Monarch geneset OGS2.0

DPOGS202575
TranscriptDPOGS202575-TA4098 bp
ProteinDPOGS202575-PA1365 aa
Genomic positionDPSCF300355 + 162683-175152
RNAseq coverage288x (Rank: top 38%)
Annotation
HeliconiusHMEL0131940.069.62% 
BombyxBGIBMGA004279-TA0.074.09% 
Drosophilaird1-PA0.043.13% 
EBI UniRef50UniRef50_E2BB700.046.37%Phosphoinositide 3-kinase regulatory subunit 4 n=3 Tax=Formicidae RepID=E2BB70_HARSA
NCBI RefSeqXP_001602980.10.046.38%PREDICTED: similar to conserved hypothetical protein [Nasonia vitripennis]
NCBI nr blastpgi|3072105750.046.37%Phosphoinositide 3-kinase regulatory subunit 4 [Harpegnathos saltator]
NCBI nr blastxgi|3072105750.046.58%Phosphoinositide 3-kinase regulatory subunit 4 [Harpegnathos saltator]
Group
Gene OntologyGO:00054889.9e-40binding
GO:00055156.4e-34protein binding
GO:00167725.3e-32transferase activity, transferring phosphorus-containing groups
GO:00055243.1e-16ATP binding
GO:00046723.1e-16protein kinase activity
GO:00064683.1e-16protein phosphorylation
GO:00046741.1e-09protein serine/threonine kinase activity
KEGG pathwaynvi:1001191520.0 
 K08333 (PIK3R4, VPS15)maps-> Regulation of autophagy
InterPro domain[413-742] IPR0119899.9e-40Armadillo-like helical
[953-1365] IPR0110466.4e-34WD40 repeat-like-containing domain
[25-306] IPR0110095.3e-32Protein kinase-like domain
[1332-1365] IPR0159438.6e-30WD40/YVTN repeat-like-containing domain
[276-733] IPR0160249.1e-26Armadillo-type fold
[28-303] IPR0174423.1e-16Serine/threonine-protein kinase-like domain
[26-317] IPR0022901.1e-09Serine/threonine-protein kinase domain
[997-1033] IPR0197814.7e-06WD40 repeat, subgroup
Orthology groupMCL13462 Single-copy universal gene
Genotypes for resequenced monarchs and outgroup Danaus species

Nucleotide sequence:

>DPOGS202575-TA
ATGGGAAACCAGCTCGTGGGTGTCGCTCCTTCTCAAATATTCCCCGTGGAACACTACCTGAGCGACCATGTAGACTTGACTTTTGATCAGAGCCTTGGCTCAACGAGGTTCTTCAAAGTAGCCCGAGCTCGTACCCGTGAAGGTCTGGTTGTGGTGAAGGTTTTTGCTGTGCATGATCCGTCCCTACCTCTTGCAGAACACAAAGAACGAATTCTGAAAATCAAAGAGCAACTGGCTTCGGCATTCAATTGTCTGCCATTTCAGAGAGTTATACTTACCGATAAGGCTGGACTACTTATTAGGGAGTACCTTAAGTGTAGCGTCTACGACCGGATGTCAACGCGACCTTTTCTCACGGTGTTGGAAAAGAAGTGGATAACATTCCAAGTACTATATGCTTTGCACAGGATGCACAAGCTTGGAATATGTCATGGTGACATTAAGCTAGAAAATATAATGGTTACATCATGGCTTTGGGTCCTTCTGACGGATATAGCTTCCTTCAAACCAACCTTCCTACCAGATGACAACCCAGCTGATTTTAGCTACTTCTTTGACACTTCCAGAAGAAGATTATGTTATGTCGCCCCGGAGAGATTTGTGGGGGCCCCAGATCCTAACGCCAGGCCTCCAAGCGATGATAGGAATGCTGGTCTGTTGCTAAGCGAGTCTCCTTGTAAAATTGGCGAACTAGTTCCCAGTATGGACATATTCTCGGCGGGATGCGCTCTACTAGAACTATGGAACGATGGCACCCCAGCGTTGGACCTGCCGGGGTTGTTGTCCTACCGTAACGGGGAGCCGAGACCCCCTACTATGACGCTGCCGGACACGTGCGAGCCCCAACTACGAGATCTGCTGCACTCCATGACTGAAAGAAACCCCAAAGATAGACGCAGCGCCGAGATTTATCTGGACGAGGCGAGGGGCACTTTGTTCCCCGAATACTTCTACTCGTTCCTACAATCCTACATGCTGATATTCTCCGCCCAGCCGATACTGCCCGCCGACGAGAAGATAACCCGCATCCATCAGGACATAAAGAACATCATCAGGATCTTCACACAGACTTCCAACACCAAGAACTACCAGGACCTGGTCGATGAGACCACCGACAACCAGAAGGTTGAAATTGACGCTCTGATTAAGGAAGGGTTCAGGGTTATGAAGGTCAATGTGACGGACTGCGAGGAGGAAGGGGAGAAGACTCAGGAGGACCGGCAGCTGGGGCCCGACAGCGAAGGGCTGATATTGATTACGTCATTGGTGACGTCATGCATTCGTGGCCTGCACCATTGCACGTCGAAGCTCTACTGCCTGGAGATCCTGCAACTGCTCTGCGAGAACTCCACCTCGGAAGTCATATTGGACAGGATATTGCCTTTCATTATATACTTGTCCCACGCGCCCGAGGCCCGCGTCCGAGCGGCGTCCATCTGGTGCGTGTCTCGCTGCGTGTCGTGTGTCCGCGTGCTGCCGTCTTCTGACTGCAACGTGTTCCCGGAGTACATCCTGCCGGAGCTGGCGCCCCGAGCTTCAGACCCCGCGCTGCCGGTCCGCATCGCCTACGCCAATAATATTGCCAAACTAGCTGAGACCGCTGTGAGGTTTCTGGATCAAACTCAGAACATGGCGGACAAGGAGGCCGCCAACATCAACTATGAGACGGAACTGTCGGCTCTGCACGAGATGGTGCGGTCGACTGTGTCGTACTTACTGACTGACTCCCAAGCGGTGGTCAAACGGGCGCTCGTCGAGAACGGCATCACGAAATTATGCGTTTTCTTTGGAAAACAAAAAGCTAATGACGTCATCCTGTCTCACATGGTGACATTCCTTAACGATAAGGAGGAGGTGTCACTGCGGGGCTGTTTCTTTGAGCGCGTGGTCGGGGTGGCCGCGTACGTCGGGCACCATGCTGCTAACATACTACTGCCGCTGCTGCAACAGGGTCTCACGGATCAGTCTGAATGGATAATAGCGAAGGCGCTCCGCGCGACCACGAGTCTGGCGGAACTGTGGCTCCTGCCAAAGCAGTCTCTGTGTGATTTAGTAGCAGAAAGCTCCGTCTACCTCGCGCACCCTAACCTGTGGATCCGTCACGAGGTATGCGGCTTGGTGTCGTGTGTTGCCAGTCTCCTGAACCCGATAGATGTCAATTGTAAGATATTGCCGTTGGTGTGGCCACATCTCAAACATAAGTTGATGCAGGAGAATTCGCAGGTGGATAAAGCCGAGCTGCTGCTAGAGAGTGTGGCCGAGCCCATACCGCGGAAGGTACTGGACGCGGTGCTGAGGCACGGAGACGTGGACCGGCTGGTGGTCACCCTGAGGGAGAGGCGAGCCACCAGGATGAAGGTGAAGCAGGGCGTGATGCCGCAGTACTCGGAGATGGGACAGCAGCTGAAGAACTTGTTTAGACGACTGGCGTCGGACGGAATGACGGAACACGTTGAGAACCAGCTGCTGGCGATGAGCACGCACCTCATCAAGATACAGTGTTCATCCACACAGCACATAACCGACGCGCCGGGGAAGCTGGTGTTGGCTGGGAAGGATATATCGAAATCAGTGCAGTTGGAGGTGGGAGGACAGGACGTGGTCGAGAAAATGTATGTACAGAGACGGACACACAAGACGTCTCTCAACCACGAGACACACATGAATACGGAGTGGCAACACATGTTCGGACAGACGACGGAACAGAGCACTGTGAAAGAGATGTTTTATTTAGTGTCCGAGAGCCAGGCGGTGTCGAGCGTGTCCGGGGCGGTGTCGACCAGTGTCCCGCCCTCACACACACACTCGCAGCTCGCACACAGCGCCACGTATGTGCAATATAGCATGGCCCCCTGCCGGATAGAGCTGAGGAACCTTATAACCAGGATGCAGCAGAAGTACAACAAGTCTCTGAGAAGCCACGAGGATCCAGTAGAGTCAGGCGAAGACCTGGCGCCTCCCTCCACCTGGAGACCTGGCAACACACTGCTGGCGTACCTTCATGAACACAGATCGCGTGTGAACCAGCTGGTGCGTCTGCCGGCTCACCGGTCGATGTTCGCCTCGTGCTCAGACGACGGCACCGTGAGGCTGTGGGACGCCACCCGCCTGCAGGGACACGCATACGTTAACAAGTCCAAATGCGTGTACAACCGCGGTGCTGGAGCCGTGGTGTCCCTGACGGCCTGCGAGGCCGGACACTCCCTGGCCGCCGCCACCACGGACGGATCGGTGTTCGTGTTGCGCCTAGACGCGGGCTCCCGTCTCTGCCTGTCTCAGTGCCGTCAGCTGGAGGGCGGGTCGGAGGGCGCGTGTGTGGCGGTGTCGGCCGCGGGCGGGGTCCTAGCGGGGGTCATCTCGTACGCCACTCTGGGGGCTTGTGTCGTCGGCTGGGACCTCAGAGCCCCCGGTAACGCGTGGAAGCTGCAGGGAGATCTCAAGCAGGGCGTGTACACATGCCTGTACGCTAACAGCTCCGGTTACATTGCCGTGGGCACCTCCAGCGGGGCGGTGTGTGTCTGGGACCTGAGGTTCAGTCTGCCGATCACGTCCGTCAAGCATCCGAACTCTGAGCGTATCCGTCGTATCGTGGGCAGCGGTGGTCGCCGTGTGTGGGCGGTGGGCGGGCGGGACGCGGCCTCGTGGTGCCTGGAGTCCACTCAGAGGACCCACGCGCTGTGGCCCTTCACCGCCTCCCAGCAACCGCTGAACTACGAACATGCGTCGTCCCACTACATATCGAGCGCGTACTGCGGCACCCGCGACGGGAGCCGGTTCGTGGTGACCGGCGGCTCCGACCAGAGGCTGAGGCTGTGGGACCTGCAGCACGCCGAGGACTCGCACGTGCTGCTGCACGCTCACAACGAGCACATGGACGCCGTCAAGTACAGGAGTCGTATCATAGACGGGACGACTGTGATACAAGAAATTTGGAAACCGAATCCGACCTCGACGACCCACGAAGACAATGTGTACCGAACAGTCGAGTCACGGAGCTTCTATCACACCGCACCGATAACGGACATCACGCTCGTGGAGGGGAGCAGATGCTACCTCGTCAGTTCGTCCGCCGACGGTGTCATTAACGTCTGGAAATGA

