Monarch geneset OGS2.0

DPOGS201957
TranscriptDPOGS201957-TA1947 bp
ProteinDPOGS201957-PA648 aa
Genomic positionDPSCF300384 + 181-11258
RNAseq coverage1073x (Rank: top 12%)
Annotation
HeliconiusHMEL0141879e-15954.48% 
BombyxBGIBMGA011218-TA1e-14944.71% 
DrosophilaCG10175-PC1e-3832.19% 
EBI UniRef50UniRef50_B5AK610.048.29%Carboxylesterase 4 variant 1 n=25 Tax=Endopterygota RepID=B5AK61_BOMMA
NCBI RefSeqNP_001040466.12e-17947.11%alpha-esterase 48 isoform l [Bombyx mori]
NCBI nr blastpgi|1955422200.048.29%carboxylesterase 4 variant 1 [Bombyx mandarina]
NCBI nr blastxgi|1955422207e-17847.64%carboxylesterase 4 variant 1 [Bombyx mandarina]
Group
KEGG pathwaydme:Dmel_CG98581e-33 
 K01044 (E3.1.1.1)maps-> Drug metabolism - other enzymes
    Tropane, piperidine and pyridine alkaloid biosynthesis
InterPro domain[129-458] IPR0020182.3e-51Carboxylesterase, type B
Orthology groupMCL10054 Insect specific
Genotypes for resequenced monarchs and outgroup Danaus species

Nucleotide sequence:

>DPOGS201957-TA
ATGATTACCGTTGTTGAAGAATTCCTCGACGATCTTCGTGGAGGCAGGATGAATGACTCGCCTATAGTGAGGGTGGCGCAGGGGCAGCTTCAGGGACGACTGGCTAGCTCACCCACCGGAAGAGCCTTTTATAGTTTCCAAGGTATACCATACGCGAAGCCACCCATCGGTTCTTTGAGATTCAAGGCGCCCCAACCTCCGGAGTCATGGGAGGGAATCCGGGACGCTACTTCAGAAGGCAACGTCTGCGCTCAGATGGACCTGTATAGTCAAAACCAGTATACAGGAGATGAGAACTGCTTGTTCCTTAACGTGTACACTCCCAGCATTGACGGGGAATTACTCCCAGTCATGATCTATATACACGGTGGCTACTTCGCTTACGTTTTCGGCAACAGCGCTGGCGGTGCGAGCACAACTTTACTCACAGCCAGCCCGCTGTCGAAAAACCTCTTCGGCAAAGCAATCTCCCAATCAGGAACAGCGTTGAATTTCTGGGTGTTCCAGAAGAATGCTCTAGAAAACGCCAAAAGTCTAGCAAAGGAATTGGGCTGTGAGTCGTCTAACACGGACGAAATCCTGGAATTCCTTTCAACGACTCCAGTAAGAGACGTCGTGGAGGCGGCTAACGCTATCAACTCAGTAGAAATCCTCTTGAAAACTCGTAACAACAAGTTTGGTCCCGTCATTGAGAAAGAGTTCCCTGGTGTCGAGGCTTTCCTCACAGAAGCATTCTTCGACCTACTGATATCTGGTCGCGTCGCAGACATTCCAATCATGATAGGCACAACTTCTCTGGAAATCACCATAGACGCGGATGTCACCGATCTACAAGTCTTCATCCCAGATATTTTGCATATTGAGAGGAATTCGCCCGAATCTTTGGCCATTGCGGACCAGATCCAACGGCTATACTTCAAGGGAACCCCGACTCCAGAGGAGATAAGCCAGCTGCTATCCGACGTTAGCTTCAACGTGGACGTGTACAGGTACATTCAGTACTTGGTGAACGTCACCAACAGGCCGATATACTACTATAAGTTCGATTACATCGGTGACCTGAACGTGGCGCACAAGCTGCTGAAAAGCATCGGACTCAAGGACAATGCTTGCCAACATTTGGACGAATTGGGTTATCTGTTCAGGAACGATCTCCACAAGGACATCGTAGAAAACCCTCAAGATATTAAAATGAGGGAACGTCTTATAAGATTGTGGACAAACTTTGCTAAATATGGAAACCCCACTCCGGATAAGAACCACTACCTGACGGTCACGTGGTTGCCAGTGACCAAAGACAAACTTAATTACATACACCTCAGCAACGAACTATCAATAAACTCGGATCCTGACAAGGAAAAAATGGAATTTTGGGACAATTTGTACGTAAAATATTTCAAAATATGGGACCAACCGTCGGTTAACCAAGAGCCAACTATAGATACCACCCCGGTTATAGTACAAGAGACCATAGTCACGACCGTCACTACAGTTGTGGATAGTTATGAAGAAGAAAAGGTCGAAGGTCACGTATCGGTTGATGTACAGGACACAGCAGGTGTTTCAGAACAAGACGTACTCGTTATAGAGAACCTGGAGATAAAAGACTCGGTCCAAGACGACGAGGCGGTTAACGAAAATCAGAACGGCAGCGTAGATGTACAGCAAGAAGTAGAAATAGAAGAGAGACAAGAAGACATACAGAAGAATGGCATCAATATAGTTGAGATACAGGAGAAATTCCAAAATCAGAACGGCGATTACAAATTTAACGGAAACGTCGAAAGGAAACCGCGGCCGTCCAACGAGATCAAGATGGTCCAGAACAGCAACATCAACCCTAAAGACGTGATCAGGGCCAACGACCCGCCCGAGGACGACCTCCCCAAGAACATCGGCGTCAACAAGTTCGTCAACTTCTTCGAGTCCCTCGGCGGCAAGAAGTAG

Protein sequence:

>DPOGS201957-PA
MITVVEEFLDDLRGGRMNDSPIVRVAQGQLQGRLASSPTGRAFYSFQGIPYAKPPIGSLRFKAPQPPESWEGIRDATSEGNVCAQMDLYSQNQYTGDENCLFLNVYTPSIDGELLPVMIYIHGGYFAYVFGNSAGGASTTLLTASPLSKNLFGKAISQSGTALNFWVFQKNALENAKSLAKELGCESSNTDEILEFLSTTPVRDVVEAANAINSVEILLKTRNNKFGPVIEKEFPGVEAFLTEAFFDLLISGRVADIPIMIGTTSLEITIDADVTDLQVFIPDILHIERNSPESLAIADQIQRLYFKGTPTPEEISQLLSDVSFNVDVYRYIQYLVNVTNRPIYYYKFDYIGDLNVAHKLLKSIGLKDNACQHLDELGYLFRNDLHKDIVENPQDIKMRERLIRLWTNFAKYGNPTPDKNHYLTVTWLPVTKDKLNYIHLSNELSINSDPDKEKMEFWDNLYVKYFKIWDQPSVNQEPTIDTTPVIVQETIVTTVTTVVDSYEEEKVEGHVSVDVQDTAGVSEQDVLVIENLEIKDSVQDDEAVNENQNGSVDVQQEVEIEERQEDIQKNGINIVEIQEKFQNQNGDYKFNGNVERKPRPSNEIKMVQNSNINPKDVIRANDPPEDDLPKNIGVNKFVNFFESLGGKK-