| New model in OGS2.0 | DPOGS204432 |
|---|---|
| Genomic Position | scaffold459:- 16108-35734 |
| See gene structure | |
| CDS Length | 4323 |
| Paired RNAseq reads | 1794 |
| Single RNAseq reads | 4788 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA013431 (1e-83) |
| Best Drosophila hit | CG42330, isoform E (3e-16) |
| Best Human hit | immunoglobulin superfamily DCC subclass member 3 precursor (8e-21) |
| Best NR hit (blastp) | PREDICTED: similar to rCG56583 [Nasonia vitripennis] (2e-39) |
| Best NR hit (blastx) | PREDICTED: similar to rCG56583 [Nasonia vitripennis] (3e-39) |
| GeneOntology terms | GO:0050885 neuromuscular process controlling balance GO:0016020 membrane GO:0005887 integral to plasma membrane |
| InterPro families | IPR008957 Fibronectin type III domain IPR003598 Immunoglobulin subtype 2 IPR003599 Immunoglobulin subtype IPR003596 Immunoglobulin V-set, subgroup IPR003961 Fibronectin, type III IPR007110 Immunoglobulin-like IPR013783 Immunoglobulin-like fold IPR013098 Immunoglobulin I-set |
| Orthology group | MCL15951 |
Nucleotide sequence:
ATGAGACGAGGCGCTGGGTCGTTGGCTGTATATTTTATTAATTATCTTCCAATAACATGG
TCTGGGGGGCGTGTGTCGCTGCCGTGCGTGGTGGCTGGTCAGCTCCAACCTCGACGTACC
CTGCCACTGGACGACGACTCCGCCAGGCCCAAGCCTTACATCTGGATGCGGGATGGAGAA
GTTATCAACACTAAACGCATCTCTCAGAATGGCACTCTGGAGGTGAGCCGTAAGGGCGGC
GGCAGTGAAGGCGTCTACCAGTGTGGTGTCGCTCATCATGGCGGCCTTGTTTTGGGCTAC
CCAGACATACGAAGACTGAACACGAAGAATCCTGCATGGAAGCCGTCCACTGATCGTGTC
ACATTTCCAGATATGGATAAGCAATTCTCATCTCAACCAGAGGATGTGAAGGCCGGTCTG
GGCCAACCCCTGTCGATTCGCTGCCTCATTGGCTCAGGACCGACAGCTTCTACAGCATGG
ACTCGCAACGGAGTCGGTCTCCCAACAACTAACAGATGCACAGCTACAAACTCCTTTCTA
AACAGAAGCCGGATAAGTCACGAAGGTCTCGTGACGGTGGAAGACTCTCTAGCCAGTGAT
CCAGCCTTCCTGAGGATACACACAGAGTATAAAATAGCTGTGAACAGGGGGAGTAGAGTG
CTGTTGGCTTGTCCAGTGTTGGGCTGGCCGAGACCTCAGTTGATATGGGAACTGACTCCG
CCGGGGGGCAGTCCCATCGAGCTGAAGAACAGAGAGGAGGTCCTGGTTCTGACGAAGTTG
GAGTACGACCAGGAGGGTGTCTACACCTGCCTGGTGGAAGGTCGGAGTGAGTTGACTAAG
TCGTTCTCGGTGTCCATCACGGAGCCGGTGCGGATCACGCTGCCTCCACAGTCCAAGGAG
GTGATGAGGGCCAGCACCGTCAGGTTCAACTGCACCGCGGCAGGCAGGCCTGCGCCCACC
GTGCACTGGTACAAGGACGGAAAGAGACTCGCTCTGGCTGGACGGATCAATCTCCGTAAG
TCCGCCGACAGGAGCCGCATCGAGCTGGTCATCAGCGGAGTGACCTCCAACGACGCGGGG
AACTACCAGTGTTTCGCCCAGTCCGGCGAGTCGTGGGCGTCATGGTGGGCGCGATTGGAG
GTGTCGGGGACGGGTGCGGCGGCCCCGGCGGCCGTGTGGTGCGCCCCCGCGGCCGTGGCG
