Monarch geneset OGS2.0

DPOGS212835
TranscriptDPOGS212835-TA3534 bp
ProteinDPOGS212835-PA1177 aa
Genomic positionDPSCF300086 - 3002-9517
RNAseq coverage532x (Rank: top 24%)
Annotation
HeliconiusHMEL0142620.068.01% 
BombyxBGIBMGA000783-TA0.064.23% 
DrosophilaSer-PA0.038.52% 
EBI UniRef50UniRef50_D5MTP30.067.54%Bm8 interacting protein m-9 n=2 Tax=Bombyx mori RepID=D5MTP3_BOMMO
NCBI RefSeqXP_969486.20.043.64%PREDICTED: serrate [Tribolium castaneum]
NCBI nr blastpgi|3005082950.067.54%Bm8 interacting protein m-9 [Bombyx mori]
NCBI nr blastxgi|3005082950.068.78%Bm8 interacting protein m-9 [Bombyx mori]
Group
Gene OntologyGO:00160203.5e-27membrane
GO:00071543.5e-27cell communication
GO:00072754.3e-19multicellular organismal development
GO:00160214.3e-19integral to membrane
GO:00072194.3e-19Notch signaling pathway
GO:00055094.5e-11calcium ion binding
GO:00055158e-10protein binding
KEGG pathwaytca:6529420.0 
 K06052 (JAGGED)maps-> Notch signaling pathway
InterPro domain[151-213] IPR0017743.5e-27Delta/Serrate/lag-2 (DSL) protein
[12-96] IPR0116514.3e-19Notch ligand, N-terminal
[491-527] IPR0018814.5e-11EGF-like calcium-binding
[576-606] IPR0062098e-10EGF
[494-527] IPR0062102.6e-07Epidermal growth factor-like
Orthology groupMCL11367 Multiple-copy universal gene
Genotypes for resequenced monarchs and outgroup Danaus species

Nucleotide sequence:

