DPOGS202529 | ||
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Transcript | DPOGS202529-TA | 3654 bp |
Protein | DPOGS202529-PA | 1217 aa |
Genomic position | DPSCF300131 + 387253-407327 | |
RNAseq coverage | 757x (Rank: top 17%) |
Annotation | ||||
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Heliconius | HMEL007435 | 0.0 | 83.89% |   |
Bombyx | BGIBMGA001552-TA | 0.0 | 93.55% |   |
Drosophila | CG14741-PB | 0.0 | 66.42% |   |
EBI UniRef50 | UniRef50_Q7PQW3 | 0.0 | 72.02% | AGAP002644-PA n=3 Tax=Coelomata RepID=Q7PQW3_ANOGA |
NCBI RefSeq | XP_396773.2 | 0.0 | 69.26% | PREDICTED: similar to Probable phospholipid-transporting ATPase ID (ATPase class I type 8B member 2) isoform 1 [Apis mellifera] |
NCBI nr blastp | gi|270000767 | 0.0 | 73.57% | hypothetical protein TcasGA2_TC011007 [Tribolium castaneum] |
NCBI nr blastx | gi|270000767 | 0.0 | 73.68% | hypothetical protein TcasGA2_TC011007 [Tribolium castaneum] |
Group | ||||
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Gene Ontology | GO:0000287 | 2.1e-243 | magnesium ion binding | |
GO:0005524 | 2.1e-243 | ATP binding | ||
GO:0015914 | 2.1e-243 | phospholipid transport | ||
GO:0016021 | 2.1e-243 | integral to membrane | ||
GO:0004012 | 2.1e-243 | phospholipid-translocating ATPase activity | ||
GO:0016020 | 9.5e-33 | membrane | ||
GO:0015662 | 9.5e-33 | ATPase activity, coupled to transmembrane movement of ions, phosphorylative mechanism | ||
GO:0006754 | 9.5e-33 | ATP biosynthetic process | ||
GO:0016820 | 1.7e-23 | hydrolase activity, acting on acid anhydrides, catalyzing transmembrane movement of substances | ||
GO:0046872 | 6.8e-16 | metal ion binding | ||
GO:0000166 | 6.8e-16 | nucleotide binding | ||
KEGG pathway |   | |||
InterPro domain | [51-738] IPR006539 | 2.1e-243 | ATPase, P-type, phospholipid-translocating, flippase | |
[859-943] IPR023214 | 3.3e-58 | HAD-like domain | ||
[489-677] IPR023299 | 2.2e-46 | ATPase, P-type, cytoplasmic domain N | ||
[239-282] IPR023300 | 1.2e-44 | ATPase, P-type, cytoplasmic transduction domain A | ||
[859-968] IPR001757 | 9.5e-33 | ATPase, P-type, K/Mg/Cd/Cu/Zn/Na/Ca/Na/H-transporter | ||
[424-684] IPR023306 | 1.7e-23 | ATPase, cation-transporting, domain N | ||
[107-378] IPR008250 | 6.8e-16 | ATPase, P-type, ATPase-associated domain | ||
Orthology group | MCL10055 |   | Multiple-copy universal gene |
Genotypes for resequenced monarchs and outgroup Danaus species |
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>DPOGS202529-TA
