New model in OGS2.0 | DPOGS208540  |
---|---|
Genomic Position | scaffold28:- 299477-306757 |
See gene structure | |
CDS Length | 3285 |
Paired RNAseq reads   | 2782 |
Single RNAseq reads   | 7347 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA010354 (2e-08) |
Best Drosophila hit   | turtle, isoform G (0.0) |
Best Human hit | immunoglobulin superfamily, member 9B (5e-103) |
Best NR hit (blastp)   | AGAP007928-PA [Anopheles gambiae str. PEST] (0.0) |
Best NR hit (blastx)   | turtle protein, isoform [Aedes aegypti] (0.0) |
GeneOntology terms    | GO:0008344 adult locomotory behavior GO:0030537 larval behavior GO:0007629 flight behavior GO:0007422 peripheral nervous system development GO:0005575 cellular_component GO:0003674 molecular_function GO:0048814 regulation of dendrite morphogenesis GO:0070593 dendrite self-avoidance GO:0007411 axon guidance GO:0007414 axonal defasciculation GO:0016199 axon midline choice point recognition |
InterPro families    | IPR007110 Immunoglobulin-like IPR003961 Fibronectin, type III IPR008957 Fibronectin type III domain IPR013783 Immunoglobulin-like fold IPR013098 Immunoglobulin I-set IPR013106 Immunoglobulin V-set IPR003599 Immunoglobulin subtype IPR003598 Immunoglobulin subtype 2 |
Orthology group | MCL10919 |
Nucleotide sequence:
ATGGGCTGGCGCGCCGAGCAACCGCCGCACATCGCCGCCGGCCTGCTCTTCTTGCTGCTA
GTCTACCTGCCGGTCACCTGCCATCAAGATCATCAAGATGCTGTACACATCACGGCGATC
CTCGGAGAGAGCGTCGTATTCAACTGCCAGGTCGATTTCCCCGAAGACATCCCTGTGCCG
TACGTGTTGCAGTGGGAGAAGAAGGTAGGCGAAACGGGACAGGACATTCCGATCTATATC
TGGTATGAGAGCTATCCGACGCACAGCGGCGAAGGTTACGAGGGGCGAGTGTCGCGAGTG
GCTCCTGACTCGCCCTACGGAGCGGCCAGCCTCAACCTCACTAATATTAGAGAGTCGGAT
CAGGGTTGGTACGAGTGTAAGGTGGTGTTCCTCAACCGATCCCCAAACCAACACAAGAAT
GGGACCTGGTTTCATCTGGACGTGCACGCGCCACCTAGATTCTCCATCACACCGGAAGAC
ATTATATACGTCAATTTAGGTGATGCCATAATCCTAAACTGTCAAGCCGAAGGGACACCA
ACTCCCGAAATACTATGGTACAAAGACGCGAATCCAGTGGAACCTTCAGGCACTGTTGGC
