| New model in OGS2.0 | DPOGS207309 |
|---|---|
| Genomic Position | scaffold55:+ 106358-119246 |
| See gene structure | |
| CDS Length | 5538 |
| Paired RNAseq reads | 541 |
| Single RNAseq reads | 1532 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA012092 (0.0) |
| Best Drosophila hit | axotactin (0.0) |
| Best Human hit | contactin-associated protein-like 5 precursor (1e-60) |
| Best NR hit (blastp) | conserved hypothetical protein [Pediculus humanus corporis] (0.0) |
| Best NR hit (blastx) | PREDICTED: similar to axotactin CG18296-PA [Apis mellifera] (0.0) |
| GeneOntology terms | GO:0008038 neuron recognition GO:0005576 extracellular region GO:0019226 transmission of nerve impulse GO:0004867 serine-type endopeptidase inhibitor activity GO:0005102 receptor binding GO:0007165 signal transduction |
| InterPro families | IPR008985 Concanavalin A-like lectin/glucanase IPR012680 Laminin G, subdomain 2 IPR006209 EGF IPR013320 Concanavalin A-like lectin/glucanase, subgroup IPR001791 Laminin G domain IPR001881 EGF-like calcium-binding IPR006210 Epidermal growth factor-like IPR000742 Epidermal growth factor-like, type 3 IPR000152 EGF-type aspartate/asparagine hydroxylation site IPR013032 EGF-like region, conserved site |
| Orthology group | MCL15206 |
Nucleotide sequence:
ATGGGATTGCGGGTAAGACGAGGCTTATACGTCACCATCATACTCATATCCTATGGAATA
GCTGATGTTGACTTGAGTTTGCCAGTAGATTTAGCAGTAGAAGAGAAGGCACCACAGCAA
ACTACCCTCCCTGCCACTTCCACCTCACCTCTCCCAACCACCATTAACGTGTCAACATCT
ACATACGCCACGATCATTCCTCCCATCCCACCCAGCGATCGAGACAGATTCCTGACTTTC
GCCGAATCAGGCCACCACCAGACTTTTATGTTTGCCAAGGACAATACCTACATACAGCTT
GACGGAGATATTATCCAACGATTTCAATTAAGATTGTGTAGAGAAATATCGTTTAAATTT
AGAACAAGACTTCCCCACGGACTTTTAGTTTATCACAATGTTAAAAATCCAGTGTTCAAA
ATGCAGCCTTATGCATTATACGTTATAGTTGAGAAAGGTGAACTTAAAGTTGTACATGTT
TTTGGTAAGCACTTAACCTCAGTGACAGTTGGCAGAGCATTGAACAGAGATCAGTGGCAT
AGCGTGGTTGTTACCATAGATGTGCATGGAGCAAGACTTATAGCCAAAGTAGACAATTTA
AAAGAAGAGGTTTATCTAAAGGGACTAAGTTTCGATACTAATTATGGAATAACAGATAAT
TTAACTTCAGTTATACTTATTGGAGGTTTAAGTTCTGAAGAAAAATTACATGGAGTGAAA
TATATCATTGAATCATTCGTTGGTTGCATCAGCGATATGGTTCTTAGTTCCGGTAAAGCT
GCCTCCGACCTTCTACCGATAGTACCGTTGATCGCAACAAAACACGAAAACGTTAAAGAA
GGTTGCATAAACAAATGTAAAACCATGGAAAACCTTTGCTTCGAAGGTTCTAGATGTATC
