Monarch geneset OGS2.0

DPOGS212648
TranscriptDPOGS212648-TA4137 bp
ProteinDPOGS212648-PA1378 aa
Genomic positionDPSCF300319 - 32813-42056
RNAseq coverage9x (Rank: top 85%)
Annotation
HeliconiusHMEL0136267e-16268.27% 
BombyxBGIBMGA007391-TA5e-14759.45% 
DrosophilaCG6321-PA4e-2426.02% 
EBI UniRef50UniRef50_E2AUG18e-9044.22%Kynurenine/alpha-aminoadipate aminotransferase mitochondrial n=9 Tax=Endopterygota RepID=E2AUG1_CAMFO
NCBI RefSeqXP_973433.14e-9444.58%PREDICTED: similar to Kynurenine/alpha-aminoadipate aminotransferase mitochondrial precursor (KAT/AadAT) (Kynurenine--oxoglutarate transaminase II) (Kynurenine aminotransferase II) (Kynurenine--oxoglutarate aminotransferase II) (2-aminoadipate transaminase) ( [Tribolium castaneum]
NCBI nr blastpgi|910869778e-9344.58%PREDICTED: similar to Kynurenine/alpha-aminoadipate aminotransferase mitochondrial precursor (KAT/AadAT) (Kynurenine--oxoglutarate transaminase II) (Kynurenine aminotransferase II) (Kynurenine--oxoglutarate aminotransferase II) (2-aminoadipate transaminase) ( [Tribolium castaneum]
NCBI nr blastxgi|3405009223e-11641.90%hypothetical protein IMG5_189860 [Ichthyophthirius multifiliis]
Group
Gene OntologyGO:00038243.9e-49catalytic activity
GO:00301703.9e-49pyridoxal phosphate binding
GO:00167693.6e-27transferase activity, transferring nitrogenous groups
GO:00090583.6e-27biosynthetic process
KEGG pathwaytca:6622281e-93 
 K00816 (E2.6.1.7)maps-> Tryptophan metabolism
 K00825 (E2.6.1.39)maps-> Lysine degradation
    Lysine biosynthesis
InterPro domain[955-1363] IPR0154243.5e-81Pyridoxal phosphate-dependent transferase, major domain
[1025-1242] IPR0154213.9e-49Pyridoxal phosphate-dependent transferase, major region, subdomain 1
[1021-1349] IPR0048393.6e-27Aminotransferase, class I/classII
[1243-1355] IPR0154221.3e-08Pyridoxal phosphate-dependent transferase, major region, subdomain 2
Orthology groupMCL16303 Patchy
Genotypes for resequenced monarchs and outgroup Danaus species

Nucleotide sequence:

