New model in OGS2.0 | DPOGS208547  |
---|---|
Genomic Position | scaffold28:- 139503-153437 |
See gene structure | |
CDS Length | 3621 |
Paired RNAseq reads   | 4652 |
Single RNAseq reads   | 11825 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA010335 (0.0) |
Best Drosophila hit   | echinoid (0.0) |
Best Human hit | hemicentin-1 precursor (5e-39) |
Best NR hit (blastp)   | hypothetical protein TcasGA2_TC012257 [Tribolium castaneum] (0.0) |
Best NR hit (blastx)   | hypothetical protein TcasGA2_TC012257 [Tribolium castaneum] (0.0) |
GeneOntology terms    | GO:0007173 epidermal growth factor receptor signaling pathway GO:0016021 integral to membrane GO:0005886 plasma membrane GO:0007155 cell adhesion GO:0042059 negative regulation of epidermal growth factor receptor signaling pathway GO:0050768 negative regulation of neurogenesis GO:0007423 sensory organ development GO:0007156 homophilic cell adhesion GO:0008360 regulation of cell shape GO:0016337 cell-cell adhesion GO:0005913 cell-cell adherens junction GO:0005515 protein binding GO:0048644 muscle organ morphogenesis GO:0030038 contractile actin filament bundle assembly GO:0046843 dorsal appendage formation GO:0007391 dorsal closure GO:0002009 morphogenesis of an epithelium GO:0007476 imaginal disc-derived wing morphogenesis GO:0016319 mushroom body development GO:0002121 inter-male aggressive behavior |
InterPro families    | IPR007110 Immunoglobulin-like IPR003961 Fibronectin, type III IPR008957 Fibronectin type III domain IPR013783 Immunoglobulin-like fold IPR013098 Immunoglobulin I-set IPR013162 CD80-like, immunoglobulin C2-set IPR003599 Immunoglobulin subtype IPR003598 Immunoglobulin subtype 2 |
Orthology group | MCL11387 |
Nucleotide sequence:
ATGCAGTGTCGTTTCGACTTGGAGCCCGTGGCTGGAGAGTCTCTCACGTACTACTGGGTC
AGGAGCACCTCCAGCGGTCATGACAATGTTGCCATCGGTAACATACCCCTGGAGACTAAC
TACCAGATAAACTACGCTCCATCGGAAGGTAAGTTCGACTTGCTGGTGTCCAATGTGACA
TACGAGCGTGACAACGGTCGGTTCGAGTGTCGAGTTAAGGCGGGCGGGTCGGGGCGGACG
TTACATTCTCAAGGACATAGTCTGGTGGTCCTCACACAGCCCCAGCCTCCGATCCTCAAC
CCTGGACCTCAGGCCCAAGCGCAGGAAGGCAGGCAACTCAACCTGACATGCTCCAGCACC
GGCGGATCCCCCAGTCCGTATATAAAATGGTACCGAGATGGTTCCATCCATCCCTTAGAT
GCTGAACTCATACCGGGTAAGACTCGCTTCGAGCCAACGTTATCAATACTGACGTTGGAA