AACGAATACAATGGGTACAGATGCGATTGTTTTGGCACTCTATACGAGGAACAGCTATGT
GATGTGTATACGGCGACAATATTAACACTGCGAGGGTCGAGCTACGTATCCTACCGCGTC
TATGATTGGAAGGATCGCGTTCATTCTACAAACACAAGGGTCAGCTTGCATTTTAAGACA
CGTTTTGACGACTCCGCTCTTTTTTATGCAAGCGGTCAAATAGATGACAAACACCATTAC
ATAGCACTGTCGATCCATCAGGAAAAAGTCGGTATACAAATAGATTTAGGCGATGGTCCA
GTAGAGGATTATTTAGGAGTGAGAGTAAATAATAATATGTGGCACAATATAACTGTTATA
TTGCAAGAAAAAACAGTTCACGTATACCTCGACAATATAAGCGCAATATACGAAGTACCG
GGCGACGCGAGATTTGTTTGCATCGACCCAGAAATATACATTTGTGGTGGTCCAGATTTG
CACAAAATGAAAGGTCTGAAATCTTTCAACAATTTCGCTGGAAATCTCAAGTACGTTTAC
TACAATGATGTATCGATTTTGTATGAGTTGAAGCAGAATAATCCAAAGGTCCATTATATT
GGAGTATTGGATCCCGAATTCGAAGATATAGATATAGAGCTAATCCCGATAACATATCCT
TTTGCCACATCGCACATATGGTGGCCTTTGAATCAGAGTAATAGTATAAATCTGGTTTTC
GATTTTAAAACTAGCAAGAATATGGCTGTACTAGCTTACAGTCAGATAACTTCGGGACAA
GGTTATTTCGAGGTGAGAATGGTCAAAGAAGAAATTCGGTTCGAACTAGTACCGGATGTT
GGTAAAAATGTAACAGTTCTAAAATCTGTTAAATTTAACGTAAGCAACGACTGGCATAAT
GTGGAATTGGATTATAGAAAAGGAAGAATCAAACTTACTGTGGACTATCATAACAAACAC
GCTCAGATGTTCGGTTTAGATTTTCAATTACAAGATAAGATTGTAATAGGTAGTGGACTG
AAATCAGCTAATCTAGGTCTTATTGGGTGCATGAGAAATATCAAAATAAACGGCCTACAA
ATTGAACCACGATACGTTATAAATACGGAACGCGTGGTGGGTGAAGTGGCTATAGATGAC
TGCCGCTACGTGGACCCCTGCACCAGACCGAACACTTGTGAGCACGACGGTATATGCTCT
ATACGGGAGGACAGAGTCATATGCAATTGTGATAACACCGGCTACATTGGTGAGAACTGC
CATTTTGCTACCTTCAGGAAGACTTGTGAAGAGTTAGCTCTCCTGGGCTATACACGTAAT
GACGTGTACTTGATAGATATCGATGGTAATGGAAAATTTCCACCAGCTCACGTGAAGTGC
GAATTCCAGATCGAAGCGGATTCATCTACTACTGTGGTGGAACACAATTTACCAAGCCAA
GTGGATGTAAGGTCTGCTCTAGGGCAAGACTTCAGCTTTCATATAAAATACAGAGAATTC
ACAGCAGAAATGCTGCAAGAATTAATTTCACACTCGCTGTTCTGCCGTCAATATATTAAA
TACGACTGCAACATGGCCCCTCTGGAACTACACAGTGCTACATGGTTTATATCATCCTCG
AATGATACCGTCGATTACATTGGAAACGTTAAAAAGGGTTACTGTCCTTGTGGGGTTAAC
GCAACTTGTGTTAATCCAACAAAATCTTGCAATTGTGACGCAAACGAAAACAAATGGCAC
TCTGATGAAGGAACACTCGTTGATCCCAAAAGCTTAGGCATAACGGAGATGTTCTTTCTC
CAACAAAAGGATTTAACCGAAGAAGCGCAAGGCAGGATTACGCTAGGTCCCTTAGAATGT
GTTGAAACGAACACCCAGCGCTACGTTGTGACGTTCACAACATCGCAATCCTATATAGAG
GTGCCCGGATGGCGAAAGGGGGATATCGCTTTTAGTTTTAGGACGACGGGTACAAGTGCG
ATTCTGTTATTCCAGCCGCCTATAAGACCGAATTATCCATCGTTCATGGTCGCTTTAACA
AGTGAACACGAATTAACTTTCAACTTCACCCTCAACACGGGTACCACGCGGAAGTTGGTC
ATCAACTCAAAGAGAAAACTAAATGGAGGGGAATGGCATAAAATCTGGATCGACTACAAC