ATATTCAACGACGGCACCGAACTGAGGATAAGCAACATCCGCCATGAGGACATCGGAGAC
TATACATGTATAGCGAGGAACGGGGAAGGTCAGGTGTCACACACGGCTCGCGTCATCATC
GCTGGAGGAGCTGTCATTACTATGCCACCAACGAACCAAACGAAACTGGAAGGGGAAAAG
GTACAATTTTCTTGCGAAGCGAAGGCTCTACCGGGAAATGTTACTGTGAAATGGTTCCGC
GAGGGGGCGCCAGTGGCTGAAGTGGCGGCTTTGGAGACCCGCGTCACGATCAGACGAGAC
GGAGCCCTGGTCATCAACCCCGTGGCAGCGGACGATTCCGGCCAGTACTTGTGCGAAGTG
TCCAACGGCATCGGCGATCCCCAAAGCGCCTCTGCGTATCTCAACGTCGAATATCCAGCG
AAGGTGACTTTTACGCCAACAGTACAATACCTGCCGTTCCGGTTGGCGGGAGTAGTTCAG
TGTTACATAAAAGCCAACCCGCCCCTTCAGTATGTCACGTGGACGAAGGACAAAAGACTG
TTGGAGCCGTATCAGACCAAGGACATAGTTATCATGAACAATGGCTCGCTGCTGTTCACC
CGCGTCAATCAAAACCATCAAGGAAGATACACTTGTACGCCGTACAACGCCCAAGGGACG
CAAGGGTCTTCAGGCCCTATGGAGGTGCTAGTACGTAAACCGCCAGTATTCACAGTGGAA
CCGGAACCTTTGTATCAGAGAAAAGTAGGAGAATCAGTGGAAATGCACTGCGAGGCTCAA
GAGGCTGAGGGGACGCAGCGACCGAGCGTAGTGTGGAGGCGACGAGATGGACTCCCTCTA
CAGAAGAGTCGAGTGAGGGCGCTGGGCGGCAACATCACCATCGACACGCTCAGGAGACAG
GACTTCGGAATATACCAGTGTGTGGCTTCCAACGAGGTGGCGACGATAGTAGCGGACACT
CAGCTCGTCATAGAGGGCACGCAGCCCCATGCGCCATACAACGTGTCAGGCACGGCCACC
GAGTTCCAGGTGACACTCCGATGGCAGCCAGGCTACGCGGGGGGACCGGACTATAAACAA
GACTACACCATATGGTACAGAGAGGCTGGCTTCTCAGAGTGGACTAAAGTACCAGTCACG
CCATCTGGTGCCACCTCCGTGACAATAAATCGTCTCCAGCCCGGTACGACTTACGAGTTT
CAAGTGAACAGTAAGAACACGATCGGTGAGGGGATGATGAGTAAAGCTATCACTATAAGG
ACTCTCGACGTAGGTGCCAAGCCAAAGGCTGCCCCCACCGCCGCGGGGCCGATAGATGAA
AAGATATTTCAGAACGCACCCGAAGGCTCCGGTCCTAAGTCCGGACCCCCCCGCAACCTG
ACAGTGACAGAGGTCCACAATGGTTTCCTGATAACATGGCAAGCGCCTCTGGAGCGGTCT
CACTTGGTCCAGTACTACACTATCAAGTACCGCACAGACGCTCAGTGGAAGACACTCAAT
AGAGGACAGATAAGGCCCGAGGAGACCAGCTACTTGGTCAAGAATCTAGTCGGAGGTAGG
ACGTATTATTTCCGCGTGCTGGCGAACTCCGCGACCAGCTACGAGAGTTCCGAGGAAGTG
AAGTTTCCTGTGCCGGCGCGGGTCAAACACAAGGCCATAACGGCCGGGGTCGTTGGAGGG
ATATTGTTCTTCATAGTGGCCATCATACTGTCCGTCTGCGCGGTCAAGATATGCAATAAG
AGGAAACGCCGCAAGCAGGAGAAAGCATACAACATGGTAGCCGCGCGACTCACCGACCTG
CGCGCGGCTGACAGCACTCAAGTGCCTTTTAAGAAATTTAGAGAAAGCGGAATATCGAGT
TTAGTACAATGTTTGCGATTCACGGCGAACTGGGTGTGGCCGGCGTCTCGATGTGGCGAC
