Monarch geneset OGS2.0

DPOGS205159
TranscriptDPOGS205159-TA3537 bp
ProteinDPOGS205159-PA1178 aa
Genomic positionDPSCF300197 - 312108-326682
RNAseq coverage1165x (Rank: top 11%)
Annotation
HeliconiusHMEL0098310.078.53% 
BombyxBGIBMGA001265-TA0.079.62% 
DrosophilaeIF5B-PB0.080.68% 
EBI UniRef50UniRef50_B4KZK50.072.35%GI12960 n=8 Tax=cellular organisms RepID=B4KZK5_DROMO
NCBI RefSeqXP_392101.30.068.65%PREDICTED: similar to eIF5B CG10840-PB [Apis mellifera]
NCBI nr blastpgi|3407224000.068.60%PREDICTED: eukaryotic translation initiation factor 5B-like [Bombus terrestris]
NCBI nr blastxgi|910808930.066.14%PREDICTED: similar to AGAP004824-PA [Tribolium castaneum]
Group
Gene OntologyGO:00055251.2e-33GTP binding
GO:00039241.2e-33GTPase activity
KEGG pathway 
InterPro domain[352-1021] IPR0157605.1e-176Translation initiation factor IF- 2
[1046-1177] IPR0090001.5e-35Translation elongation/initiation factor/Ribosomal, beta-barrel
[591-799] IPR0007951.2e-33Protein synthesis factor, GTP-binding
[913-1045] IPR0231153.3e-33Translation initiation factor IF- 2, domain 3
[590-748] IPR0052251.4e-19Small GTP-binding protein domain
[828-902] IPR0041612.1e-09Translation elongation factor EFTu/EF1A, domain 2
Orthology groupMCL11980 Multiple-copy universal gene
Genotypes for resequenced monarchs and outgroup Danaus species

Nucleotide sequence:

>DPOGS205159-TA
ATGGGAAAAGCTAAAAAGGGAAAGAAGGGTCAGACGACGGAGGATGGTGATAGTGACGTGGAGACGACTACCATCGAAAACGTTAAACCGGCTCAAATCAAGGGGAAGAAGAAAACAAATGATTCAGAAGAGAGTGAGGATGAAAAACCAAAAGTTAAATCTAAACAACGGAAATCTATTGATTCTGATGTAAAGGAAGTCACAAAAAACTTAAAGAATGTCTCAGTTTCAAACAAGTCTCAAAAGAAGAAAGTAGTCAGTAGCGATGATGAATCTGATGATAATGAGCCAGTGGAGAAACCAAAGAAGAATAAGAAAAAGGAAGAAAAAAGTGCATTTTCATTGTTAGCTGTTGATTCTGGTGATTCCGCACCCGAAGCCCCACCTTCATCGGATGATGAAAAACCAATTCAAAAAACACAGAAAAAGGCACCTGAAAAGAAAGAACCAGCGGGGAAAAAGGGCAAGAAGGCTAAGAGAAGGAAAGATGACAGTGACGAGGATATAGATAAAGTACTGGCCGAACTCGAAATGGAATATGCCGGAATAAAAAAAGAGGAACCACCAGCGCCAGCAGCACAGGCTGAAAAAGCTCCAGAAACCGTAGAAGAAAAACCCAAAACAAAGAAGAAAGGCAAAAAAGAGGAACCTAAACCTGAACAAGCTGAAAATGAGGCTGAAGATAAGGATAGTGATGATGATGGTGAAATAACCATAAAGACAGCGGCTCAGAAAAAGAAAGAAAAGAAGGAGAGGGAGAAACAGAAGAAGTTAGAAGCTAAGAAAAAAGAAAAAGAACAGGAATTTAAAAAGGAACCATCGGAACCGAAAACACCTGTTCCACCTGGAAAAGATAAGACTGAATCTAAACCTACGGTAGAGAAAGATGAAGGAAAAGCTGTGGTTGAAGATAAAGAAGCTGATGGCGATGCCCCAGCTATCGACGGAAAGAAAAAGAAAAAAGGTGATAAGGGTGACAAGGATGATAAGGGAAAGAAAGGTCCAACGAAAAAGACTATTGCTGCCATGCAAGAAGCTTTGAAGAAGGTGAAGGAAGAGGAGGAACGATTACAAAAAGAGGAAGAAGAAAGAATACGGCAAGAAGAAGAAAGGGAAAGGCAACGGTTGGAAGCGATTAGATTAGAAAAAGAGCGTAAAGATAGAAAGAAACAGAAAGAAAAGGAGAGGAAAGAAAGACTTAAGGCTGAAGGAAAACTGCTCACTCCGAAACAGAAAGCAGAGAAAGCCAGAGCTCAGGCTTTGTTAGATTCATTAAAGGCCCAAGGTATAGAGATCGGATCGGCCGAAAAGAAACCACCGAGGCCGGGTACCAGGATTAAGCCAACAAAATTGAAAACACAGATGTCTCAGGAAGAACCAGCTACTCCGATAGAAGAAAAGAAGGTCGAATTGAAGACATCAGATGTTAAGGAAGATGCGCCGAAGGTTGAAGAGAAGAAAGAGTCAGAAGACGATTCAGTGAAAGACGCCTGGGACGCGGAGTCTTCGGAAGACGAGCCTGAACCGGAGAAAACGGAAATTAAGCAAGACGAAAAACATGAACCCGTTGAAGAAACGAAAGAGAAAGAAGAAGACGAAAGCTCAGAAGAAGAAGATGACAGCTCTGAAGAAGACTCTAGTTCAGAAGAAGATTCTGGTGATGAACAGATGACGGACGCACAGAAGAAACGGGAATTGGTTCTTAAGAGATTAGAGAAAAGAAAAGAAGAAAACGAGAAGAACAAAGCGGACAATCCGTTGCGTGCGGCCGTCGTGTGTGTCTTGGGTCACGTGGACACTGGGAAGACCAAGATATTGGACAAGCTCCGAAGAACAAACGTACAGGACGGCGAGGCTGGCGGCATCACGCAACAAATAGGAGCAACTAACGTGCCCATAGAGAACATCAAGGAACAAACTAAACATGTGAAAGGGGTGAATGAGATATCATTCAAGCTTCCCGGCCTGCTCATCATCGACACTCCCGGCCACGAGTCCTTCAGTAACCTGAGGAACAGGGGATCGTCCCTTTGTGATATTGCCATTCTTGTCGTGGACATCATGCACGGTTTGGAACCACAGACGATAGAGTCGATAAATCTGCTCAAACAGAAGAAAACTCCCTTCATAGTGGCGTTGAATAAGATCGACCGTCTGTACGACTGGCAGAGCGCGCAGCGGAAGGACGTCAGGGACATATTGAAGATGCAACAACCCAACACCCAGCTGGAGTTCGAGAAACGAAGCAAAGATGTCATATTACAGTTCGCGGAACAGGGTCTGAATGCTGCCTTGTTCTACTCAAACCCTGACCCTCGCTCCTACGTTTCCCTGGTGCCCACGTCAGCTGTCACAGGCGAGGGTATGGGCAACCTGCTGGCCATGATCGTGCAAGCCTGTGAGGGACCCCTTCATAAGAGGCTCGTGTTCTCACAGCAGCTACTCGCTACTGTACTTGAGGTCAAAGCGATCCCTGGTTTAGGAACCACCATAGACGCCATCTTGATCAATGGTACTTTGAGGGAGGGGGACACCATGGTGCTGGCGGGTACTGATGGACCCATCGTCACTCAGATAAGATCACTGCTGATGCCGCAACCCATGAAGGAGTTGAGGGTTAAGAACGCGTATATTGAGCACAAAGAAGTGGTCGGGGCCCAGGGGGTGAAGATCGCCGCCAAGGAGTTGGAGAAAGCCATCGCTGGACTTAATTTACTCGTTGCCCAAAAACCTGATGAAGTTGATGTCCTGAAGGAGGAAGTGGCCCGCGAGTTGAAGTCTGCTCTATCATCCATCAAGTTGACGGAGCGAGGGGTCTACGTCCAGGCGTCGACGCTCGGCTCCCTTGAAGCCTTACTGGAGTTCCTCAGGACTAGCAAGATCCCGTACTCCGCCATAAGGATAGGTCCGGTGGTGAAGCGTGACGTCATGAAAGCCTCCGCCATGTTGGAACACGACTCACAGTACGCCACCATACTGGCATTTGATGTCAAGATTGAACGAGATGCCCAGGAACTAGCAGACAACTTGGGCGTGAAGATATTTGCAGCTGATATTATATACCACCTGTTCGACAAGTTCACAGCCTACAGGGAAGAGTTGAAACAGAAGAAGAGAGAGGAGTTCAAACACATCGCTGTGTTCCCTTGCAAGCTGAAGATCTTACCTCAGTTCGTGTTCAATTCCCGGGACCCCATCGTGGCTGGTGTCATGGTGGAGGCTGGTATCGTTAAAGAGGGTACTCCAATATGTGTACCCAGCAAGGAGTTCGTAGAGCTGGGTATAGTGACGTCTATCGAGGTGAATCACAAGCAGGTGGAGAGCGCCCGCAAGGGTCAGGAGGTGTGCATCAAGATAGAACCCATCCCCGGGGAGTCGCCCAAGATGTTCGGCAGACACTTCGACGAAACCGACATGATGGTCAGCAAGATATCCCGTGCCAGTATCGACGCTTGCAAGGATTACTTCAGGGACGACCTCATCAAGACCGACTGGCAGCTAATGGTGGAACTCAAGAAGCTATTCCAGATCCTCTAA