>DPOGS212835-TA
ATGGTGTGTGTCGTCCACCAGCTCGCGGCGGGGGCGGGCGTGTTCGAGCTGCAGATCTTGGAATTCTCGAACTATCGCCTACAGTTGTCATCGGGAGCCTGTTGCGGCGGCGGGGCGGCGCCTCCGGCCCCGTCCTCCGGGGCCCCCAGTACGGGCGGTGCTTGCGGACAGCCCTGCCGCACGCGTTTCGCTCTCTGCCTCAAAGAGTACCAGTCGGCCGCAGCCCCCGGGGCCTGCTCCTTTGGCAGAGCGTCTTCTCCAGTCCTAGGGACGGACTCCTTCACTCTATCGGACCCGCTACACACGCTGTCTCTCCCTTTCTCGTTTCGATGGACCCGTTCGTTCACACTGATACTTCAAGCCTACGATGACTACAACTATACAGATCCTGAAGAGAGCGGATTGATCGAGGAGGCCTGGTGGTCGGGCATCGTGGAGCCCGGGGCCGAGTGGCACGCTCTGAGACACGCGGGAGCTGCTGCGGCCGTGGCCTACCGGGTGCGAGTCTTGTGCCAACCGAACTACTACAACACCACGTGTACCACCTTCTGCCGTCCCCGGGACGACAAGTTCGGACACTACGCCTGCTCGGCCTCCGGGGACAAGCGCTGTCTTCCCGGTTGGCAAGGCGATAACTGCGAGAAACCTGTCTGCAAGGAAGGCTGTCATCCAACACACGGGCGATGTGACAAGCCTGGTGAATGTTCCTGTCGTCCGGGATGGCGAGGCGAACTGTGTTCTCAATGCCAGCCGTATCCGGGCTGCAAACACGGATACTGCAATGGCTCATCTTGGGACTGCACCTGTGACACCAACTGGGGCGGTATACTATGTGACCAAGATCTCAACTACTGCGGAACTCACGAGCCCTGTCAGCACGGAGGTACGTGTGAGAATACAGCGCCGGACCAGTACCTCTGTACCTGCGCCGAAGGTTTCTCCGGCGTGGACTGCGAGCGAGTGGACAACCCGTGTGCGCCGCAACCCTGTGCTCACGGAACCTGCTCGCTGGGTCCCGCGTCCACTTCTCCGACCTCACACGCCGCGCCCGCTGGGTTTGTCTGCTCCTGTGAAAGAGGCTGGACCGGGCCACGGTGTGACGCGGACGTCGACGACTGTGCCAGTGCCCCCTGTCAAAATGGCGCCGTGTGCCGGGACCGACTCGACGCTTTCCTCTGCGAGTGTACTGCCGGGTGGACCGGAGTCACTTGCACCGAAGATGTAGATGAATGCGCGGAAAACAATGGAGGGGCGGAGGGTGCTCTGGGACCTTGCGTGAACGCAGCGGCCTGCAATAACTCGGCGGGGGGCTACTCGTGCACGTGTCTGGCGGGCTGGACGGGTCGGGACTGCGAGCTGAACGTAGACGACTGCACAGGCCAGTGTCTGAACGGAGCTACCTGCATCGACCTCGTGGACGACTTTCACTGCGCCTGTGCCGCTGGGTACGCTGGTCGGACCTGCGCTCGAGACGTCGACGACTGCGCCTCACGACCCTGTCGTAACGGCGGTGAATGCGTCGATCTGCTGGACGCTTACCGCTGCATTTGTCCGGTCGGGTTTTCTGGTACCGACTGTGAAGAGGATCGTGACCACTGCACTGGCTCGCCGTGTGCCAATGGGGCCACATGTTATACCGCACAGAGCGACTACTACTGTCACTGTTCACCCGGTTGGACTGGCAAGAACTGTACGCAGCGAGCTGCGAGGGAACAACTAGATGAATGTACTCCGAATCCATGCAGTAACAATGCAAGCTGCTTACCGAGCCCCAAAGGATTTACTTGTATTTGTGTTGAAGGATATACAGGCGAGACCTGTGCTATCCGCGAAGAGAAACGCTGCGAGCTTGTCTGTGTCAACGGTGGCTCATGTGTCCGCGACCCGTTCCCCGCGCCTGCTGGAAGCTCTCTTGCCAACCTCCCTCATCACTGTGCTTGTCCGCCAGGTTGGGCCGGAACCCTCTGCGATCTTCCTATATCTCCGCCGGTAGCTCCGATCGCATCCGTTCCAATGCAAACAGCCATAATCCCCATCACTAATGCGGGTATACCTTGTTCATGTCTCCACGGCGGGTCGTGTGTATCCGTTGGAGGAGCGAGTACATGGGCGTGTGTATGCCGTCCTGGCTGGAGCGGAGCGCACTGCGAGCGAGCGGCAGACGGTTGCTCCTCCAGCCCGTGTCGTAACGGAGGTCGTTGTGTGGGGGGCGCTGGCTGGTGGACGTGTGAATGTACTCTAGGCTGGTCCGGTCCTGACTGTTCGTCTCCGTCCTGTGACCCGACTTGTCCTTCGCCTGCTGTCTGTACAGCATCCGGCGCGATTGCAAGATGTGTGTGTCCGCCTCCGCCAGCTCGACTAGCCAGACGATGTCTCGAATTGGTGGCAGGACTTGGGGAGGAAAGTGGAGAAGCAGCAGATGGGAATGAAAGTGGTAGCGAAAGTACTGCCGAAGCTAGCGATACACCTGGAGCGTGTGGTGCAGATAACGGCACCTGGTGGTGGGGCTGCAACGCGTGTCGTTGTGTCGGAGGGGCGCCCTCGTGCACAAGACTCTGGTGTGGATTACCCGATTGTCTCGCCCCCGCCGCACTGCCTTGTAGGACTGATGAGGTGTGTGTTCCGGCCGCACCTGCATTGTGTCTACGTCCACCTTGTTCTCCGCTGGGGGAATGTCGTCGTGTATCAGGACGACGTGTGGAGCCTCCAGCGTTACCTGCGCCGGCCGCTTGTTGGCCAGGAGCTCGTTCATCGCCGCCCCCCGGCTGTGCTCGTGCCGAATTGCGTCTCGCTCGAGAGCGCCTAGCTCGTGGCGCACACGTAGAGCGCGCTTGCGCAGCGCTCCGGAGAGCCCTTGCTGCAGCGCTTGCAGATCGTGCTCCCCCTGCGCCGCCACTTACATTACTTTGTGATCTCGCTCCGGACGATGACGATGCGCTGGACCTTGCACTCTGGGCCGGAGAGGAAGATGACTCAGAGGGTGTAAGTGCTCTAGCAGCGGCCGTACGTGTTCTGAGTGAGCTTATATCTCGTCGCCGCTTAGCACATCACGCTCTCCTCGCTGCAGCCCTGCGACTTCGTGTTGAGCACGGCACACCGACCCTACCTCGCGCAGCCGTAGCGGAAGCGGCTGCTAACAGCAGTGGAACGGGAGGTGCCTTATTAGCTCTGGCAGCTGGAGCACCTTTACTGCTATTGGGGGCAGCCGCCGGAGCATTCTTTCTTATTCGTAGACGGCGAGCCGCAGCAACGGCTGCGATCGATGAGCGTTCACGTTGCCGTGACGAAGAAAAGTCCAATAACTTACAAAATGAAGAAAATCTGCGCCGCTACGCGAACCCTCTGCGGGAGGACCGGGTACCGCGTGAGGTAGACGAGTTGCCTCGCGCCCATTCCTTATATAAAGCGCAAAACGCCGACGTGCGGAACAACACACCACCGCGGGATAAAGAGTTGACGAAGCGCGTACTGCCGCCGCCGGAGCCTCCACCCGCGCGTCACCCGCCGCCTGAGCGCCTTACTGTGCTCGTCTAG

