Monarch geneset OGS2.0

DPOGS206062
TranscriptDPOGS206062-TA4761 bp
ProteinDPOGS206062-PA1586 aa
Genomic positionDPSCF300028 - 542610-564925
RNAseq coverage354x (Rank: top 33%)
Annotation
HeliconiusHMEL0140630.076.02% 
BombyxBGIBMGA006844-TA0.054.01% 
DrosophilaSmg6-PA4e-6427.41% 
EBI UniRef50UniRef50_UPI0002062ACE9e-17338.58%UPI0002062ACE related cluster n=1 Tax=unknown RepID=UPI0002062ACE
NCBI RefSeqXP_393289.30.042.81%PREDICTED: similar to Telomerase-binding protein EST1A (Ever shorter telomeres 1A) (Telomerase subunit EST1A) (EST1-like protein A) [Apis mellifera]
NCBI nr blastpgi|3407122470.043.17%PREDICTED: hypothetical protein LOC100651950 [Bombus terrestris]
NCBI nr blastxgi|3504139690.035.03%PREDICTED: hypothetical protein LOC100742633 [Bombus impatiens]
Group
Gene OntologyGO:00054887.1e-05binding
KEGG pathway 
InterPro domain[807-915] IPR0194586e-11Telomerase activating protein Est1
[1409-1550] IPR0065967.5e-11Nucleotide binding protein, PINc
Orthology groupMCL10414 Multiple-copy universal gene
Genotypes for resequenced monarchs and outgroup Danaus species

Nucleotide sequence:

>DPOGS206062-TA
ATGGATGATGATTGTAAGGATTACAAGAAACTTAAACCACAACAACAGCTATACAAACCTGGTAGTGGACCTTTAAGGCGATCTAGGTATGGTCTGGACGCCAAAATGGAATCATTTGACATAGAGAACAGTACCAGAGGAAGGGATAAATCTCATTATGGCTCCCAACAGTCTATAAATGGGGAAGATGTGCCTGCAAGCAATCGTTATAGAAAACCTGAGCAACAACTATATGTACCAAGATCCGGAGATTCAAGTGCTGATATTGATAAAAGAGGTAAATCATCTTTCAAGTGTGATAATTCTAGTCAATATGGGAGTAGACAAAAATCAAACAAACAAGAAAATCATGGTTCAGGTAGTTCAGGATCATATAATAAGGATTCATCAATAAGAGATTCTCAACATAGGGATGGAAGTAATGACATAAATTATAATAGACATTATAGACAGGGTTCAGAAGCTAGATCAATGTCACCCATGCAAGGTGCACATGACCAGAAATCCTTAGATAGAAATAGAGACAGCAGAAGTATGGAGACATGGGCTGGGAGGCATAAATCAAGTTCAGGTGGCAAACCACCTTCTGGAAGAAGGAATTCAGCAGGGTTTTGTTCTGAGCCTCGCCCAAAGCATATGATAAATTTAGACAATTTACCACCTAGATTTAGAAAAAAATATTTAGAGTCAACTGGACATCAAAGTTTTGATAGTGTAGACCAATTGAATAAAAACCAATATGGCAGCAGTGATATGTCTCAGTCCCAATATATCCCTAATCAGTTTTACAGTTCAAACACCACTAATTGGTCTCAAACCCTTCCCTCTAGAGGCCGGGGTCGCTTAAGAGATAATGAAAGTTTTGATAGGGAAAAATTTATAAACACATACATTAAAAATTATGAAGTACAAAATTCAAGAAGGTCAACCCCGAGCAGTTCGTACATTAATTTGTATGAAACTACCGTCAATGAAAGCAAAAGCCTTTCAGAAAAATTAGATTCCTTAAACATTGAATATGAAAGCCAAAATAATTTAAATAATGGCGCTACAATAAGTGGGATTAACACAAATGAAGTCCAGTACAGCGACAAGGAATCCGAGGATAAAGTGGAAAGTACTGATAACCAAAACGATAGTGAATCACTATCTCACTTATCAACAAATCTTTCCGACATGACAAATTTGGATTGGACTGAGGAGGTTGAGAAAAATATAAAACTTGATGATGTATGTAATTCATCAGCATCGTTTTCACAAAGTGAAAGCTTCTCCCAGAAGAAACCAATCAATAAACCAGAAGTAAAAGAAGTCGAACCGCGAGAATCGAAACGGAGTGCCAGGTCGAGGCGCAGAGACAGAAGGAGCTCAAGCAGAGGACACAAAAACACCGAAAAGAAAGAACGGAATAGAAAAGACAGCAATGTAAGCGTAGCTTACGAACCTGAGAGAAGTCGAAAAGATAGTAATGTTAGTATACAATACGACGCTTCATACGGTCCCAAACAGCGGGAGAGGGAACGAAGGGACAGTCACAGGAGCAATCGATCATCGACCATAGGAAATAGTAGAGATGACCTTGACAGGTGGAGGTCATTGAGGTCCTACAGTCGGGAACACAGCTCTGAAAGGAGAATAGTATCACAGTGTAATAGCAGAGATACGTCTGCAAACAGAGCTACCAGCCCTAAAGACAATGAAGGTTTCAGGGTTCCTACCAACACCGCTAAGACATGGTCCACAGCAAACCAGAAGAGGAGCAATGGTCCTGTAAACGGTCGTGCTGGGAGCTCTGAGCGTAAGTCACCAGAGCACGAGGGAAGCGGCCGGCGCTCTAAGAAGAGATATGTGAGGAAACGGAGGAACGCAGAGAATACTCAGCCAGCGAACAACTCATCAGCAAACATCAACTGGAGGGACGAAATCATTGAGTCCAAGAAACATGACAGATCTGAAGGCACTCATAACAGAAATAGGCTGAACAGCGTTTTGTCTGAAAAGTCCGTCACAGAGACCGGTTCTCAACCCGGATTAATTATCTTGCCACAGAGTTCAATGACACATTTTCAGAAAGACCAAAATATTCGTGGAGCACCAAACGAAACCCAAAAAACATTATTTGATCATCACAATCCGTCAAAACCTATTATCATACAGACCACACCGTCAAAACATGACATGAGAATGGAAAGAGGTGTGAAGGAGTTTCCGCGGTACGGTTGTTCAGAGGGCGAGCGTGGTGCTCGTCACACAGCGTTACTGCAGACCGTGGATCGAGCGGACGCTATACTCAAGACACACACCCTTCAGGGACCCCTGGCGTTGGCGGCTAACTGGTCAGACGTGTTGGATACCAGGAAGTTTCTACAAGGAGCTCTTCAGAGACTGCTCATGTCCGATCTGAAATTTTGTCAGGCTGATAACATAGAACAGCAGTTCTGGAAGATTCTATACTATCATTTTATAGAGAATCTAAGGAAAAGTATTGCGACGGTAACGCCCGAAGAAAAACCTGAAGTTGTCAAATTGATAAATACCATTATAGACGAGGGGAATACCTTCTTTGAGAATCTTGTACAGATGTTAGAGAAAACTTATAAATTTAATACCGAAGACTATTTGAACGACAATCACGTGTTGCCGCCCAAGGGTCTCGGCTATGTGGGGCTGGCTTTGATATCGGTGCAGAAATTGTACGTTTTTCTCGGAGACTTAGCCAGATATAAGGAACAAGTTAACGAAACTAACAATTACGCCAAAAGCAAATTATGGTACACGAAAGCACAGCAAATAAATCCAAAAAATGGCAGACCATACAATCAGCTGGCAATATTAGCAATATACGCTAGAAGAAAATTAGATGCAGTCTATTATTATATGAGAAGCTTAATGTCCTCGAATCCGTTCCAATCAGCTCGCGAGAGTTTATTATCCCTGTTCGACGAAAACAGAAAAAAGTATGAGGCGGCGGAGCGGAAGCGCCGTGCTGCCGCGGAGTCCAAGGCTGGTGATAGCGGTGACGGTGCCGCGGGGGGCTCCGGTGTGAGGGGAGGACTGCGAGGCGCCGCTGGTGGCTCCGGTGTGAGGGGAGGGCTGCGGCGCGAGGTGTGGGTCAGACCGAGCGGACACCGCACCACTACACTCAGCCACGCGAGGCGGGACTCCTTCAATAGCATCACGCCCGTCGAGTTAAACAAAACCTTCATCACCAGCTACTTGCACGTTCACGGGAAGCTCATTACTAAGATCGGTATGGAGACGTTCCACGTGTGCGCGTGTCAGATGCTTCGTCAGTTCCGTTCCCTCCTCAACCGAGTGCCGCTGCCGACGCCAGCGCCTCGTCTGCTGCAGCTCACAGCACTCAACATGTTCGCTGTGGAGACGACCGCACAGGCCAAAGGTAGTAACGGCGAGGAGCGCTCGGCTTGGTTAGAATGCGCTTTAGGTGTGTCCTTGCTAATGTTCGGTGCGCTGCTCGAGAGGTGCTGCGCGCTGCTACCCGAGCCGCAGCACACCCAGCAGCACGCTGATGCATTGCTTCTTCTGCCTGCCATTAAGATGTGGTCGGACTGGATGTTATGTCATAGCAGTATTTGGAATCCGCCACCTAGTTTTGACAATTTCGAATTAGAAAGCGAAAACGATCCTTGGGATTGGCTCGCGAAGCTTATGAACATATTGGAAGCCCTTGACGACAAATCATTAGAATTTGAGAACGAACCGAAGGAAGGATATATTCCCGTAAGGCTGCCGGAGGATGCTTCCCTCGCTGGGTTCACGCCGCTCATGTACATGGAGCCGGCGCTGGCGCACGTGGCGCCGCACGCGCACGTCGCGCCTCACGCCGCTGAACACGCGCTGCGCATGCGCAAGCTGCTGTTCTTCGGAACCGAATACCTGGTGGGTGTGGAGCCTCCGGTGCTCAAGCTGGAGTACCCGGTCGGTGAACAGCCGCGGTATGTGAGTGCTGTACAGCGAGCACAAGCAGACTACCCACCATTACAACATCTTTCTGAAGACTCGGAAGTCGACGAGAGTGTGAGTACGACCAGCGGTCCGACGAGTCTGAGCGAGGCTGTGGAGGCCCCGGACGACGACACCAGGGACCTGCTGAGACGGAGGGACCTTCTGGAGAACAGGAGGGCCACCATAGAGAAACGACGACAACGGATGCAGGAGATGCTTAGCACCGGATGGGTGAGCGTAGAAGTGGAAGTTCGTCCGCGTTGGTTGGTACCCGACACCAACTGCTTCATCGACCACCTGCCGTTGTTACAAGCGGTGGCCAGCGCACCATCGCAGCCTTACAACCTCGCTGTGCCGCTCGTTGTTGTAACGGAGCTCGAGGGTTTGAAGAAGTGTTCTCGTTTGGGGGGTAAGGCGAGGGACGCCCTGGCCTGGGTGTGCGGTGGTGGTGCGGGGGGTGCGGGAGGAGGTACTGTTAGGTTGGCTACAGCCCGGGGCTCTCTGCTGACGTCACGGACTTTCACGGCCGAACAGGACGAGGGTAGAGCCACCAACGACGACCGCGTGCTGGCCACCGCTCTCAACCTGCAGGCGAATCTCACAGCTGACGGAGCGGAGGTCCGGGCGGACGGCGGCTGTGTTCGCGTGGTGGTGTTGGTGACGGACGACCGCAACCTGCGCGTGAAGGCTTTGTCGGCAGACCTGCCAGCCAAGGACCTGCTGTCATTCGCGCAGTGGGCGGGACTGCACGCTGATACGAAACCCAAGTCGGACGCCCGCAGTGCCGATGTTTAA

