| New model in OGS2.0 | DPOGS206372 |
|---|---|
| Genomic Position | scaffold597:- 41235-63415 |
| See gene structure | |
| CDS Length | 3822 |
| Paired RNAseq reads | 11124 |
| Single RNAseq reads | 28434 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA014065 (3e-08) |
| Best Drosophila hit | neuroglian, isoform A (0.0) |
| Best Human hit | neuronal cell adhesion molecule isoform A precursor (1e-143) |
| Best NR hit (blastp) | neuroglian [Mythimna separata] (0.0) |
| Best NR hit (blastx) | neuroglian [Mythimna separata] (0.0) |
| GeneOntology terms | GO:0005886 plasma membrane GO:0007158 neuron cell-cell adhesion GO:0007560 imaginal disc morphogenesis GO:0005509 calcium ion binding GO:0016319 mushroom body development GO:0048036 central complex development GO:0007173 epidermal growth factor receptor signaling pathway GO:0016328 lateral plasma membrane GO:0005918 septate junction GO:0035151 regulation of tube size, open tracheal system GO:0007409 axonogenesis GO:0005919 pleated septate junction GO:0019991 septate junction assembly GO:0060857 establishment of glial blood-brain barrier GO:0050808 synapse organization GO:0008366 axon ensheathment GO:0021682 nerve maturation GO:0048813 dendrite morphogenesis GO:0048675 axon extension GO:0030175 filopodium GO:0035011 melanotic encapsulation of foreign target |
| InterPro families | IPR008957 Fibronectin type III domain IPR013098 Immunoglobulin I-set IPR003961 Fibronectin, type III IPR007110 Immunoglobulin-like IPR003599 Immunoglobulin subtype IPR003598 Immunoglobulin subtype 2 IPR013783 Immunoglobulin-like fold |
| Orthology group | MCL10439 |
Nucleotide sequence:
ATGAAGCACAGAAGCAACATGGAAACCAGTACAGTGATAATACTCTTCGCGATTTTGTCG
CAAACGACAGCGCTGCTGACATCACCACCGAGGATTGTGAAGCAGCCGACGGTTGAAGAA
TTGCTGTTCCAAGTGGCACAGCCGGGGGAGGTGGACAAGCCTTTCATCATCGAATGTGAA
GCCGAGGGAGAACCCGCACCCAAGTACAGATGGATCAAGAACGGCAAGTCGTTCGAGTAT
ACGAGTTACGATAACAGAATATCCCAGCAGCCTGGACGGGGCACGCTGGTGGTCAGTCAG
CCGAGGAACGAGGACTTGGGACAGTACCAGTGCTTCGCCTACAACGAGTGGGGCACGGCT
ACATCCAACTCGGTGTTCGTGAGGAAGGCGGAGTTGAACTCCTTCAAGGAGACGGACGGA
CCTCAGAAAACGATCACTGCTCAAGAAGGCCTACCGTTCAAACTGACCTGCGAACCGCCG
GACGGCCATCCAAGCCCTAACGTGTACTGGATGCTGCAAGGGGAACAGGGCCAGCTGAAG
ACTATCAACAATTCCCGAATGACCTTAGACCCCGAGGGCAACCTCTGGTTCTCGAACGTG