CCAAATAGAGACGACAATGGAGCGACATTCCGCTGTGTCGTGAGGAACAGGGCCATGAAG
GAGGGGAACCAGCTCGAGGCCACTGTTGAACTTAGTGTTAACTATTTCCCCCGCGTTGAA
GTCGGTCCCGAAAATCCTTTGCGAGTCGAGATCGATGGGAACGCTAACATGGTGTGCAAG
GTTGACGCCAAACCTAAAGTAAACACAGTCAGGTGGACGCGAGATGGGAAATATATATCA
AACTCGTTCACACATCTGATACAAGGAGTGACCGTACAGGACGCGGGCAAATACATCTGC
AGCGCTGACAACGGACTCGGACAGCCCGGAGAAAATGAGATATACTTGGACGTCCTGTAT
CCTCCCAGCGTCACAGTCGATTCGAAAACATACGAAGCCGAAGAAGGTGGCAACGTTGAA
ATAAGATGCGAAGTCTCCTCCAACCCCGACCCTATATCCATCGAATGGACCAAGGAAGGA
CGAACTGATTTCAGACAGAAAGGGAATACGTTAGTACTGACTCGAGTCGACGCCGACATG
GCCGGAACTTACGTGTGTCGGGCCGTGAACGTGATCGCTACCAGTAGTGGTAATAAAGTG
GAGAAAGCCGGCATGGCGTCCGTGGCTGTGCTCGTGAGACATAAGCCCGGACGAGCCTAC
ATAAGTCCAGACCATCCGATAGCCCAAGAAGGTACCGGGGTTACATTGACCTGCAGCGCC
AAGCCCCCCGGCTGGCCTGTACCGCAATATCGCTGGTTCCGCGAGATAGAAACGGTTGAC
ATCAAACCTACGGTGTTGGCGACGGGGAACAAGTATACAATACCCAGCGCTCACCTGGGT
AGCGAAGGCGTGTATCATTGTCAAGCTACGAACGAGCTCGGTCACAGCGAGCTGGCCACC
GTCAACCTGGAAGTGTATCAGCCGCCTAGATTCCAGTCAAAGCTGCAACCTCACATGATA
AAAAACTCAGGTGAAAGGAACTTCTCTCTCACATGCGTCGCTCTGGGCAAACCTCTCCCT
AGCGTCAAATGGTACAAGGACAACTCGGAGATCCGACCCGACGCCAACATGTACGAGGTG
AAGACCGAAATTAATAAGAGCAGCAACGCCGTCTACAACATACAGAGCGTTCTCAGATTC
CACGGAAGGGCGAGGCCCAGCGGCGACGACCTGCTTCCTGCTGATAGAGGTGTCTATTCT
TGCTCCTTTGAGAACGAAGTCAAGAAAGTGGAATCGTCGATGCAACTACGTATTGAACAT
GAGCCGTTATCGATCAAACAACAGCGGAAGGTGGCGTACGATTTGATGGAGAACGCTGAG
ATATCGTGTCGAGTGTTGGCGTACCCCAAACCCGAGTTCCAGTGGTACTACAGCATGAAC
CCCTCCCCGCTGCAGATGTCCTCGGACGGCCATTACGAGATTATAACGACGACCGACGAA
AACGACTCGTACTTGAGCGTTCTCATCATTAGAAATATAAAGTCACAGGACTACGGCGAC
TACTACTGCAACGTTAAGAACACGCTGGGCGGAATACGGCCGCAGATCAGGTTACAGCCC
AAGGGCGCGCCCGAACCGCCCAAGAACCTGTCTAGTCAGAAGGTTGACGCGACCTACGTC
ACCTTGAAGTGGGAGGAGGGTTTCAACGGCGGTCTGTCCAGTACGAAGTACTTCGTACTG
TATCGAAGAGTCAGATCCATCAATGGCGAGCCGTGCGCGGTGCAGGGCGCCGACGAGTTC
GACTGGAAGGAGTACGATTGCGGCCGGGCGAACCCCTGCAACGTCACCAGGCTAGAGCAA
CACAACTCCTACTACTTTAAGGTGAAGGCGGTCAATACTAAGGGTCAGAGTAACTATTCC
AATGAAATTTCGGTGACGACGAGGGTTGATAAGATATTACCGCCGGAACAGGTATCTTAT
GACCCCAGGTCTAGTGTCGTGGGCTTCAGGGTGGGACCTACATGTCTCCCGCTTATGGGA
GTCATCGAAAATTTGGTTGCCGATGGATGGAAGGTGATAGAAACTATGCCTCTTCGTCTG
TCGGGAGTCGTGTCATCGGAACAGGATACGACATTGGATCAAGTGACCGTCGGCGGCCGA
GGCGAGAGGAACTCTTACGACCCTAACATACGACTCAGGCTGAAACTGTGCCTACAGAAC