>DPOGS212648-TA
ATGAATAGGAATTTATTAAGAAATATTTCAAACTACCGTCCAGTTTATGTCCTGAAGAAGAGCTACTCACAGAACGTTGAGGATATTTTCAAATTTTACAGCGAAGAAAGAAATGACTTTAGACAAAAGTATCGTGTGTTAGACGAAAAAGATTATAAAAGATTTCTCAGCAAGAGAGCCTTAAAGAGGCAGCCGGGATTAACGAGACAGATGAACTTCATAGAAAAACTCAGTGAAAATGTTATTTATAGTGTTCTTTTCCTTTTCAAATGCAAGATTCACAGTTTTGTGTCGGAGGCAATGAAACGTAATGTAAAAATCGTCATAAAAGATAGAGACTTAGAAGTAAGGGATTCGGAAACAACCGAAAAGGTAACTTGTACACATTTAAAAGAAAAAATTTATGACGAATATTTAACAGACCACATGGATACTAATAAACCAAAAGGAAATGACAAGAACAATAAATTACATCGGTTTATACGAGTATGTACGAAATATGAAAGAAATGAAAAAATATGTAAAGAAAATCTTTCCCATTTCAATGAACTTCAAAATGCTATTCCTAATAAAAAACGAGAAAAATGCTTCATTGACTTTGAAACAGATCAAGTTTGTAATAAATCTGTAATGGAAGTACGGAAGAGAGAAGATGATGATAAAAACTGTTACCAGAATCAAAACGCCTTTATTGAAGAAGACCGACATTGGAAAACGATCGCAGAAAATCAAATTCTTGATGATTATAAAGGTAAAAGCGATAATCTTGCCGATGTTTATAAAAATCAACGAGACGTCAAAACAAATCAAGGTCAAATATCAATTGTACAAAAGACTGATTTGGGACTAGACATACAAATAAACGAATCAGAAAAACAAACACTGGACGATGGGTTTAAAAATGAAAAGACGTTTGATGAACAAGACAATCTCAGGAAGATGGAAGGAGATAGACAACAAGAGGATATGGAAGAGCAAAGACTGTTTGACGAGCGAGAACACGAAAGGTGGTTGGATGAACAAGAGGATCTAAGAGAGATTGAAGAGCAACGGCTTTTGGATGAAATAGAAGAGCAACGACTGCTTGACGAGCAAGACCACGAAAGGTGGTTGGATGAACAAGAGAATTTAAGAGAGATTGAGGAGCAACGGCTTTTGGATGAAATAGAAGAGCAACGACTGCTTGACGAGCAAGACCACGAAAGGTGGTTGGATGAACAAGAGAATTTAAGAGAGATTGAGGAGCAACGGCTTTTGGATGAAATAGAAGAGCAACGACTGCTTGACGAGCAAGACCACGAAAGGTGGTTGGATGAACAAGAGAATTTAAGAGAGATTGAGGAGCAACGGCTTTTGGATGAAATAGAAGAGCAACGACTGCTTGACGAGCAAGACCACGAAAGGTGGTTGGATGAACAAGAGAATTTAAGAGAGATTGAGGAGCAACGGCTTTTGGATGAAATAGAAGAGCAACGACTGCTTGACGAGCAAGACCACGAAAGGTGGTTGGATGAACAAGAGAATTTAAGAGAGATTGAGGAGCAACGGCTTTTGGATGAAATAGAAGAGCAACGACTGCTTGACGAGCAAGACCACGAAAGGTGGTTGGATGAACAAGAGAATTTAAGAGAGATTGAGGAGCAACGGCTTTTGGATGAAATAGAAGAGCAACGACTGCTTGACGAGCAAGACCACGAAAGGTGGTTGGATGAACAAGAGAATTTAAGAGAGATTGAGGAGCAACGGCTTTTGGATGAAATAGAAGAGCAACGACTGCTTGACGAGCAAGACCACGAAAGGTGGTTGGATGAACAAGAGAATTTAAGAGAGATTGAGGAGCAACGGCTTTTGGATGAAATAGAAGAGCAACGACTGCTTGACGAGCAAGACCACGAAAGGTGGTTGGATGAACAAGAGAATTTAAGAGAGATTGAGGAGCAACGGCTTTTGGATGAAATAGAAGAGCAACGACTGCTTGACGAGCAAGACCACGAAAGGTGGTTGGATGAACAAGAGAATTTAAGAGAGATTGAGGAGCAACGGCTTTTGGATGAAATAGAAGAGCAACGACTGCTTGACGAGCAAGACCACGAAAGGTGGTTGGATGAACAAGAGAATTTAAGAGAGATTGAGGAGCAACGGCTTTTGGATGAAATAGAAGAGCAACGACTGCTTGACGAGCAAGACCACGAAAGGTGGTTGGATGAACAAGAGAATTTAAGAGAGATTGAGGAGCAACGGCTTTTGGATGAAATAGAAGAGCAACGACTGCTTGACGAGCAAGACCACGAAAGGTGGTTGGATGAACAAGAGAATTTAAGAGAGATTGAGGAGCAACGGCTTTTGGATGAAATAGAAGAGCAACGACTGCTTGACGAGCAAGACCACGAAAGGTGGTTGGATGAACAAGAGAATTTAAGAGAGATTGAGGAGCAACGGCTTTTGGATGAAATAGAAGAGCAACGACTGCTTGACGAGCAAGACCACGAAAGGTGGTTGGATGAACAAGAGGATCTAAGAGAGATTGAGGAGCAACGGCTTTTGGATGAAATAGAAGAGCAACGACTGCTTGACGAGCAAGACCACGAAAGGTGGTTGGATGAACAAGAGGATCTAAGAGAGATTGAGGAGCAACGGCTTTTGGATGAAATAGAAGAGCAACGACTGCTTGACGAGCAAGACCACGAAAGGTGGTTGGATGAACAAGAGGATCTAAGAGAGATTGAGGAGCAACGGCTCTTGGATGAAATAGAAGAGCAACGACTGCTTGACGAGAAAGAACACGAAAGGTGGGCGGATGAACAAGAGGATCTTAGAAAGATGGAGGAACAACAATATTTAGATGATACAGGAAAGCAAAATCTACTTAAGCAACACGTAGATGAGAACCGACAGTTAATAATTTCATTCGGATTATCTCCTATAAAAGGAGCTACACTGGCTTACAAAGTTGGCAAAGACATGATCTCACTGGCCGAGGGTATGCCGAATGAAGCAATCTTTCCGTTCACAAAACTGGAACTGACCACTAGAAGTGGAGGGAAAATTATTCTGGAAGAAGCGGAATTAGCGCCGGCCTTACAATACGTGCCTTCTCAGGGCCTCCCGGCGCTACTCAACGAGTTGAGAGAGTTTCAACGAGTTCTTCATCGTCCGTCTTCTCCTTCTGATGTTTTGGTCACTAACGGTGGACAGCACGGTATATATCAGTGTGTAGAGTTGTTGGTGGACCCTGGAGACGTGGTCATCACCACAGAATATTCGTACACTGGAGCTTTTAGTGCTTTGCGACCCTATGAACCTGAAATAATTGCTATACGTGAAGATGAGCAGGGTCTGAATGCGGAGACCTTGGACTCCATATTACACGAGAGACACACTCGGGGACAGAAAATGCCCAAAGTTATGTATCTGATTCCGACCGGGAACAATCCTACTGGAACAGTTGTTTCGGAGGAGCGGAGAAGACAGATATACGAGCTGGCCTGCAAATACGACTTCCTTATTCTTGAGGATGATCCTTACATGTTTCTAAATTATACTAACACCGTGATCCCGTCTTTCCTGTCCCTGGATGCTTGTGGTCGTGTGTTACGACTAGATTCTTTCTCCAAGGTGGTGAGTTCTGGTCTCCGAGCTGGATGGGTGACGGCTCCAGCAGCCCTCATACACTACCTCGAGCTACACGCACAGGCCGAACTATTGCACTCCTGCACCTTAGCCCAGACGATCCTTCATCGCCTGTTGTTGAACCGCAGCGCGCTTGCGTCACATCTTCACTCAACTCGTCATTTCTATGAACAACGTCGGAACGCCCTCACCAGCGCCATGAGGGAGGTGACCGGCCTGGAGTGGACTGAACCGAGTGCTGGTCTGTTCCACTGGGTGAAGGTTCCAGGCATCGAGGACGTCTATAATATGGTTTTCCAGACAGCTTTCAACCGTGGCCTTATGTTAGTTCCCGGGCAGGCTTTCCTCTTCGACAGTAGCGCCCCCTGTCCTCACGTAAGACTAGCCTTTAGTAAGATTCAAATGAAGGACATTGACGCATCAGTGCGCCTCCTAGCGGACATCACTGAAGAAGAACGGAAACTTATGGTACAAAAACAACCACAAAGATTGGCTACTGAACGATAG

