| New model in OGS2.0 | DPOGS201376 |
|---|---|
| Genomic Position | scaffold13:- 3676-20259 |
| See gene structure | |
| CDS Length | 4836 |
| Paired RNAseq reads | 1713 |
| Single RNAseq reads | 3983 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA000698 (0.0) |
| Best Drosophila hit | bluestreak (0.0) |
| Best Human hit | neuralized-like protein 4 isoform 1 (0.0) |
| Best NR hit (blastp) | PREDICTED: similar to ENSANGP00000008696 [Nasonia vitripennis] (0.0) |
| Best NR hit (blastx) | bluestreak [Tribolium castaneum] (0.0) |
| GeneOntology terms | GO:0007317 regulation of pole plasm oskar mRNA localization GO:0045451 pole plasm oskar mRNA localization GO:0008103 oocyte microtubule cytoskeleton polarization GO:0008104 protein localization |
| InterPro families | IPR006573 NEUZ IPR008985 Concanavalin A-like lectin/glucanase |
| Orthology group | MCL15540 |
Nucleotide sequence:
ATGAGGTTTCACAGACGATGTGGTGACAGAGTCACTTTACTCCATGACAATACAACTGCT
GTAAGGAATTTTTTAGAATTTAATCATGGTCTCATTCTAAGTGCAGAACCCATTTTAGAT
GATGTTTTGTTTGAAGTTTGCATCGATAGAAAGGTTAATGTTTGGAATGGAAGTCTCGAA
ATTGGAGTTACCACCTTGGACCCCGAGTTTATGGAACTACCTGCCACTGCTACTAAACTT
CGTAATACTGCATGGATTATGTCCGGAAGCTCAATCGTCAAAGATGGAATAACTTTGGTA
AATTCATATGGTCCTGAACTAGACACACTTAGAGAAGGAGATACTCTTGGTGTTATGAGA
TCTTGTAAGGGGGAGCTGTTTTTTTATATAAATGGTAGATGCCTAGGTGTGGCTGCTTGT
GATCTACCCCCAAGATTGTTTGCTGTCATTGATTTGTACGGACAGTGTGTGCAAGTATCA
ATAATTCACACAACTGGTATGAGAACAATAATGGAGAGTAGTATGGATCAGATTGAGGAA
GATCCAAACAATGATGATACATTAACACCTACTGAAGAAGCCAGTGCTGTACCGGAATCA
TCAACATCCAAGGAGCAACAGGAAGTCTATATTTCAATGCCTGATTCGTCATCCATCTTA
GCTTCTCATGATCGTCTACGTTTCCATCCTAGATGTGGAATTTTAGTCAAACTTTCTTCT
AATAACAAGACTGCGGAGAGAGCTCGACCATTAGACGATTACAACAACGGCGTCGTTATG
ACGCACCGGCCGCTATACGACAACGAGCTTTTTGAGATTCGTATAGACAGACTGGTGGAC
AAGTGGAGTGGCAGTATAGAGGTCGGCGTGACAACCCACAACCCGGCAACCATTCGCTTC
CCGTCAACTATGACGAACATCGACACCGGCACTATTATGATGTCGGGTTGCAAGGTGTTG