Protein sequence:

>DPOGS206062-PA
MDDDCKDYKKLKPQQQLYKPGSGPLRRSRYGLDAKMESFDIENSTRGRDKSHYGSQQSINGEDVPASNRYRKPEQQLYVPRSGDSSADIDKRGKSSFKCDNSSQYGSRQKSNKQENHGSGSSGSYNKDSSIRDSQHRDGSNDINYNRHYRQGSEARSMSPMQGAHDQKSLDRNRDSRSMETWAGRHKSSSGGKPPSGRRNSAGFCSEPRPKHMINLDNLPPRFRKKYLESTGHQSFDSVDQLNKNQYGSSDMSQSQYIPNQFYSSNTTNWSQTLPSRGRGRLRDNESFDREKFINTYIKNYEVQNSRRSTPSSSYINLYETTVNESKSLSEKLDSLNIEYESQNNLNNGATISGINTNEVQYSDKESEDKVESTDNQNDSESLSHLSTNLSDMTNLDWTEEVEKNIKLDDVCNSSASFSQSESFSQKKPINKPEVKEVEPRESKRSARSRRRDRRSSSRGHKNTEKKERNRKDSNVSVAYEPERSRKDSNVSIQYDASYGPKQRERERRDSHRSNRSSTIGNSRDDLDRWRSLRSYSREHSSERRIVSQCNSRDTSANRATSPKDNEGFRVPTNTAKTWSTANQKRSNGPVNGRAGSSERKSPEHEGSGRRSKKRYVRKRRNAENTQPANNSSANINWRDEIIESKKHDRSEGTHNRNRLNSVLSEKSVTETGSQPGLIILPQSSMTHFQKDQNIRGAPNETQKTLFDHHNPSKPIIIQTTPSKHDMRMERGVKEFPRYGCSEGERGARHTALLQTVDRADAILKTHTLQGPLALAANWSDVLDTRKFLQGALQRLLMSDLKFCQADNIEQQFWKILYYHFIENLRKSIATVTPEEKPEVVKLINTIIDEGNTFFENLVQMLEKTYKFNTEDYLNDNHVLPPKGLGYVGLALISVQKLYVFLGDLARYKEQVNETNNYAKSKLWYTKAQQINPKNGRPYNQLAILAIYARRKLDAVYYYMRSLMSSNPFQSARESLLSLFDENRKKYEAAERKRRAAAESKAGDSGDGAAGGSGVRGGLRGAAGGSGVRGGLRREVWVRPSGHRTTTLSHARRDSFNSITPVELNKTFITSYLHVHGKLITKIGMETFHVCACQMLRQFRSLLNRVPLPTPAPRLLQLTALNMFAVETTAQAKGSNGEERSAWLECALGVSLLMFGALLERCCALLPEPQHTQQHADALLLLPAIKMWSDWMLCHSSIWNPPPSFDNFELESENDPWDWLAKLMNILEALDDKSLEFENEPKEGYIPVRLPEDASLAGFTPLMYMEPALAHVAPHAHVAPHAAEHALRMRKLLFFGTEYLVGVEPPVLKLEYPVGEQPRYVSAVQRAQADYPPLQHLSEDSEVDESVSTTSGPTSLSEAVEAPDDDTRDLLRRRDLLENRRATIEKRRQRMQEMLSTGWVSVEVEVRPRWLVPDTNCFIDHLPLLQAVASAPSQPYNLAVPLVVVTELEGLKKCSRLGGKARDALAWVCGGGAGGAGGGTVRLATARGSLLTSRTFTAEQDEGRATNDDRVLATALNLQANLTADGAEVRADGGCVRVVVLVTDDRNLRVKALSADLPAKDLLSFAQWAGLHADTKPKSDARSADV-