Protein sequence:

>DPOGS202575-PA
MGNQLVGVAPSQIFPVEHYLSDHVDLTFDQSLGSTRFFKVARARTREGLVVVKVFAVHDPSLPLAEHKERILKIKEQLASAFNCLPFQRVILTDKAGLLIREYLKCSVYDRMSTRPFLTVLEKKWITFQVLYALHRMHKLGICHGDIKLENIMVTSWLWVLLTDIASFKPTFLPDDNPADFSYFFDTSRRRLCYVAPERFVGAPDPNARPPSDDRNAGLLLSESPCKIGELVPSMDIFSAGCALLELWNDGTPALDLPGLLSYRNGEPRPPTMTLPDTCEPQLRDLLHSMTERNPKDRRSAEIYLDEARGTLFPEYFYSFLQSYMLIFSAQPILPADEKITRIHQDIKNIIRIFTQTSNTKNYQDLVDETTDNQKVEIDALIKEGFRVMKVNVTDCEEEGEKTQEDRQLGPDSEGLILITSLVTSCIRGLHHCTSKLYCLEILQLLCENSTSEVILDRILPFIIYLSHAPEARVRAASIWCVSRCVSCVRVLPSSDCNVFPEYILPELAPRASDPALPVRIAYANNIAKLAETAVRFLDQTQNMADKEAANINYETELSALHEMVRSTVSYLLTDSQAVVKRALVENGITKLCVFFGKQKANDVILSHMVTFLNDKEEVSLRGCFFERVVGVAAYVGHHAANILLPLLQQGLTDQSEWIIAKALRATTSLAELWLLPKQSLCDLVAESSVYLAHPNLWIRHEVCGLVSCVASLLNPIDVNCKILPLVWPHLKHKLMQENSQVDKAELLLESVAEPIPRKVLDAVLRHGDVDRLVVTLRERRATRMKVKQGVMPQYSEMGQQLKNLFRRLASDGMTEHVENQLLAMSTHLIKIQCSSTQHITDAPGKLVLAGKDISKSVQLEVGGQDVVEKMYVQRRTHKTSLNHETHMNTEWQHMFGQTTEQSTVKEMFYLVSESQAVSSVSGAVSTSVPPSHTHSQLAHSATYVQYSMAPCRIELRNLITRMQQKYNKSLRSHEDPVESGEDLAPPSTWRPGNTLLAYLHEHRSRVNQLVRLPAHRSMFASCSDDGTVRLWDATRLQGHAYVNKSKCVYNRGAGAVVSLTACEAGHSLAAATTDGSVFVLRLDAGSRLCLSQCRQLEGGSEGACVAVSAAGGVLAGVISYATLGACVVGWDLRAPGNAWKLQGDLKQGVYTCLYANSSGYIAVGTSSGAVCVWDLRFSLPITSVKHPNSERIRRIVGSGGRRVWAVGGRDAASWCLESTQRTHALWPFTASQQPLNYEHASSHYISSAYCGTRDGSRFVVTGGSDQRLRLWDLQHAEDSHVLLHAHNEHMDAVKYRSRIIDGTTVIQEIWKPNPTSTTHEDNVYRTVESRSFYHTAPITDITLVEGSRCYLVSSSADGVINVWK-