Protein sequence:

>DPOGS205159-PA
MGKAKKGKKGQTTEDGDSDVETTTIENVKPAQIKGKKKTNDSEESEDEKPKVKSKQRKSIDSDVKEVTKNLKNVSVSNKSQKKKVVSSDDESDDNEPVEKPKKNKKKEEKSAFSLLAVDSGDSAPEAPPSSDDEKPIQKTQKKAPEKKEPAGKKGKKAKRRKDDSDEDIDKVLAELEMEYAGIKKEEPPAPAAQAEKAPETVEEKPKTKKKGKKEEPKPEQAENEAEDKDSDDDGEITIKTAAQKKKEKKEREKQKKLEAKKKEKEQEFKKEPSEPKTPVPPGKDKTESKPTVEKDEGKAVVEDKEADGDAPAIDGKKKKKGDKGDKDDKGKKGPTKKTIAAMQEALKKVKEEEERLQKEEEERIRQEEERERQRLEAIRLEKERKDRKKQKEKERKERLKAEGKLLTPKQKAEKARAQALLDSLKAQGIEIGSAEKKPPRPGTRIKPTKLKTQMSQEEPATPIEEKKVELKTSDVKEDAPKVEEKKESEDDSVKDAWDAESSEDEPEPEKTEIKQDEKHEPVEETKEKEEDESSEEEDDSSEEDSSSEEDSGDEQMTDAQKKRELVLKRLEKRKEENEKNKADNPLRAAVVCVLGHVDTGKTKILDKLRRTNVQDGEAGGITQQIGATNVPIENIKEQTKHVKGVNEISFKLPGLLIIDTPGHESFSNLRNRGSSLCDIAILVVDIMHGLEPQTIESINLLKQKKTPFIVALNKIDRLYDWQSAQRKDVRDILKMQQPNTQLEFEKRSKDVILQFAEQGLNAALFYSNPDPRSYVSLVPTSAVTGEGMGNLLAMIVQACEGPLHKRLVFSQQLLATVLEVKAIPGLGTTIDAILINGTLREGDTMVLAGTDGPIVTQIRSLLMPQPMKELRVKNAYIEHKEVVGAQGVKIAAKELEKAIAGLNLLVAQKPDEVDVLKEEVARELKSALSSIKLTERGVYVQASTLGSLEALLEFLRTSKIPYSAIRIGPVVKRDVMKASAMLEHDSQYATILAFDVKIERDAQELADNLGVKIFAADIIYHLFDKFTAYREELKQKKREEFKHIAVFPCKLKILPQFVFNSRDPIVAGVMVEAGIVKEGTPICVPSKEFVELGIVTSIEVNHKQVESARKGQEVCIKIEPIPGESPKMFGRHFDETDMMVSKISRASIDACKDYFRDDLIKTDWQLMVELKKLFQIL-