ATGACACGAGAACAATGTTTCGTTGCGAGTGAATTTAAACTGTCATTACAGTTACATGTAGTAACGACTCTCAAGCTCGGACTGTTCTTTGTTACAGAGAATGAACGGAGAATTAAAGCGAACAACAGGGAGTACAACGCTCAGTTCCGATATGCCAACAACTATATAAAGACATCAAAGTATTCAATAATAACGTTCCTGCCATTGAATCTTCTGGAGCAGTTCCAGCGGTTAGCGAACTTCTACTTCCTCTGCCTGCTGGTGTTGCAACTGATACCTGCCATATCATCTCTGACGCCCATCACGACCGCCATACCTCTGATAGGCGTGCTCGCGCTCACAGCCGTTAAGGACGCGTATGACGACTTTCAACGTCATCAGAACGACTCCCAAGTGAACCACAGGCGAGCTAAGACATTGAGGAACGGTAAGCTGGTTGAGGAGAAATGGGCGTCAGTTCAAGTTGGAGACGTGATCCGGCTGGAGAACGACCAGTTCGTGGCGGCAGACATCCTACTGCTCAGCAGTTCGGAGCCTAACGGACTCTGCTACATCGAGACCGCTGAGTTGGACGGGGAGACGAATTTAAAATGTCGTCAGTGTCTTCTGGAGACGGCCGCCATGGGTCAAGACGACGCTCAGCTGGGAGCGTTCGACGGCGAGATCGTCTGCGAGACGCCTAACAACCTTCTAAATAAGTTCGAAGGCACATTGAGTTGGCGTGAACAGCACTTCTCCTTGGACAATGATAAGATTCTGCTACGTGGCTGTGTACTGCGGAACACCTCGTGGTGCTACGGTGTGGTCGTGTTCGCCGGCAAAGACACCAAGCTCATGCAGAACTCGGGGAAGACGAAGTTCAAGAGGACCAGCATCGACCGACTGCTCAACTTTCTCATTATAGGGATAGTGTTGTTCCTGTTGTCGATGTGTGTGTTCTGTACGTGTGCGTGTGGTGTGTGGGAGTGGTTGGTGGGTCGATACTTCCAGTCCTACCTGCCCTGGGACACTCTCGTACCAGCGGAGCCGGCGCCGGGAGCGCTAGTTATAGCGCTCTTGGTATTCTTCTCGTATGCAATAGTCATGAACACTGTTGTGCCCATATCTTTATACGTCTCCGTTGAGGTCATAAGGTTTGCACAAAGTTTTCTTATAAATTGGGATGAAAACATGTATTACGAAAAGACTGGAACAGCTGCTAAGGCGAGGACCACGACGCTGAACGAGGAACTGGGTCAGATACAGTACATATTCTCGGACAAGACGGGTACATTGACACAGAATATAATGACCTTCAACAAGTGTTCCATAGCCGGCGTGTGTTATGGTGACGTAGTGGACGAGAACACCGGCGAGACCATCGAACTGACAGACAGCACTGAGCCGCTCGATTTCTCCGACAACCCGGAGTACGAGCCGGAGTTCAAGTTCTTCGACTCGAAGCTGCTGAAGGCCGTCCGGCGCGGCGACCGACACGTGTTCGACTTCTTCAGACTGCTGGCCCTCTGTCACACCGTGATGCCCGAACAGAAGAACGGAAGATTGGAGTATCAGGCACAATCGCCGGACGAATCGGCTCTGGTGTCAGCGGCGAGGAATTTTGGTTTCGTGTTCAGAGAACGTTCGCCTAATACAATTACTATAGAAGTTATGGGTAAAACGGAGGTGTATGAGTTGTTATGTATATTAGATTTTAATAATGTTAGGAAGAGAATGTCCGTGATATTGAAGAAGGATGGTGAAATTAGGTTATATACAAAAGGTGCTGATAATGTTATATACGACAGATTAAAACGGAACAGCCAGGAGGAGGTCAGATTGAAGACGCAGGAGCATTTAAATAAATTCGCCGGCGAGGGGCTTCGTACTTTAGCGCTGGCGTGGCGTCCCCTGGAGGAGCGGGGCTTCGCGGAGTGGAAGAGAAGGCACCAGGCCGCCGCCCTCGCGCTCCGAGACAGGGACGAGAGACTCGACGCTATATACGAGGAGATCGAAACCGACCTCATGCTGCTCGGCGTGACAGCCATAGAAGACAAGTTACAGGACGGAGTACCGGAAACCATAGCTAACCTGAGTATGGCCGGCATCAAGATATGGGTATTGACTGGAGACAAGCAAGAGACGGCCATCAACATCGGTTACTCCTGCCAGCTGTTGACGGACGACATGGCCGAGGTGTTCGTCATCGACGGCGCCTCACACGACGACGTGGAACGACAACTCGCCAAGTGCAGGGACTCCATACACGTCGTCAGCACCTTCCTGCCGCACGGTTCGGAGCCGAAGAGTTGTAGTTCGGAGGCTAACGGCGGGGCCGTCCCTCGTCCGTCCCCTGGCAGAGCTGCCAACGTGAAGCTGAACGCGCCCGCCGTGTCCGTCGTCACATTTAGGTGGGAACAAAACTTAGCACACAGTAATGAGTACGCGTCCGGGGGTCCTTATTCGACGGACGCCAGTGACCACAACGACGACACCAACGGGTTCGCTATAGTTGTCAACGGACACTCGCTCGTCCACTGTCTACATCCCAAGCTAGAGGAGAAATTCTTGGACGTGGTACTGAAGTGTCGTTCCGTGATCTGCTGTCGAGTAACTCCGCTACAAAAGGCAATGGTGGTGGAGCTCATAAAGAAGAGTCGGAAAGCTGTCACCCTCGCCATAGGAGACGGCGCTAACGACGTGTCCATGATCAAAGCGGCACACATTGGCGTGGGCATATCTGGCCAGGAGGGCATGCAGGCTGTGCTGGCTTCGGACTATTCGATAGCTCAGTTCCGTTTCCTGCAGCGACTGCTTTTAGTCCACGGTCGATGGTCTTACTACCGCATGTGCAAGTTCCTGAGATACTTCTTCTATAAGAACTTTGCTTTCACCGTATGCCATTTCTGGTTCGCTTTCTTCTGTGGATTCAGTGCTCAGACGGTGTTCGACGAGATGTTCATCTCTGTGTACAACCTGTTCTACACGTCCCTGCCGGTGCTGGCTCTGGGTGTGTTCGAGCAGGACGTGTCCGACGCCACGTCCTTACAGTTCCCGAAGCTGTACGCGCCCGGACACACCAGTCAGCTCTTCAATAAGACGGAATTTATAAAGTCCACTCTACACGGATGTTTCACATCGCTCGTGCTGTTCCTCATACCCTACGGGACGTACAAGGATGGTCTGGCGCCCGATGGCAAGATATTATCCGACCACATGCTCTTAGGAAGCGTCGTGGCCACTATATTAATCATAGATAACACTACACAAATCGCCCTGGACACGACATACTGGACCGTGTTCAATCATATCACCATCTGGGGTTCCTTGGTGTCGTACTTCGTGCTGGACTACTTCTACAACTACGTGATCGGTGGACCTCGCGCCGCCGCCGCGCCCGCACCGCGCACGCCGTCGGCACGCCGGGCGCGGCGCTCGGTGCGTTCCGGATACGCGTTCGCTCACCAGGAGGGCTTCGGTCGACTCATCACTTCCGGAAAGATCATGCGGCGTATCCCGCACGCGGACGCCGCCCTTTCCGCGCTGGCCTCTCTGCCGGGCAAGTTCCACCCCCGCGCGAGCACGCCGCCGCCGTCTGTGTCGCCCTCGCCCTCCCCCCCCTCGCCGCCCTCGCCGCGCGCGCCCAAGCAGGATCTCGACTCCGTGGACTTATGA
>DPOGS202529-PA
MTREQCFVASEFKLSLQLHVVTTLKLGLFFVTENERRIKANNREYNAQFRYANNYIKTSKYSIITFLPLNLLEQFQRLANFYFLCLLVLQLIPAISSLTPITTAIPLIGVLALTAVKDAYDDFQRHQNDSQVNHRRAKTLRNGKLVEEKWASVQVGDVIRLENDQFVAADILLLSSSEPNGLCYIETAELDGETNLKCRQCLLETAAMGQDDAQLGAFDGEIVCETPNNLLNKFEGTLSWREQHFSLDNDKILLRGCVLRNTSWCYGVVVFAGKDTKLMQNSGKTKFKRTSIDRLLNFLIIGIVLFLLSMCVFCTCACGVWEWLVGRYFQSYLPWDTLVPAEPAPGALVIALLVFFSYAIVMNTVVPISLYVSVEVIRFAQSFLINWDENMYYEKTGTAAKARTTTLNEELGQIQYIFSDKTGTLTQNIMTFNKCSIAGVCYGDVVDENTGETIELTDSTEPLDFSDNPEYEPEFKFFDSKLLKAVRRGDRHVFDFFRLLALCHTVMPEQKNGRLEYQAQSPDESALVSAARNFGFVFRERSPNTITIEVMGKTEVYELLCILDFNNVRKRMSVILKKDGEIRLYTKGADNVIYDRLKRNSQEEVRLKTQEHLNKFAGEGLRTLALAWRPLEERGFAEWKRRHQAAALALRDRDERLDAIYEEIETDLMLLGVTAIEDKLQDGVPETIANLSMAGIKIWVLTGDKQETAINIGYSCQLLTDDMAEVFVIDGASHDDVERQLAKCRDSIHVVSTFLPHGSEPKSCSSEANGGAVPRPSPGRAANVKLNAPAVSVVTFRWEQNLAHSNEYASGGPYSTDASDHNDDTNGFAIVVNGHSLVHCLHPKLEEKFLDVVLKCRSVICCRVTPLQKAMVVELIKKSRKAVTLAIGDGANDVSMIKAAHIGVGISGQEGMQAVLASDYSIAQFRFLQRLLLVHGRWSYYRMCKFLRYFFYKNFAFTVCHFWFAFFCGFSAQTVFDEMFISVYNLFYTSLPVLALGVFEQDVSDATSLQFPKLYAPGHTSQLFNKTEFIKSTLHGCFTSLVLFLIPYGTYKDGLAPDGKILSDHMLLGSVVATILIIDNTTQIALDTTYWTVFNHITIWGSLVSYFVLDYFYNYVIGGPRAAAAPAPRTPSARRARRSVRSGYAFAHQEGFGRLITSGKIMRRIPHADAALSALASLPGKFHPRASTPPPSVSPSPSPPSPPSPRAPKQDLDSVDL-