GAGTCCCGCGTTTGGCCGGCGCCCGTCGCCTCCCTGGCGGAGTCTCCAGCGCCCTCGCCG
GCTCCCTCCGCCGCGCCTTCCTCCTCAGACGACGGCGGGTTCCTCCCGCGACTGCGTGCG
CCGCTATCCCCCGCCGCCGCGCCGCCTCTGTTCCGCGCCTCCTCGCCGGCCCTCACCCTG
GCCTGGCCGCCGTGGCCGCCCTGGCCGTCCTGGCCGGTGTGGGCGCCCGCCTGGACTCCG
TGGTCGCCTCTCCACATCTCCGACCTCAGCTCGGTACCGTTCCCCAGTTCGGCGGACGGC
TCGTTTCCGACGCCCCCCTCTTTCCGCTCCCGCCCCCCACGCGTGTCCCTCGATGTCCCG
TCCCGAGTGTGCGTGCTCGGTCGCCCCCGGTCCCGGCCGCCGGTCCGTCACGGCAGGCCG
CGTCCCCTGGTGGAGCCGCCGGCGCCGCCGCCGCACGAGGCCTCTCCCGAGAGCAGGTCG
TCGTCGAGCGGTTTCGGCAGTAAGAACGCCTCGTCGTCCCAACACAACCGCAGCAGCCGC
ACGGGAAGCCTGGCCGAGTGGCGTCCCCCGCCCTACCGGCCGCCGCCGCCCGTGCCCGTC
TCGCGGCCGGGGCGGGGCGGCTCGAGGCGGCGGCGGAGGCGGCGGCCGCCGAAGCCGCCG
ACGCGGGCTCCGTGGACGTCCACTACGAGTTCGATCGCGCGACTCGCACCCCGACGCCCT
CGACGCCGGAACGAACCCGCGCCCGTCCCTCGCGAGACGACGTAG
Protein sequence:
MGWRAEQPPHIAAGLLFLLLVYLPVTCHQDHQDAVHITAILGESVVFNCQVDFPEDIPVP
YVLQWEKKVGETGQDIPIYIWYESYPTHSGEGYEGRVSRVAPDSPYGAASLNLTNIRESD
QGWYECKVVFLNRSPNQHKNGTWFHLDVHAPPRFSITPEDIIYVNLGDAIILNCQAEGTP
TPEILWYKDANPVEPSGTVGIFNDGTELRISNIRHEDIGDYTCIARNGEGQVSHTARVII
AGGAVITMPPTNQTKLEGEKVQFSCEAKALPGNVTVKWFREGAPVAEVAALETRVTIRRD
GALVINPVAADDSGQYLCEVSNGIGDPQSASAYLNVEYPAKVTFTPTVQYLPFRLAGVVQ
CYIKANPPLQYVTWTKDKRLLEPYQTKDIVIMNNGSLLFTRVNQNHQGRYTCTPYNAQGT
QGSSGPMEVLVRKPPVFTVEPEPLYQRKVGESVEMHCEAQEAEGTQRPSVVWRRRDGLPL
QKSRVRALGGNITIDTLRRQDFGIYQCVASNEVATIVADTQLVIEGTQPHAPYNVSGTAT
EFQVTLRWQPGYAGGPDYKQDYTIWYREAGFSEWTKVPVTPSGATSVTINRLQPGTTYEF
QVNSKNTIGEGMMSKAITIRTLDVGAKPKAAPTAAGPIDEKIFQNAPEGSGPKSGPPRNL
TVTEVHNGFLITWQAPLERSHLVQYYTIKYRTDAQWKTLNRGQIRPEETSYLVKNLVGGR
TYYFRVLANSATSYESSEEVKFPVPARVKHKAITAGVVGGILFFIVAIILSVCAVKICNK
RKRRKQEKAYNMVAARLTDLRAADSTQVPFKKFRESGISSLVQCLRFTANWVWPASRCGD
ESRVWPAPVASLAESPAPSPAPSAAPSSSDDGGFLPRLRAPLSPAAAPPLFRASSPALTL
AWPPWPPWPSWPVWAPAWTPWSPLHISDLSSVPFPSSADGSFPTPPSFRSRPPRVSLDVP
SRVCVLGRPRSRPPVRHGRPRPLVEPPAPPPHEASPESRSSSSGFGSKNASSSQHNRSSR
TGSLAEWRPPPYRPPPPVPVSRPGRGGSRRRRRRRPPKPPTRAPWTSTTSSIARLAPRRP
RRRNEPAPVPRETT