AACCAAAACGTCTGCAGCGAGTATGTTGAAGCTAAGATCGGTCCATCGATCACCAAAGAA
GCGGTCGCCCTCACCACCGGCACCATGATAGCGCTGATCATATCCTGCGTGCTGATCGTC
ATGGGTTTCATACTCTTCGGCTTGTACTGTCGATGTAAATGTAAGGAGAAAAACAAGGGC
TCGTCCAAAAATTATGTCGTAGAGGCCAAACGATCGCCCGTCGACTCGCCCAGGAACCAT
CCTCCCCCGCCCTACTACCCCACCACCGGCATGGAAAACAAGGCTCTGGAGAGTTCCATG
GACGTGCCATCGATCATGGAAGACTCGAAGTACTCCTCGCAACCATACGGCTACCACATG
CCCGCTCAGGACATACCGCCCACAGACTGGAACATCCAGTATCTAGAGAACAATTACGCC
AACAGCAACAACGGCGGCAGTGTCAACTCCCAGGACTCGCTGTGGCAGCTGAAGATGGTC
GCCGCCAACAACTCCTCGGGCATGTGTCACCCCATCATGACCTCCGACAGGCAGAGCAAC
TATGGCTACGACCCGATCAGACACGGCGGCTACGGCACCATCGATGACTACGCGCCCTAT
CCGCCGCTGCCGCTGGCACCGCACGGCCAGCACGGGCAGCTCGGCCAGCACGGCCAGCAC
GGCCAGCTGGCACCCCACGGCCAACACGCGCCACTAGCGCCGCACTCGTCCCACGGCCCG
GGCTCGGATTACGCTCGCAACTCCCAGAACCCATCCAGACAAGACTACTGCTCGGACCCC
TACGCCTCCGTTCACAAGCCCAAGAAACGGATGGATCAACATATCGAGTCCCCGTACCAC
GAAGTGAGCGGTCTGCCGGAGTTCCCCGAGGCGGCGGACGACAAGCCGGCGCTGTCCCTC
AGCTACGACGAGTCCCTGGAGTCCGGGTACTCCACACCCAACTCACGCGCCCGCCGGGTC
ATCAGAGAGATCATCGTGTGA
Protein sequence:
MQCRFDLEPVAGESLTYYWVRSTSSGHDNVAIGNIPLETNYQINYAPSEGKFDLLVSNVT
YERDNGRFECRVKAGGSGRTLHSQGHSLVVLTQPQPPILNPGPQAQAQEGRQLNLTCSST
GGSPSPYIKWYRDGSIHPLDAELIPGKTRFEPTLSILTLEPNRDDNGATFRCVVRNRAMK
EGNQLEATVELSVNYFPRVEVGPENPLRVEIDGNANMVCKVDAKPKVNTVRWTRDGKYIS
NSFTHLIQGVTVQDAGKYICSADNGLGQPGENEIYLDVLYPPSVTVDSKTYEAEEGGNVE
IRCEVSSNPDPISIEWTKEGRTDFRQKGNTLVLTRVDADMAGTYVCRAVNVIATSSGNKV
EKAGMASVAVLVRHKPGRAYISPDHPIAQEGTGVTLTCSAKPPGWPVPQYRWFREIETVD
IKPTVLATGNKYTIPSAHLGSEGVYHCQATNELGHSELATVNLEVYQPPRFQSKLQPHMI
KNSGERNFSLTCVALGKPLPSVKWYKDNSEIRPDANMYEVKTEINKSSNAVYNIQSVLRF
HGRARPSGDDLLPADRGVYSCSFENEVKKVESSMQLRIEHEPLSIKQQRKVAYDLMENAE
ISCRVLAYPKPEFQWYYSMNPSPLQMSSDGHYEIITTTDENDSYLSVLIIRNIKSQDYGD
YYCNVKNTLGGIRPQIRLQPKGAPEPPKNLSSQKVDATYVTLKWEEGFNGGLSSTKYFVL
YRRVRSINGEPCAVQGADEFDWKEYDCGRANPCNVTRLEQHNSYYFKVKAVNTKGQSNYS
NEISVTTRVDKILPPEQVSYDPRSSVVGFRVGPTCLPLMGVIENLVADGWKVIETMPLRL
SGVVSSEQDTTLDQVTVGGRGERNSYDPNIRLRLKLCLQNNQNVCSEYVEAKIGPSITKE
AVALTTGTMIALIISCVLIVMGFILFGLYCRCKCKEKNKGSSKNYVVEAKRSPVDSPRNH
PPPPYYPTTGMENKALESSMDVPSIMEDSKYSSQPYGYHMPAQDIPPTDWNIQYLENNYA
NSNNGGSVNSQDSLWQLKMVAANNSSGMCHPIMTSDRQSNYGYDPIRHGGYGTIDDYAPY
PPLPLAPHGQHGQLGQHGQHGQLAPHGQHAPLAPHSSHGPGSDYARNSQNPSRQDYCSDP
YASVHKPKKRMDQHIESPYHEVSGLPEFPEAADDKPALSLSYDESLESGYSTPNSRARRV
IREIIV