ACCAGGTTCGACGCGAGTGTGGACTACGCCTACACGTGCGCCGCTAAATCCGTGTTCAGG
AACGAGTATAAGCTCGGCAATAAAGTGTACTTGCAAGTTCAGCAGACTGGAATCTCACCG
ACGTCGAACAAACACCAGCCCGTGTTGCAATACGCGACCAGGAGGGTCGAGAAGGCTTGG
AGAGGGAAGAAGGTGGAGCTGTACTGCATATACGGCGGGACGCCGCTACCTCAAGTGGTG
TGGAAGAAAGAGGGTCGAACGATAATATCCTCGCAGCGGATAACTCAAGACAACTACGGC
AAGACGCTCGTCATCAAACGTGCCGGCTACGAGGACCAGGGGACGTACACCTGCGAAGTC
AGCAACGGAGTCGGAACAGCCGAGACCTACTCGATACAACTCAACGTTGAAGCGGCTCCG
TTCTTCATCGAGGAGCCCCAGTTCCAGAACCTGGCGGAGGGCGAGACGGCCGTCATCCAG
TGTAGGGCGGGCGGCACACCAGAGCCGACCATCTCGTGGGTCCACAACGGGAAGCCCATA
GAGCAGGCCGAGAACAACCCCCGCAGGCAGGTCACCGCCAACAGCATCACCATCACCGAC
CTCGTGAAGAAAGACACCGGCAACTACGGGTGTAACGCGACCAACTCGAACGGTTACGTC
TACAAGGACGTGTTCATCAACGTGCAGTCCATCCCTCCTGAGATCAAGGAGGGTCCGGAC
AACCTGACGGTGGTGGCGGGGTCCACGGCCGCTCTCAGGTGTCGCGTGTTCGGAGCACCC
CGACCCATCGTCAGGTGGATGAGAGACGACATCGACGTAACTGGCGGCAAATACAACATA
ACGAAGGAAGGTGACCTGGTGATAGCCGATGTTTCCTTCACCGACGTCGGCACGTACCAA
TGTTACGCCAAGAACAAGTTCGGAGAGAAGTCCGCCTTCGGATCGCTCACTGTTAAGAAA
CGCACAGTGATAACTGACAAACCCGAACCGTACGAGGTCGCGGCGGGGTCGTCGGCGACC
TTCAGGTGTAACGCGAACGCAGACGACTCCCTCAAGCTAGACATCATATGGCTGAACGAC
GGACAACCGATAGACTTCGACAACCAGCCGCGGTTCCGGATCACCAACGACTACTCGCTG
CTCATCTCCGACACCAGCGAGCTGGACTCCGGAGAGTACACCTGCATAGCGAAGACCGCC
ATCGACGAGGCGAGGGCCCAGGCCACGCTCACCGTACAAGATAAACCGAACCCCCCAGCT
CTAGAGGGCATCGAATGTCACGAGCGCACCGCGACTCTCCGCTGGCACTCGATGGGTGAC
AACCGCGCTCCCATCCTCCGGTACTCCATCCAGTATAACACGAGCTTCACGCCTCACGCC
TGGGACCTCGCCTCCGACAACGTCCCCGCCATCGACACCTCGTGGACGGTGCAGCTCAGC
CCCTGGGCCAATTATACGTTCAGGGTGACGGCGTCCAACAAGATCGGCGCCTCGGCTCCG
TCGTCTCACTCGGACGTGTGCACCACGCAACCAGACGTGCCTTACAAGAACCCTGACAAC
GTGGAGGGGAAGGGAACGGATCCTACCAACATGGTCATCACTTGGTCGAAAATGCCTCAA
ATCGAGCACAACGGTCCTGGATTTTACTATCTAGTGTCGTGGAAAAGGAACATTTCAGGG
GCGGCGTGGAGCGAGGAACAAGTGCGGGACTGGGCCACGACGGAGTACGTCATACCAAAC
ACACCCACCTTCAAACCTTACAAGATCAAGGTTATTGCTGTCAACTCGAAGGGAACATCA
AACGTCGCTCCGGTCGAGGTCATAGGTTGGTCGGGCGAGGACACTCCTCTACAGGCTCCC
ACTAACTTCACTTTAGTACAAGTCACCACTGGAACCACGGCTCTGCTGTCCTGGAACCCG
GTACCGGCCGAGTCGGTGAGGGGACACTTCAAGGGTTACAAGATACAGACCTGGATCGAC
GGCGAGGAGGACCGGCCCAAGGAAATCCTCATCAAAGCAGATGCCTCCAGCACACTGGTC
ACCAAATTCAAGCCCTTCAAGAAGAATAACGCTCGGATCCTCGTTTACAACGGAAGGTTC
AACGGACCGCCCAGCGAGACTCTCAGCTTCAACACACCAGAAGGCAAGCCCGGCACGGTG
CGATCCTTCGAAGCTTATCCAATAGGCTCCTCGGCCATGCTTTTAAAATGGGACAAACCT
TTAGACGAGAACGGTATTCTGACCGGGTACAAGATATACTACCAGAAGGTGACCGGCACG
