New model in OGS2.0 | DPOGS209125  |
---|---|
Genomic Position | scaffold3064:- 4947-17300 |
See gene structure | |
CDS Length | 4695 |
Paired RNAseq reads   | 809 |
Single RNAseq reads   | 2132 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA003286 (8e-53) |
Best Drosophila hit   | frazzled, isoform B (2e-109) |
Best Human hit | netrin receptor DCC precursor (2e-42) |
Best NR hit (blastp)   | frazzled [Tribolium castaneum] (4e-157) |
Best NR hit (blastx)   | frazzled [Tribolium castaneum] (8e-123) |
GeneOntology terms    | GO:0005886 plasma membrane GO:0008045 motor axon guidance GO:0005042 netrin receptor activity GO:0016199 axon midline choice point recognition GO:0007411 axon guidance GO:0030425 dendrite GO:0043025 neuronal cell body GO:0070983 dendrite guidance GO:0030424 axon GO:0016021 integral to membrane GO:0048813 dendrite morphogenesis GO:0007432 salivary gland boundary specification |
InterPro families    | IPR007110 Immunoglobulin-like IPR003961 Fibronectin, type III IPR013098 Immunoglobulin I-set IPR010560 Neogenin, C-terminal IPR013783 Immunoglobulin-like fold IPR003599 Immunoglobulin subtype IPR003598 Immunoglobulin subtype 2 IPR008957 Fibronectin type III domain |
Orthology group | MCL11172 |
Nucleotide sequence:
ATGTTCAATCTTACGACGGAGCCGGCGGATGTGGTGGTGGTGGAAGGGGAGAGCGCCATG
CTGTCCTGCGGAGCCGCGGCCCCCGCCAGGCTCAGTTGGAGGTACAGCGCCTCCGCCCCT
CCGACCAGAGACCACAGCCTCCCACGAGCTGATAGCTTTAGGAAACAGTTGACGAACGGC
TCCCTGCTTATAGAGAGAATGTCACCACCACTGGCCGGTCAGTACCAATGTGTGGCGACG
GTAGATGGTATAGGTACCGTCGTGTCGCGAGTGGCCACTGTCTTCCTCGCTGAAGTGCCA
GAGTTCCTGGAGGGTCCTCGTACTATGTCTGGTGTGCTCGGCTCCCCAGCACTCCTCCCG
TGTTCCCTTAAGCTACCACTGCGTGTGGCTGTGAGGGTGATTGCTGCAGTCACTGAGAGG
AGAGTGTATGGACCAAACAAGATACATGCACCGCCTCCTGTGTTGAAACTCAATGTGACA
TGGCTAAAGAACGGTTCGCCGGTCCAAGTGGAGGCCGCTCGTTTATACAGCACTGTCAGC
GGAGCCCTGGAGATAGACCCTCTGAGGACGCACGACGCCGCCACATACAGATGTGCCGTC
AGCCTCGCGCACACCAACAAACCACCAGTTCTGGGTCCGGAGATCGATCTCCGCGTGAAC