Protein sequence:

>DPOGS212835-PA
MVCVVHQLAAGAGVFELQILEFSNYRLQLSSGACCGGGAAPPAPSSGAPSTGGACGQPCRTRFALCLKEYQSAAAPGACSFGRASSPVLGTDSFTLSDPLHTLSLPFSFRWTRSFTLILQAYDDYNYTDPEESGLIEEAWWSGIVEPGAEWHALRHAGAAAAVAYRVRVLCQPNYYNTTCTTFCRPRDDKFGHYACSASGDKRCLPGWQGDNCEKPVCKEGCHPTHGRCDKPGECSCRPGWRGELCSQCQPYPGCKHGYCNGSSWDCTCDTNWGGILCDQDLNYCGTHEPCQHGGTCENTAPDQYLCTCAEGFSGVDCERVDNPCAPQPCAHGTCSLGPASTSPTSHAAPAGFVCSCERGWTGPRCDADVDDCASAPCQNGAVCRDRLDAFLCECTAGWTGVTCTEDVDECAENNGGAEGALGPCVNAAACNNSAGGYSCTCLAGWTGRDCELNVDDCTGQCLNGATCIDLVDDFHCACAAGYAGRTCARDVDDCASRPCRNGGECVDLLDAYRCICPVGFSGTDCEEDRDHCTGSPCANGATCYTAQSDYYCHCSPGWTGKNCTQRAAREQLDECTPNPCSNNASCLPSPKGFTCICVEGYTGETCAIREEKRCELVCVNGGSCVRDPFPAPAGSSLANLPHHCACPPGWAGTLCDLPISPPVAPIASVPMQTAIIPITNAGIPCSCLHGGSCVSVGGASTWACVCRPGWSGAHCERAADGCSSSPCRNGGRCVGGAGWWTCECTLGWSGPDCSSPSCDPTCPSPAVCTASGAIARCVCPPPPARLARRCLELVAGLGEESGEAADGNESGSESTAEASDTPGACGADNGTWWWGCNACRCVGGAPSCTRLWCGLPDCLAPAALPCRTDEVCVPAAPALCLRPPCSPLGECRRVSGRRVEPPALPAPAACWPGARSSPPPGCARAELRLARERLARGAHVERACAALRRALAAALADRAPPAPPLTLLCDLAPDDDDALDLALWAGEEDDSEGVSALAAAVRVLSELISRRRLAHHALLAAALRLRVEHGTPTLPRAAVAEAAANSSGTGGALLALAAGAPLLLLGAAAGAFFLIRRRRAAATAAIDERSRCRDEEKSNNLQNEENLRRYANPLREDRVPREVDELPRAHSLYKAQNADVRNNTPPRDKELTKRVLPPPEPPPARHPPPERLTVLV-