GCGCTCGGGCCGCTGCAGGAGAGGAAGAAGGAGATCGATCCCAAGTTCGACCGCGCCAAG
CTGGCGGGGCTCGAGCCCAACACCAAGTACAGAATAGAGATACGGGCCAAGACGAAGGCC
GGGGAAGGGGACAAATATTACGTGGAGCAGACCACCAGGGCCATGGTCACGGCCGTGCCG
GACGTGCCGGTGTTCGAGACCAGCACTCTACCCGCCAAGGAAGGAACGGCGCACATACTG
GTCAGGTGGATACCTTCCCTGGAAGGACATGCGGGGACGCACTTCATCGCCTGGTATAGA
CTGAGGGGAAGACCCGACTGGCTGCAGAGCAACGAGGTCACAGAGGACGACTACGTCATA
CTGACGGGACTCGAACCCGGACTCGAGTACGAAGTCAAGGTCACCGCTCATGACGGAGAC
TACTACAGCACCAGCGACGTTAAGGTCGTCGACACAACCATCGACGGCCCCCACGTCCGC
CCACAAGAGGCGACGGCTACCGCGGGCTGGTTCATCGGCGTGATGGTGGCGCTCGCCTTC
CTGCTGCTGGTGCTGGTGCTGGTGTGCGTCGCGCGCCGCAACAGGGGCGGCAAGTACGAC
GTGCACGACAGGGAGCTCGCGCACGGGCGGGCCGACTGCCCCGACGCCGCCTTCCACGAG
TACACGCATCCATTGGACAACAAGTCGCGGCACTCCATGAGCAGCGGCACCAAGCCCGGC
CCCGAGAGCGACACGGACTCCATGGCGGAGTACGGCGAGGGCGAGACAGCGGGCATGAAC
GAGGACGGGTCCTTCATCGGTCAGTACGGCCGCAAGCGCCGCCCGCCGCCTGGTCGCTTC
ACCGAGGACGGTTCTTTCATCGGTCAGTACGTGCCTGGTGCGCGCGTGTTGGCTCCTCCC
CCTCCCGCGCCCGCGCCCGCCGCCCCGCCCACATACGTGTAG
Protein sequence:
MKHRSNMETSTVIILFAILSQTTALLTSPPRIVKQPTVEELLFQVAQPGEVDKPFIIECE
AEGEPAPKYRWIKNGKSFEYTSYDNRISQQPGRGTLVVSQPRNEDLGQYQCFAYNEWGTA
TSNSVFVRKAELNSFKETDGPQKTITAQEGLPFKLTCEPPDGHPSPNVYWMLQGEQGQLK
TINNSRMTLDPEGNLWFSNVTRFDASVDYAYTCAAKSVFRNEYKLGNKVYLQVQQTGISP
TSNKHQPVLQYATRRVEKAWRGKKVELYCIYGGTPLPQVVWKKEGRTIISSQRITQDNYG
KTLVIKRAGYEDQGTYTCEVSNGVGTAETYSIQLNVEAAPFFIEEPQFQNLAEGETAVIQ
CRAGGTPEPTISWVHNGKPIEQAENNPRRQVTANSITITDLVKKDTGNYGCNATNSNGYV
YKDVFINVQSIPPEIKEGPDNLTVVAGSTAALRCRVFGAPRPIVRWMRDDIDVTGGKYNI
TKEGDLVIADVSFTDVGTYQCYAKNKFGEKSAFGSLTVKKRTVITDKPEPYEVAAGSSAT
FRCNANADDSLKLDIIWLNDGQPIDFDNQPRFRITNDYSLLISDTSELDSGEYTCIAKTA
IDEARAQATLTVQDKPNPPALEGIECHERTATLRWHSMGDNRAPILRYSIQYNTSFTPHA
WDLASDNVPAIDTSWTVQLSPWANYTFRVTASNKIGASAPSSHSDVCTTQPDVPYKNPDN
VEGKGTDPTNMVITWSKMPQIEHNGPGFYYLVSWKRNISGAAWSEEQVRDWATTEYVIPN
TPTFKPYKIKVIAVNSKGTSNVAPVEVIGWSGEDTPLQAPTNFTLVQVTTGTTALLSWNP
VPAESVRGHFKGYKIQTWIDGEEDRPKEILIKADASSTLVTKFKPFKKNNARILVYNGRF
NGPPSETLSFNTPEGKPGTVRSFEAYPIGSSAMLLKWDKPLDENGILTGYKIYYQKVTGT
ALGPLQERKKEIDPKFDRAKLAGLEPNTKYRIEIRAKTKAGEGDKYYVEQTTRAMVTAVP
DVPVFETSTLPAKEGTAHILVRWIPSLEGHAGTHFIAWYRLRGRPDWLQSNEVTEDDYVI
LTGLEPGLEYEVKVTAHDGDYYSTSDVKVVDTTIDGPHVRPQEATATAGWFIGVMVALAF
LLLVLVLVCVARRNRGGKYDVHDRELAHGRADCPDAAFHEYTHPLDNKSRHSMSSGTKPG
PESDTDSMAEYGEGETAGMNEDGSFIGQYGRKRRPPPGRFTEDGSFIGQYVPGARVLAPP
PPAPAPAAPPTYV