AGCGAGCTGGCGGGGATGGAGTCCGCGCCCAGGATACTCACCACGCCGCAGCCTGTCACG
GTGACATGGCTAAAGAACGGTTCGCCGGTCCAAGTGGAGGCCGCTCGTTTATACAGCACT
GTCAGCGGAGCCCTGGAGATAGACCCTCTGAGGACGCACGACGCCGCCACATACAGATGT
GCCGTCAGCCTCGCGCACACCAACAAACCACCAGTTCTGGGTCCGGAGATCGATCTCCGC
GTGAACAGCGAGCTGGCGGGGATGGAGTCCGCGCCCAGGATACTCACCACGCCGCAGCCT
GTCACGGTCATAGAAGGCGCGTCCGTGACCTTCGACTGTGCGGCCACCGGCAACCCCAAG
CCGGAGATCGTGTGGCTCAACAACGGCGTGGCCATAGACTTGAATGATCTAGACTCCCGT
TTCTATCTGGTGGGGGGTGGCTCTCTCCGCGTGGTGTCGTCCCGGGCTCCGGACGCGGGC
GCCTACACCTGCCGCGCCACCAACAGGATCGACGCCGCCGACCACTCCGCTCACCTCCAC
GTCCTGTCTCCCCCCCGCGTGTCGGTCCGCGACGGGTCGGTGGTGAGGGCGGTGACCCGC
GGTGATGTCACTCTGAGATGCGACGCCCGCGGGCGACCGCCGCCAGTGGTGACGTGGCTG
AAAGACGGGGAACCTCTCACACCGAACAACCACGACATCATGGTGGACGGGACCTCGCTG
AGGATCAGGGGAGTGCTGGACGTGGACGAGGGAGTGTTCCAGTGTGTCGCGGCCTCGGCT
GCCGGCAGCGCTGCCGCGGCGCTCAGGCTGATTGTGGCGCCGCACGCCGACCCCCTCCCC
ACGAACCTGACCCCTACCTTCCTGACCCCCGACCTCTACCCGGAAGATGTGGATTTCATC
GGCGAGACGTCATCAGCGTTCACCCCCGAGCCTCTGTACGACGACTTAGATAACGTAGAT
TATTCCGAAGATCTGGACTCCTACGACGCGGGCAAGGGGAACGCGAGCGTGGTCTCCGCG
CCCGGGGACTTCCGCGCCGTCATCGTCAAGCACCGCTTCGTGACGCTCAGCTGGACCGAG
CCGAAACACGCGCTGGAAGAAGTCACCGGATACATCATACTGTATAAAGTGAAAGGAAGC
GACCGGGAGCGTCTGTGGTCGGGCGAGGCTCGGCGGCGCGAGGCCGTGTTGGCGTCCCTG
GCTCCTCGCACCACGTACACGGCGCGGGCCCTCGCCCTCACTCGCAGTGCAGCCTCGCCG
CCGACAGAGACTATAGAGGTGACCACTCCTGACGAGGAGCTGTCCTACGGCCCTCCTCAG
AACGTGTCGGTGGAGGCGGTGGGCGCTCACTCTCTGCGGGTGTGGTGGGCCCCGCCCGCG
CCGCTCGGGCCTCACGTGCCGCCTGAGGTGCCGCCCGCCGCTCCTGGCCGATACGTCATA
TACTATACAGAGACGGAGAGTGGTCGCGAGCAGAGCCAGTACACCAACTCCACCAGCATC
ACCCTGAGCGGTCTGCGGGCGGCCACCGCCTACCGGGTGCGGGTGTCGGCGGGGGGAGGG
GGGACCAGTGACGTCACCACCGCCACGCGAGCCGACGCCCCCTCCGCACCACCCACTGAC
GTCACCGTCATCCCCGCCACGGATACGTCGCTACTAGTCCGCTGGTCGGCCCCGGCCGGG
CGCTCGCACCGCGGAGCCCTCACAGGATACAAGCTCCGGTACAGGACCCCCGGGGCGCGC
CGCGCGGACTCGCTCACCACTCCCGCAGACACCACGCGGGCGGACCTCACAGGACTGGAA
CCCTCCACCACCTACCAGCTCGCGCCGGTCGCGACTGGATCTCCGTCTGGTGGGGCAGCG