Protein sequence:

>DPOGS212648-PA
MNRNLLRNISNYRPVYVLKKSYSQNVEDIFKFYSEERNDFRQKYRVLDEKDYKRFLSKRALKRQPGLTRQMNFIEKLSENVIYSVLFLFKCKIHSFVSEAMKRNVKIVIKDRDLEVRDSETTEKVTCTHLKEKIYDEYLTDHMDTNKPKGNDKNNKLHRFIRVCTKYERNEKICKENLSHFNELQNAIPNKKREKCFIDFETDQVCNKSVMEVRKREDDDKNCYQNQNAFIEEDRHWKTIAENQILDDYKGKSDNLADVYKNQRDVKTNQGQISIVQKTDLGLDIQINESEKQTLDDGFKNEKTFDEQDNLRKMEGDRQQEDMEEQRLFDEREHERWLDEQEDLREIEEQRLLDEIEEQRLLDEQDHERWLDEQENLREIEEQRLLDEIEEQRLLDEQDHERWLDEQENLREIEEQRLLDEIEEQRLLDEQDHERWLDEQENLREIEEQRLLDEIEEQRLLDEQDHERWLDEQENLREIEEQRLLDEIEEQRLLDEQDHERWLDEQENLREIEEQRLLDEIEEQRLLDEQDHERWLDEQENLREIEEQRLLDEIEEQRLLDEQDHERWLDEQENLREIEEQRLLDEIEEQRLLDEQDHERWLDEQENLREIEEQRLLDEIEEQRLLDEQDHERWLDEQENLREIEEQRLLDEIEEQRLLDEQDHERWLDEQENLREIEEQRLLDEIEEQRLLDEQDHERWLDEQENLREIEEQRLLDEIEEQRLLDEQDHERWLDEQENLREIEEQRLLDEIEEQRLLDEQDHERWLDEQENLREIEEQRLLDEIEEQRLLDEQDHERWLDEQENLREIEEQRLLDEIEEQRLLDEQDHERWLDEQEDLREIEEQRLLDEIEEQRLLDEQDHERWLDEQEDLREIEEQRLLDEIEEQRLLDEQDHERWLDEQEDLREIEEQRLLDEIEEQRLLDEKEHERWADEQEDLRKMEEQQYLDDTGKQNLLKQHVDENRQLIISFGLSPIKGATLAYKVGKDMISLAEGMPNEAIFPFTKLELTTRSGGKIILEEAELAPALQYVPSQGLPALLNELREFQRVLHRPSSPSDVLVTNGGQHGIYQCVELLVDPGDVVITTEYSYTGAFSALRPYEPEIIAIREDEQGLNAETLDSILHERHTRGQKMPKVMYLIPTGNNPTGTVVSEERRRQIYELACKYDFLILEDDPYMFLNYTNTVIPSFLSLDACGRVLRLDSFSKVVSSGLRAGWVTAPAALIHYLELHAQAELLHSCTLAQTILHRLLLNRSALASHLHSTRHFYEQRRNALTSAMREVTGLEWTEPSAGLFHWVKVPGIEDVYNMVFQTAFNRGLMLVPGQAFLFDSSAPCPHVRLAFSKIQMKDIDASVRLLADITEEERKLMVQKQPQRLATER-