MonarchBase - Protein-coding gene

DPGLEAN15734 in OGS1.0

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