AGGAGGGCTCCAATACACCGGGGGGAGGGGGCCCGGGGGCAGGCGGGGCGGGCGGCGGAG
CACCCGTGCGGGGGTACTGGCTGGGCTGGGGACTCGGCGTACCTGACTCACACTCCAGGG
AACTGCCTGCGCATGCGCATTCACATCCTGCATCATGTCCGTGACCCAGAATCCAACTCG
GAGTACGTGATATCTCTCCGCGCCAGCAACACGCTGGGTCTGGGCCCGGCGGTGTACGCG
ACCGTCCGCACCAAGCCCGACGACGGAGAAGACGAACCAGACGAGCCCGACCAGCCGGAG
GACGACGCGCCGCCTCTCATCCCGCCCGTGGGGCTCAAGGTTATCATGCTGAGCGGCACC
ACCGCCGTCGTGTACTGGACCGACCCCACTCTACCCAAAGGACAGACGGCGGCGGACGGT
CGACGGTACGCGGTGCGGTGGTCGGGCGGCGGACGGTCGCGCGTCTACAACGCTTCGGAT
CTTAATCTCATGTTGGACGATCTCAAACCTTACACGCACTACGAGTTCGCTGTCAAACTC
ATAAAAGGTGGTCGCGAATCTCCCTGGTCGATGCTGGCCAGCAACACGTCCCTGGAGGCA
GCCCCGGGCTCCGCCCCCCGGGAGCTGCGCGTGTCCCCCGCGGCTCCAGCCTCCCGCGCC
GCCGACTTAACGTGGAGTCCACCCGCCAAGCCCAACGGAGTCATCACAGGGTATGTGATA
ATGTACGGCGTGTCCCGCGGGTCGGGCGCCGCCGAGGAGTGGTCGGCTCTGGCGGCTCCC
GGGGAACGAGGCCGGGCCCGGGTGGACCGGCTCCGGGCGCGGACCACCTACAGCTTCAAG
ATACAGGCACGGAACAGTAGGGGACTGGGGCCCTTCAGCCCCGCCGTCACTTACACTACT
GGGATTGAGAGCGGTGAAGGCGCGGGTCTGGCGAGCGCCACGTCCGCGTGGTTGTGGGCC
AGTGCGGGAGGCGCCTGTGCCGTGCTGGCGCTCGCAGCAGCCCTCGCTCTGTCGCTGTGC
TGCAGAAGGAACACGCCTCCCATGTCCCCGGACACCAGCACTTACCAGAAAGCGTCCGCG
TCAGCTGGCATCAAGCCTCCAGACCTCTGGATCCACCACGACCAGATGGAGCTGAAGCAC
ATGGACAAGAGCTTACACAGCTCAGCCAGTAAGATATCAGCGGGTAGCGTCGAAGGCAGC
GCGTTGGTGTCGTCGACGTTGACCCTATCCCGCACCCCCCACCCCCACTCTCACCCTCAC
CCCTCCCAACATACGTCGGGTGTTTGGAGTAAGATGAACGAGATTGTTGGTCTTACAAAC
ATTCGTTACGCCAATCGCCCTGTATATGTATACTTTGTGTTGCTTCCTCCCCTCCCTCCC
GTGTATCCTGTCTGTATGTCTGTCTGTGTGCACGTAGACCGTCGCTCGTCGTCGGGCAGC
GCGGACACCGCCCCGCTCCGAGCCTCGCCCCTCGACTACCGCTGCGACCTGCTAGCAATG
ACAGGGGTCGGCGTGGGCGTGGGCGTGGGCTGCACCGGCACCTGCGAGCGACGGAGACAT
CTAGCGGATCAGAGCACGCCGCTGTTGACGGGTGTAGCGCCGCTGGGGTCGCCGCAGTCC
TCTCTGACGTCACATCCGCCCGCACCATGCGTGTCGGGTCAGTGTCCTCTGGGTACATGC
TCGGCGCCAGGGTCCGAGGTGTACGCGAGCGCGTCCACAGCGCGGGAGCGAGGACACTAC
GTCGCCTACGAACCCCTGGGACATTACACGCACCGTGACTCCGTGAGTACGGACGCCGCA
GCACCCGCGAGCACGGGCGCCGGAGGCTCCCTACAGAGGAGGGGCGCGTGCTCCGCCCTA