TTCTACCACGTGAGGTTCATGCTCAACACTGAGTACCAGATGCTTAATCTTTTATTGGAG
GAGGAGTTCGGACCTTTTGAGGGTTCTATGTTCATTGGAGGGGCGACTGCAGAACATTTA
AAGAAATCAGCTGTCAACCAAGGTCTCATCGGATGCTTTCGAGGCTTGGTTGTGAATGGT
GAAATACTTGACATATACAGTTATATGTCTGTTCATTTATCTGAAATCATCAAAGACTGC
AAGCCATCCTGCGTCCCTAATCCCTGCCAGAACAGAGCCACTTGTAAAGAACTCTGGTCC
ACATACGAGTGTATCTGCAAGAACCCGTGGGCGCACTTGGGTGAACATTGTGAAGAAAAT
ATCAATGAAAAAGCATTGACTTTCCAAACTAAGGAGTCTTATTTGAAAAAAAACTACCTG
GTCGATAACACGACTGACGCAGAAAAAGCAAGATTAAAAAAGATGATGATAGAAAACGTC
CTAATGAATCTGAGAACTTACGACGACAATGCACTAGTACTGTACGCTAATGACAATCTC
AATAATTTCATACATCTCTTCATACACAATGGAACGGAAATTATATATCTGTTTAATAAC
GAAGATGAAATCGTTAAAATGAATGTTACTTACGAGAAAATTAACAAAGGGGAAAGTGTT
CAGATTGCAATCATAAGGACGGAGAACTCGACCACTTTGCATGTTAACGATAAGAATACA
ACTATAAATAAAGTTGCTAAACTTCTGTCTAATTACACGAACAAGCCGTGGAAGAATCCG
GAGTTGGAGGTAATCCGACCTCAACGGCCTCCAGCGCCACCCACAGACTACTTCCAAATG
AACCTGGGTGGCTATGACCAATACTCGCTTCATCTAGCATCGCAAGCAGAAAACTTCCCA
CAAGGAGGGTACGTTGGCTGCGTAAGAGGATTTAAAATCGCCGACCACGTAGTAGATCTG
TCTAAAAAGGCACAGCAAAATATTGATCAAGATTTAACAGGTGTACTACCAGAATGTAAT
ATGAAATGTGACTCCGAGCCATGTAAAAATGGCGGTATTTGTACCGAAGACTTCACAAAC
CAAGAGAGCAGCTGTGATTGTGAATTAACAAGTTATTTTGGAGAATACTGTATGGAAGAG
AAAGGAGCAGATTTTAATGGCGAGAGCATTTTACAAAGGAAATTTGTTTTATCTGGTCCC
ATTTTTGAGGTTAAAATAAAGTTGGCATTCTCCAGCAACGACCTTCGCCAAAAGAACACA
GTTTTATTGCTTGTGCAAACAGAAAACAAACGCAGCTATTATCTTCTGGTAGCAATAACA
CAAGACGGTTACTTAAAATTCGAAGAAGATCGCGAAGATTCTGCGTATGGAGTAGAATTT
AAGAACAGAAACTTTTTAAACGGCGCCCGGCATACAGTATATTATACAAGGTCAGATGAC
GAAGCGAAACTCTTAATAGACAGAATAGAAGTGCCATTAGAGAAGTTACCTCCACAAGAT
CTGTGGAAGGTGTTTGACGTTGGATCTAACGAAGTACAAATAGGAGGACTCAATACTACC
GATCCACGGCTTAAAATATACAAGGGTTACAATGGATGCCTCTCTAATATTTTCGTGGAA
ATAAACGAGCACGTTATGAAACCTCTAGAGGAGTATATGCTTTTCACGCGTTCTGACTCA
GAAAAGGTAAACGCAGTCAACGCTCAGGGTGTGAGGAGCGCGCAGTGTTCCGCGGACTTT
GATGAAGCGTGGCCTGAGCACGATCAGCTTGGCGCTACACATAACGGCAGCTTCCTTATC
AGTGTAGATAAGACTTGGGTAGAGGATCCACCATCCCGCCTGCCCTACGATTCTCTGCAC
CAGCAACCAGACACTGAGGAAGAGAATACAGACAAATTCTTTATAGCACTCATAGTAATA
TTCTTATTGGGGCTCTGTTACACAGCGTCGCACATGTGGCGTACACACAAAGCCTACAAA
TTACGCCAGGAAAAAGAAACTGATGAAAATATAATGCGCAGTAAAGAAAAAGCTACAAAG
CTATATTTTTCGGATTTATTTTTGGAAAAAACTACATACTCCGACCTAAAAGAAATAGAA
AATGGCGACAAAAAGGCAAATGGAGTCGTGATAGACTTAGTTCCTACAATAATCGTGGAA
