASRVAVV
NQLARQLVHVEHPQAPRIQERQQALNTAWSALREKAEAKKDDLKSAQGVQTFYIECRETV
SWIEDKKRILQQTDNLEMDLNGVMTLQRRLSGMERDLAAIQARIASLESEASAIENEHPE
EARLIRDRVHAITDNWEDLTQMLKERDSKLEEAGDLHRFLRSVDHFQAWLTKTQTDVASE
DIPASLPEAEKLLSQHQTIKEEIDNYKDEYAKMMEYGEKITAEPSTQDDPQYMFLRERLK
ALREGWAELQQMWENRQQLLTQSLELQLLQRDARQAEVLLAHQEHRLAKTEPPANLEQAE
NMIKENEAFLTTMEANDDKINSVVQFANRLVEERHFDADKIQRKAESIRSRRDANKEKAL
QQMEKLQDQLQLHQFLQDCDELGEWVQEKNVTAQDDTYRSAKTIHSKWTRHQAFEAEIAA
NKERLFAVQNAAEELMKQKPEFVEVISPKMHELQDQFENLQTTTKEKGERLFDANREVLL
HQTCDDIDSWMNELEKQIENTDTGTDLASVNILMQKQQMIETQMAVKAKQVTELETQAEY
LQKTVPDKMEEIKEKKKSVEQRFEQLKAPLLDRQRQLAKKKEAFQFRRDVEDEKLWIHEK
LPVASNTDYGNSLFNVQMLQKKNQSLKTETDNHEPRILTVISNGQKLIDEGHEDAPEFKS
RIEELTARWRELKDAIEQRKNNLSQWEKAQQYLFDANEAEAWMSEQELYMMVEDRGKDEI
SAQNLMKKHEILEQAVDDYAQTIRQLGETVRQLTSEEHPLSEQISVKQSQVDKLYAGLKD
LAGERRAKLDEALRLFQLSREVDDLEQWITERELVASSQELGQDYDHVTLLWERFKEFAR
ETQSVGSERVGTAERIADQMIFMGHSDNATIAQWKESLRETWQDLLELIDTRTQMLAASR
ELHKYFHDCKDTLQRVNEKARGVSEELGRDAISVSALQRKHHNFMQDLSTLQQQVEAIES
ECSRLGASYAGEKAAEITRRAGEVVEAWRALQAACGARREKLEDADQLYRFISMVRDLTL
WMDDVVRSMNTGEKPRDVSGVELLMNNHQSLKAEIETREDKFTACISLGRELLARQHYAS
PDIRDKLLQLTNQRNALLRRWEERWENLQLILEVYQFARDAAVAEAWLIAQEPYLMSQEL
GHTIDEVESLIKKHEAFEKSAAAQEDRFSALQRLTTLETKAGSLWPKEKPWETYDESSFT
YQPPTCDKIKNRPPALKITDDRPVAEIICEIVHTNDKYKLPEKCGSKRAHGSQTTKPAAK
NDSYLWTVVKNSLSTISEDSTPQRSPLKTPLSPEIYSSIFFEYNYENEKSDDRLACVDLI
LWERLSYLGVYPNVSLLRRRSTSSSKSGSRKSLWKRLSWKRKSCEGDNSSDIAVLSLPGL
TSSTRDINDLGNEIKSIPLTSSLLLLSQTRSLLFPEGDWYYNYMDSVSV