GCGGTCGCTCTCAGCTGGACCCCTCCCAATACCACCGTCCTGGCATACACCGTGGACACC
ACCTCCACGGACAAAGACGGTGTGGCGATGATCGGTCAACCGACCAACTACACGGAGGAC
ATTGTGAAGGTCAAGGAACCCCTGACTCCGTACGTGTTCCAGGTAATGACAGTCAATATA
CCCTACTCCGATGCCTGTGATTCTCCTCGTGTGACGCGGTGTGTTGTTGCAGGTGCGAGC
CTACGTCAAGTCGGATCACAACAACAGGAACGTTGCCACGGACATGTCGGAGAGCGTCGT
GTGCCAAGGACAGGGAGTGCGTACGTTATGAATCCGCGATTCGCTCAAATGGTGACGAGT
TTTGGGAAGCCGTCCACTGATCGTGTCACATTTCCAGATATGGATAAGCAATTCTCATCT
CAACCAGAGGATGTGAAGGCCGGTCTGGGCCAACCCCTGTCGATCCGCTGCCTCATTGGC
TCAGGACCGACAGCTTCTACAGCATGGACTCGCAACGGAGTCGGTCTCCCAACAACTCAC
AGATATCATTTCCTAGAAAGTGAACTCTTAATTACCGATGTTCGTAGAGAAGATGGAGGC
TTATACAGATGCACAGCTACAAACTCCTTTCTAAACAGAAGCCGGATAAGTCACGAAGGT
CTCGTGACGGTGGAAGACTCTCTAGCCAGTGATCCAGCCTTCCTGAGGATACACACAGAG
TATAAAATAGCTGTGAACAGGGGGAGTAGAGTGCTGTTGGCTTGTCCAGTGTTGGGCTGG
CCGAGACCTCAGTTGATATGGGAACTGACTCCGCCGGGGGGCAGTCCCATCGAGCTGAAG
AACAGAGAGGAGGTCCTGGTTCTGACGAAGTTGGAGTACGACCAGGAGGGTGTCTACACC
TGCCTGGTGGAAGGTCGGAGTGAGTTGACTAAGTCGTTCTCGGTGTCCATCACGGAGCCG
GTGCGGATCACGCTGCCTCCACAGTCCAAGGAGGTGATGAGGGCCAGTACCGTCAGGTTC
AACTGCACCGCGGCAGGCAGGCCTGCGCCCACCGTGCACTGGTACAAGGACGGCAAGAGA
CTCGCTCTGGCTGGACGGATCAATCTCCGTAAGTCCGCCGACAGGAGCCGCATCGAGCTG
GTCATCAGCGGAGTGACCTCCAACGACGCGGGGAACTACCAGTGTTTCGCCCAGTCCGGC
GAGTCGTGGGCGTCGTGGTGGGCGCGATTGGAGGTGTCGGGGACGGGTGCGGCGGCCCCG
GCGGCCGTGTGGTGCGCCCCCGCGGCCGTGGCGGCGGTCGCTCTCAGCTGGACCCCTCCC
AACACCACCGTCCTGGCATACACCGTGGACACCACCTCCACGGACAAAGACGGTGTGGCG
ATGATCGGTCAACCGACCAACTACACGGAGGACATTGTGAAGGTCAAGGAACCCCTGACT
CCGTACGTGTTCCAGGTGCGAGCCTACGTCAAGTCGGATCACAACAACAGGAACGTTGCC
ACGGACATGTCGGAGAGCGTCGTGTGCCAAGGACAGGGAGTGCCTATAACCCTCTCTAAG
TTGGAAGACGACAAGGTGCAGGTGTCGTGGAAGCAGTTCGCCGATGAGAACCCTGGCGTG
GTGCAGTGGATCCTGCAGTACCGACACCAGAACTATACCGACGACCAGCACAACGTGACC
CTGCCCGCACAAGTGACCAACTACACGCTAGCAGCTCCGGCGAGTTCCCCTCTCCTCGTG
AGGTTACTGGGGTCTAGATCGTTTGAGTGGCTCAAACAGAACCTGACCCTAGTGCCTTGG
ACCTCCACCACCACAGCTGGCCGCGACGAGGACGATGGGGAGGTGACGGTTATCCCCCAG
GACCTGGAGGTGTCCCAGGTGTCGGAGCGCGGGTTCACGGTCCACTGGCGCTGCGAGCAC
GAGTCGCACTACACGTACCTGGTGTGCGTCAGGGCGCACGGGAACGACGAGTGTCAGGAG
AGTTACAAAACCACCGCGACCATAGAAGGTCTTCAGCCGGACACCGAGTACGAGGTGCGA
GTGCAGGTTCGAGTCCCCGGACGAGCTCTGGGCGGCGCCTTCACCGCTCCTTACCATGTC
AGTACACTACCCGAAGGTCCTCACCGCTTCAAAGACATCACATACAAGTTTGTGAACTCG
ACTGCCCTCCGCGTGTCGTGGAGCGGCGACCCGTCCCGCTACACCGTGCGACACAGCGCG
CAACTCAAGCTGCCCGTGGAACAATGGGCGGCTGTGCACACCGTGGGGAACACAGTACTG