CTCAATGGACATGGGACATGTATGGAATATGGGAACTTCAATCTTGATGAACTTCGGGAA
GGTGACACAGTGGGTATGCTGAGGAAGTCCACAGGCAAGCTGCACTACTTCATTAATGGT
ATAGATCAAGGTGTAGCGACCGACAAAGTGGAGCAGCAAGTATGGGGCGTCGTCGACTTG
TATGGCATGACAGTCAAGGTATCTATAGTGGATCCTTGTGAGGATATCGATAGTAATATC
AACAACATGCCCACTGTATCGACTGTACCCGATCTTCCTGCTCCTAGTAGATTCACACCG
AGGATAGATGAAGATAGCCTTTTATTTCATACGCTGCGTGATTCGTATGTTATTATTATT
AACGATGGTAAGACTGCTCATAGGCCTAATGCTTTCGAATACTTCAACAACGGCGTAGTG
ATGACGAACAGATCTCTACGAACCAACGAGTTGTTCCAAGTGCGACTCGATCTGGTGGTG
CCCAAATGGGCTGGAAGCATTGAGATAGGAGTCACGCAGCACACTTCTAATGATATTAAA
ATTCCATTTAAAATGAGCAATGCCAAATCAGGCACTTGGGTCATGTCCGGTGAAGACGTT
ATACAGGACGCGATGATTATTATACCAAAATACGTCAGAAATCTGAATAGATTAGTGGAA
GGGGACACTGTAGGAGTGATGCGAAAAGATATGGGCATTCTACATTTTTTTGTGAATGGG
GTCGATCAGGGGCCTGCTGCTTTTAATATACCAGAACACGTTTTTGGGATCATTGATTTG
TACGGTCGTGTGGCTCAGGCTACAATAGTGGATTGCTATTCACCACCGACCACCTACTCG
CCCGACTCGCCTATTTCAACGGAGTCCAATGCAACGATTTATCCCGAGATGTGTTTCCAT
CGCGTGCACGGTCGCAACGCTCGTCTGAGTCGCAGTCGCCTGACAGCGTCAAGGGCGGCG
GTATACTCGGAGTTCAACGACGCGGTGCTGTTCAGTTCGCGGCCGCTGAGAGAGTGCGAC
ATGTTCGAACTCAGGATTGACTCGATGGTGGACTGTTGGATCGGCAGTTTGGAGATAGGC
GTAACAGCAATCCGGCCGGACGATCTAGAAGCGAATGGTTTAGCTGGTACGGCGACAGAT
CTTAACTGGGATACGTACATACTGAGCGGTGCTGCTATGATGAAGGATGGGGAGTGTGTT
CGTAGCGGGTACCCTCTAGATTTGGATACATTGACTGTAGGCAGTAGAGTTGGTATGATG
TGGCATGCGGACCGCAGTCTGCACTACTACTTGGACGGTATGGACATGGGCAAGGCTTGG
TACGTGCCACATCTCAATATATACGCCGTGGTAGATCTTTATGGCCAATGTACTCAGGTG
ACTATTCTACAAAATGAAGAAAGAGCGTTCAATTATAACGGCTGCACAAATTCTGACAAT
TCGATCTTGAGCAACTCAAGAGCAGTGACGTCACCGCCTCCACCTTATTGGAGCTTCTCT
GAATACTACGGCGACAATATCTGCATGTTGAATGATTACTCCATCGCGTGGCGTCACTTG
CCTGATCCCATGGCGGCGATAGTGTTCAGCTCCACACATCTTGCTATTAGCGAGATGTTT
GAGATAAAAATCGTGGAGTGCAAGTACGGTTTCGCTGGCAGCTTCCGTATGGGTGTAACT
GATATCAACATATTGAACGCACACGTCAACAGCAGTCTGCCGCCATCTGTCGCATGTCTA
CCACACTACACGGCCTATATCGATGGTAGGTATATAAGATATTCGAGGCCGGGGAGCCGT
CAGCAGGATCTCAAGGTGATGGTGCCGTCATTCGAGTGGCTAAGACCGGGGGATCGTATT