GTGAATGAAGAAAAACCTCCGAGCAGGAGAGGTTCACTTCGTTTTCGAGATATGGTAGAT
AAAGATATAGCTTGGCAACCTCTTGAAGAAAAGGATGAAATTTTAGAAAACGAAGAAGAA
GAAGAAGAAGACGAATCAGAAAAGCAGGAACAAAATACTTCAGAAGAAAGCGAAGAAAAT
AATACAGATAACGAAGATGATATCTCGGATCATTTTGAAAATGAATCAATTGACGCTGTC
AACGTTGTAAGGAAATTGTCAACGCTGTCGAATAAAATAAGCGAAGAAAATTCTATAGAG
TTAACTTCGAGTGCATAA
Protein sequence:
MGLRVRRGLYVTIILISYGIADVDLSLPVDLAVEEKAPQQTTLPATSTSPLPTTINVSTS
TYATIIPPIPPSDRDRFLTFAESGHHQTFMFAKDNTYIQLDGDIIQRFQLRLCREISFKF
RTRLPHGLLVYHNVKNPVFKMQPYALYVIVEKGELKVVHVFGKHLTSVTVGRALNRDQWH
SVVVTIDVHGARLIAKVDNLKEEVYLKGLSFDTNYGITDNLTSVILIGGLSSEEKLHGVK
YIIESFVGCISDMVLSSGKAASDLLPIVPLIATKHENVKEGCINKCKTMENLCFEGSRCI
NEYNGYRCDCFGTLYEEQLCDVYTATILTLRGSSYVSYRVYDWKDRVHSTNTRVSLHFKT
RFDDSALFYASGQIDDKHHYIALSIHQEKVGIQIDLGDGPVEDYLGVRVNNNMWHNITVI
LQEKTVHVYLDNISAIYEVPGDARFVCIDPEIYICGGPDLHKMKGLKSFNNFAGNLKYVY
YNDVSILYELKQNNPKVHYIGVLDPEFEDIDIELIPITYPFATSHIWWPLNQSNSINLVF
DFKTSKNMAVLAYSQITSGQGYFEVRMVKEEIRFELVPDVGKNVTVLKSVKFNVSNDWHN
VELDYRKGRIKLTVDYHNKHAQMFGLDFQLQDKIVIGSGLKSANLGLIGCMRNIKINGLQ
IEPRYVINTERVVGEVAIDDCRYVDPCTRPNTCEHDGICSIREDRVICNCDNTGYIGENC
HFATFRKTCEELALLGYTRNDVYLIDIDGNGKFPPAHVKCEFQIEADSSTTVVEHNLPSQ
VDVRSALGQDFSFHIKYREFTAEMLQELISHSLFCRQYIKYDCNMAPLELHSATWFISSS
NDTVDYIGNVKKGYCPCGVNATCVNPTKSCNCDANENKWHSDEGTLVDPKSLGITEMFFL
QQKDLTEEAQGRITLGPLECVETNTQRYVVTFTTSQSYIEVPGWRKGDIAFSFRTTGTSA
ILLFQPPIRPNYPSFMVALTSEHELTFNFTLNTGTTRKLVINSKRKLNGGEWHKIWIDYN
FYHVRFMLNTEYQMLNLLLEEEFGPFEGSMFIGGATAEHLKKSAVNQGLIGCFRGLVVNG
EILDIYSYMSVHLSEIIKDCKPSCVPNPCQNRATCKELWSTYECICKNPWAHLGEHCEEN
INEKALTFQTKESYLKKNYLVDNTTDAEKARLKKMMIENVLMNLRTYDDNALVLYANDNL
NNFIHLFIHNGTEIIYLFNNEDEIVKMNVTYEKINKGESVQIAIIRTENSTTLHVNDKNT
TINKVAKLLSNYTNKPWKNPELEVIRPQRPPAPPTDYFQMNLGGYDQYSLHLASQAENFP
QGGYVGCVRGFKIADHVVDLSKKAQQNIDQDLTGVLPECNMKCDSEPCKNGGICTEDFTN
QESSCDCELTSYFGEYCMEEKGADFNGESILQRKFVLSGPIFEVKIKLAFSSNDLRQKNT
VLLLVQTENKRSYYLLVAITQDGYLKFEEDREDSAYGVEFKNRNFLNGARHTVYYTRSDD
EAKLLIDRIEVPLEKLPPQDLWKVFDVGSNEVQIGGLNTTDPRLKIYKGYNGCLSNIFVE
INEHVMKPLEEYMLFTRSDSEKVNAVNAQGVRSAQCSADFDEAWPEHDQLGATHNGSFLI
SVDKTWVEDPPSRLPYDSLHQQPDTEEENTDKFFIALIVIFLLGLCYTASHMWRTHKAYK
LRQEKETDENIMRSKEKATKLYFSDLFLEKTTYSDLKEIENGDKKANGVVIDLVPTIIVE
VNEEKPPSRRGSLRFRDMVDKDIAWQPLEEKDEILENEEEEEEDESEKQEQNTSEESEEN
NTDNEDDISDHFENESIDAVNVVRKLSTLSNKISEENSIELTSSA