CACAGCTTCACGCTACCCGACAACGCGTCTGATCACAGCACGCCCTCACACTCCAAGGGA
AGTGCGCGCGCGTCCTCCCCGTACAAGGCGAGTGCGTCGTCGTCCCCCGCACACACACAC
ACGCACTCGCTCGCGCACACACACGCGCATGCTCTCAACAGACTGCAGCTCGGTGGTGGA
GTGTCTCACAGCTCTGATGAGCTGGAGCCTCTCACTCCGTCCAGGTCCAGCGAGCGTCTC
CACCGCGAGATGCAGAACCTGGAAGGGCTCATGAAGGACCTGTCGGCGATCACGCAGAAC
CAGTTCCACTGCTAG
Protein sequence:
MFNLTTEPADVVVVEGESAMLSCGAAAPARLSWRYSASAPPTRDHSLPRADSFRKQLTNG
SLLIERMSPPLAGQYQCVATVDGIGTVVSRVATVFLAEVPEFLEGPRTMSGVLGSPALLP
CSLKLPLRVAVRVIAAVTERRVYGPNKIHAPPPVLKLNVTWLKNGSPVQVEAARLYSTVS
GALEIDPLRTHDAATYRCAVSLAHTNKPPVLGPEIDLRVNSELAGMESAPRILTTPQPVT
VTWLKNGSPVQVEAARLYSTVSGALEIDPLRTHDAATYRCAVSLAHTNKPPVLGPEIDLR
VNSELAGMESAPRILTTPQPVTVIEGASVTFDCAATGNPKPEIVWLNNGVAIDLNDLDSR
FYLVGGGSLRVVSSRAPDAGAYTCRATNRIDAADHSAHLHVLSPPRVSVRDGSVVRAVTR
GDVTLRCDARGRPPPVVTWLKDGEPLTPNNHDIMVDGTSLRIRGVLDVDEGVFQCVAASA
AGSAAAALRLIVAPHADPLPTNLTPTFLTPDLYPEDVDFIGETSSAFTPEPLYDDLDNVD
YSEDLDSYDAGKGNASVVSAPGDFRAVIVKHRFVTLSWTEPKHALEEVTGYIILYKVKGS
DRERLWSGEARRREAVLASLAPRTTYTARALALTRSAASPPTETIEVTTPDEELSYGPPQ
NVSVEAVGAHSLRVWWAPPAPLGPHVPPEVPPAAPGRYVIYYTETESGREQSQYTNSTSI
TLSGLRAATAYRVRVSAGGGGTSDVTTATRADAPSAPPTDVTVIPATDTSLLVRWSAPAG
RSHRGALTGYKLRYRTPGARRADSLTTPADTTRADLTGLEPSTTYQLAPVATGSPSGGAA
RRAPIHRGEGARGQAGRAAEHPCGGTGWAGDSAYLTHTPGNCLRMRIHILHHVRDPESNS
EYVISLRASNTLGLGPAVYATVRTKPDDGEDEPDEPDQPEDDAPPLIPPVGLKVIMLSGT
TAVVYWTDPTLPKGQTAADGRRYAVRWSGGGRSRVYNASDLNLMLDDLKPYTHYEFAVKL
IKGGRESPWSMLASNTSLEAAPGSAPRELRVSPAAPASRAADLTWSPPAKPNGVITGYVI
MYGVSRGSGAAEEWSALAAPGERGRARVDRLRARTTYSFKIQARNSRGLGPFSPAVTYTT
GIESGEGAGLASATSAWLWASAGGACAVLALAAALALSLCCRRNTPPMSPDTSTYQKASA
SAGIKPPDLWIHHDQMELKHMDKSLHSSASKISAGSVEGSALVSSTLTLSRTPHPHSHPH
PSQHTSGVWSKMNEIVGLTNIRYANRPVYVYFVLLPPLPPVYPVCMSVCVHVDRRSSSGS
ADTAPLRASPLDYRCDLLAMTGVGVGVGVGCTGTCERRRHLADQSTPLLTGVAPLGSPQS
SLTSHPPAPCVSGQCPLGTCSAPGSEVYASASTARERGHYVAYEPLGHYTHRDSVSTDAA
APASTGAGGSLQRRGACSALHSFTLPDNASDHSTPSHSKGSARASSPYKASASSSPAHTH
THSLAHTHAHALNRLQLGGGVSHSSDELEPLTPSRSSERLHREMQNLEGLMKDLSAITQN
QFHC