GGACTCAAGAAGACCACTGACAATAGAGTTCTCATTTACTACAACTGTGAACTGTTAGAG
GTCGCCTTCGAGAAAGTCCCCGATAAAGTATATGTGGTGATGGAAATCTACGGATCGGTG
TACAAGATACAAGCAGTGACGAGAGGGAATCCCGTAGCTGTTTTACCTCAGACGATCCCC
AACGATGTATGCCTGAAACCGGGAGCAGAGAAGTTAGAGCAGACGTCGAACTCAGAATCA
GAGACAAGTAGTGCGATGACCGTCGGGCCGGTTGAGAGAAGACGACGAGCCGCACTTCCA
TACACCTTCCACTATGTACACGGACGTAATATAAAACTATGTAGTTCAGATACAGTCGCT
ATGCGTGTATCGGGCTATCAGGACGCGGTCGCTATCGTCAGTCAGCCGCTGAGACGTGGT
CACAGATTCAGGTTCCGTGTGGACAAGATCGACTCCAGCTGGGACGGCAGTCTGGCCATC
GGTGGCGTAGCGTGTCTCCCCGACGGCGTGCCCGAGAGCGCCATGAGACTCGACCCGCCC
GTCTGGCTGCTGTCCAGTGATTTACACTACGATGGAAATAATCTTATAACCCATACAACG
TCTGAGCTAGAAGATATATGCGAACAGTCAGTGTTGACGCTCCACTTCCGGTTCAATAGC
GAGCTTGTGGTGGACATCGACGGCGTGGTCTTAGGAGTGGTCGGCTCAGTGCCTAGGACG
CATAGCCACGTCTACCCACTCATAGATTTATATGGAAAGGTTTGTCAGGTATCTGTACTT
TTACACCCGTACACCGTGGTATCCGGGACTTCCCTTGATTTACCTGTGATAGCGGAAAAT
CGTAGAGAAGAAGAATCTTTGGCAGAATTGAATCTAGAAACTTCACAAGACGACAGCGTT
CCTATTATTGAACGAGTGGATTTACAACGTCGTCGAAAAACTAAAGCATACAGCCAAGAT
AACCTTGTCGAAGTATTTGATCCCATTAACGTTGAGCCCGGGCCGTCTCACCCTAGACCG
ACTGTTCCCGACAATGAAATGAAAAATAAAGAAATTAAAAGTATTACTCCCGTTCGTACC
ATGCATCACAGTCTTATCCTCAATCATTCCAATGACAACAAGGATTTGTCATTTCGAACC
GTACAGAGAAGTCATTCTAGTCACGATTTTTGTCGCATGTCTGATTCAATGGACGTTAGA
GATGCTCTCCGGCTTACATTCATCACGGGCTGCCAGGACGACGATCATGAATTACATGAT
CAGTTCTGCGACACTAATATAAGACACAATGATCGCTACCCAGAAGCGAATGATGTTGAT
AATCTAGATAATGAAATTATGGATGCATTAACACTGGAAACGGGCAACTTGCCAGATTTA
ACCGAAGAGCAATCATCATCGATAGACGAATCCACTCGTCGCGATGATTTATATTCGGAG
CCATTGTCTATTGAGAATTTAAACTATTTGAATCGTATATTATGTTTGGATCAGGACGGT
TTCGAGGGGCAGAGTCTGGAGAGCGAATGGGAAGCTTTTGGTGAAGGTTGTGAGCATCTA
CATTTAGTATTGAAGTACTGGAATTACCTTGTTCTACCTTATCCGGAATTGCGTCAGGCA
GTCTCTTGGGGTCAAGTCCGATGTTATTGCAGCAACTGCCAGCCTGATGCCCAGCCCCCA
CTAGCTGGGTGGGTTCGTATAGAGCGTATAGACGGAGTTGGTGCGGCCACACGAGGCTGG
TGGCACGTGACGCGAAGTACGCTCGGCGCGGCTCAGGCTCACCGCAACGACGTCAACCCG