ATCACCGGCATCGACCCCACGGAGCAGACGTTCGTGATGGTGACCGGCTACGACCCGCTC
GACTACAGCCCCATACTGAACGTGCCGGCGCAGATAAAGGATTTAGAGGCTAAAGATCTA
AAGTACGTGTACACTCGGTCTGGCGTGTCGGTGTGGTGGAGCGGGGCTGGGCCGCGAGTG
GTGCGGTTCGCGCAGAACATAACACAACCGTTGGAGACCTGGAGCGTCGTTAACGTTACA
GACTCGAGGGTTGAGCTCAGCGTTCCTGACCCGTCGCAGCCATTGTTCGTGATGGTGACG
AGGGCGGGCGGCGCCAAGCGGCACCACGTGCTGACCATACCTCCTAAGCCCACCTCCTTC
TTCTACTACTATTTAGGAGCAGGCGTGGGCGGCGCGCTGTGTGTGTGTCTGTTGATTGCG
GGATTGGTCTTTGTGTGGAGAGTTAAAACGAGGCGAAACAGGTCGGTGAGAACTGTGACT
GCGTCAGGTGTCGAGGAGGAAGCTTCCGAGATGAGGGTGGCGCGAGTTGCTAAGCCGCCG
CGGCCCCTCCCGCTGCTCAATGGACACGTACACATCACAGAGAACCCCGCGTCCAAAACG
ACGAACATCAGATCCAAGAAGGCCCGCTGTGTGGAGAGCCCCGCCTACGACGCCTTCGAC
CTGTCAAGACACGAGGCCGACACGACCATGGAGACGGTGCTGGACGACACCGCCCCCTAC
AACCTGCTGGACACCTCGCGCCGCCCCGAGCAGCGTTCCTCTGCCGACCTCGCCGACACC
TCCTTCAACAAGCTGCCCGACGACAACATGAACTGCGAGCCCACCCTCCAGCCCAACGGA
TGA
Protein sequence:
MRRGAGSLAVYFINYLPITWSGGRVSLPCVVAGQLQPRRTLPLDDDSARPKPYIWMRDGE
VINTKRISQNGTLEVSRKGGGSEGVYQCGVAHHGGLVLGYPDIRRLNTKNPAWKPSTDRV
TFPDMDKQFSSQPEDVKAGLGQPLSIRCLIGSGPTASTAWTRNGVGLPTTNRCTATNSFL
NRSRISHEGLVTVEDSLASDPAFLRIHTEYKIAVNRGSRVLLACPVLGWPRPQLIWELTP
PGGSPIELKNREEVLVLTKLEYDQEGVYTCLVEGRSELTKSFSVSITEPVRITLPPQSKE
VMRASTVRFNCTAAGRPAPTVHWYKDGKRLALAGRINLRKSADRSRIELVISGVTSNDAG
NYQCFAQSGESWASWWARLEVSGTGAAAPAAVWCAPAAVAAVALSWTPPNTTVLAYTVDT
TSTDKDGVAMIGQPTNYTEDIVKVKEPLTPYVFQVMTVNIPYSDACDSPRVTRCVVAGAS
LRQVGSQQQERCHGHVGERRVPRTGSAYVMNPRFAQMVTSFGKPSTDRVTFPDMDKQFSS
QPEDVKAGLGQPLSIRCLIGSGPTASTAWTRNGVGLPTTHRYHFLESELLITDVRREDGG
LYRCTATNSFLNRSRISHEGLVTVEDSLASDPAFLRIHTEYKIAVNRGSRVLLACPVLGW
PRPQLIWELTPPGGSPIELKNREEVLVLTKLEYDQEGVYTCLVEGRSELTKSFSVSITEP
VRITLPPQSKEVMRASTVRFNCTAAGRPAPTVHWYKDGKRLALAGRINLRKSADRSRIEL
VISGVTSNDAGNYQCFAQSGESWASWWARLEVSGTGAAAPAAVWCAPAAVAAVALSWTPP
NTTVLAYTVDTTSTDKDGVAMIGQPTNYTEDIVKVKEPLTPYVFQVRAYVKSDHNNRNVA
TDMSESVVCQGQGVPITLSKLEDDKVQVSWKQFADENPGVVQWILQYRHQNYTDDQHNVT
LPAQVTNYTLAAPASSPLLVRLLGSRSFEWLKQNLTLVPWTSTTTAGRDEDDGEVTVIPQ
DLEVSQVSERGFTVHWRCEHESHYTYLVCVRAHGNDECQESYKTTATIEGLQPDTEYEVR
VQVRVPGRALGGAFTAPYHVSTLPEGPHRFKDITYKFVNSTALRVSWSGDPSRYTVRHSA
QLKLPVEQWAAVHTVGNTVLITGIDPTEQTFVMVTGYDPLDYSPILNVPAQIKDLEAKDL
KYVYTRSGVSVWWSGAGPRVVRFAQNITQPLETWSVVNVTDSRVELSVPDPSQPLFVMVT
RAGGAKRHHVLTIPPKPTSFFYYYLGAGVGGALCVCLLIAGLVFVWRVKTRRNRSVRTVT
ASGVEEEASEMRVARVAKPPRPLPLLNGHVHITENPASKTTNIRSKKARCVESPAYDAFD
LSRHEADTTMETVLDDTAPYNLLDTSRRPEQRSSADLADTSFNKLPDDNMNCEPTLQPNG