GCTAAGAGACCGCGAGCACTCGCTCCAGCACCGACCAGCGGATCACTTGGTGACATATGG
CTGGATGAAGAAGGGAAACCTCATCATACGATATTGGCTATAGAAATTGACATCGAAGGA
AATGAAGCTGAGAAAGATCGACTTTTAGCTTTCTTAATCCACATGAAGTCACATGCAGTT
TTCGTCGATGATAATCCTTCTAGTATAGATGAATAA
Protein sequence:
MRFHRRCGDRVTLLHDNTTAVRNFLEFNHGLILSAEPILDDVLFEVCIDRKVNVWNGSLE
IGVTTLDPEFMELPATATKLRNTAWIMSGSSIVKDGITLVNSYGPELDTLREGDTLGVMR
SCKGELFFYINGRCLGVAACDLPPRLFAVIDLYGQCVQVSIIHTTGMRTIMESSMDQIEE
DPNNDDTLTPTEEASAVPESSTSKEQQEVYISMPDSSSILASHDRLRFHPRCGILVKLSS
NNKTAERARPLDDYNNGVVMTHRPLYDNELFEIRIDRLVDKWSGSIEVGVTTHNPATIRF
PSTMTNIDTGTIMMSGCKVLLNGHGTCMEYGNFNLDELREGDTVGMLRKSTGKLHYFING
IDQGVATDKVEQQVWGVVDLYGMTVKVSIVDPCEDIDSNINNMPTVSTVPDLPAPSRFTP
RIDEDSLLFHTLRDSYVIIINDGKTAHRPNAFEYFNNGVVMTNRSLRTNELFQVRLDLVV
PKWAGSIEIGVTQHTSNDIKIPFKMSNAKSGTWVMSGEDVIQDAMIIIPKYVRNLNRLVE
GDTVGVMRKDMGILHFFVNGVDQGPAAFNIPEHVFGIIDLYGRVAQATIVDCYSPPTTYS
PDSPISTESNATIYPEMCFHRVHGRNARLSRSRLTASRAAVYSEFNDAVLFSSRPLRECD
MFELRIDSMVDCWIGSLEIGVTAIRPDDLEANGLAGTATDLNWDTYILSGAAMMKDGECV
RSGYPLDLDTLTVGSRVGMMWHADRSLHYYLDGMDMGKAWYVPHLNIYAVVDLYGQCTQV
TILQNEERAFNYNGCTNSDNSILSNSRAVTSPPPPYWSFSEYYGDNICMLNDYSIAWRHL
PDPMAAIVFSSTHLAISEMFEIKIVECKYGFAGSFRMGVTDINILNAHVNSSLPPSVACL
PHYTAYIDGRYIRYSRPGSRQQDLKVMVPSFEWLRPGDRIGLKKTTDNRVLIYYNCELLE
VAFEKVPDKVYVVMEIYGSVYKIQAVTRGNPVAVLPQTIPNDVCLKPGAEKLEQTSNSES
ETSSAMTVGPVERRRRAALPYTFHYVHGRNIKLCSSDTVAMRVSGYQDAVAIVSQPLRRG
HRFRFRVDKIDSSWDGSLAIGGVACLPDGVPESAMRLDPPVWLLSSDLHYDGNNLITHTT
SELEDICEQSVLTLHFRFNSELVVDIDGVVLGVVGSVPRTHSHVYPLIDLYGKVCQVSVL
LHPYTVVSGTSLDLPVIAENRREEESLAELNLETSQDDSVPIIERVDLQRRRKTKAYSQD
NLVEVFDPINVEPGPSHPRPTVPDNEMKNKEIKSITPVRTMHHSLILNHSNDNKDLSFRT
VQRSHSSHDFCRMSDSMDVRDALRLTFITGCQDDDHELHDQFCDTNIRHNDRYPEANDVD
NLDNEIMDALTLETGNLPDLTEEQSSSIDESTRRDDLYSEPLSIENLNYLNRILCLDQDG
FEGQSLESEWEAFGEGCEHLHLVLKYWNYLVLPYPELRQAVSWGQVRCYCSNCQPDAQPP
LAGWVRIERIDGVGAATRGWWHVTRSTLGAAQAHRNDVNPAKRPRALAPAPTSGSLGDIW
LDEEGKPHHTILAIEIDIEGNEAEKDRLLAFLIHMKSHAVFVDDNPSSIDE