New model in OGS2.0 | DPOGS212827  |
---|---|
Genomic Position | scaffold96:- 24534-29932 |
See gene structure | |
CDS Length | 3201 |
Paired RNAseq reads   | 135 |
Single RNAseq reads   | 371 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA000773 (2e-30) |
Best Drosophila hit   | alpha-Esterase-9, isoform B (5e-44) |
Best Human hit | carboxylesterase 2 isoform 1 (3e-32) |
Best NR hit (blastp)   | alpha-esterase 3 [Bombyx mori] (1e-56) |
Best NR hit (blastx)   | putative esterase [Tribolium castaneum] (2e-54) |
GeneOntology terms    | GO:0004091 carboxylesterase activity GO:0008152 metabolic process |
InterPro families   | IPR002018 Carboxylesterase, type B |
Orthology group | MCL39467 |
Nucleotide sequence:
ATGACGATCGATGAGTCCGAACAAAACGTAGTGAGCATAGCGCAGGGACGAATACGGGGC
GTTCAGAAACGAGGGTACATCACATACGGCGGGATTCCGTATACCACGGTCAGCGGCATG
CCAGGGAGATTCAAGAGTGGCGGGCTAGCGCCGGTGTGGCCAGACATAAGGGGATCTCAG
ATGGGTGATTGTACAACTACGTCACCAGTTGAAGACTGTTTACAACTAGATGTCAACGTA
CCCCCCGGATCACTTTTACCTGTCATGGTGTGGGTAACTGGTGGTAGTGGACACTACGAT
CCCACCATGCTTGTCGAACAACAAATTTTAGTAGTGATAGTGCGACACAGATTAGGTCCA
ACGGGTTTTTTATGTTCGAGGGAAGATAAAATAGCAGGCAATGCTGGTCTCAAGGACGTA
GTGTTGGCCTTGCGATGGGTGAGAGATAATATCGTGGCTTTTGATGGAAATCCCAACATG
GTGGTGGTCTCTGGGCAGAGCTTTGGGGCCGCTATGGTGCAATCCTTGATATTGTCAAAT
ATGGCCAGGGGGTTGTTCCATGGAGCCATAATACAGAGCGGAAGCGTTTTAGCTCCTTGG
GCTTTTAACTTTGATGCCGAACAACGGGCGAAGTTGTTAAAGATGAAATTCAATGAAAGT
CGAGATTCTTTTACATTGGTCAGAGCTGGTACAGCGGACCTTGCTAGGAAAGCAGACGAG
CTAGACTTCCCATATTTACCCTTCGGTATATGTGTAGAAAACCCCATGAAAAATGAGGAA
ATTTTTTTACCTGATTCTCCTTTCGACTTACTTTCTAATGGCAAAATAATATCAGTCCCA
ATTATAATGGGATACACCAACAACGAAGCGTATATATTCTCTTCGATGTTGAAAGAAGTC
GGGGTATTGAAAAAGATGGCAAAGGAGATAAACTTTTTAATACCAATAGAACTGCAAACC
AGTAAACGGGACGTCCTGCAACTAGCCAAAAAAGTAAAGGAAATGTACTTTCCTGGAAAT
GTAACTATGAAATCAGTTCTAAAATACCATAGGGATGCGTATTTCTTGAGTCACATCTAT
AAAAGCATTCGTTTTCTCACGCCGTCGTCGAGTCCTGTATACTTCTACCAGTTCTCCCAT
AGCGGCTCTGTAGGTGTGGAAGAAGAGCCCGACGTTATCAAGGATGGAGCAGCGCACTCT
GATGAACTGGCGTATTTGTTCCCAGACAAGGGACGCAAATTAGATGGTGACGATGGAGAC
GCCCAGAGAAATGTTGTTAAACTTTGGACAAATTTTGTTAAATATCTAAACCCCACTCCC
CAAGGTGAACTGGGCCTGGGATTGGTCTGGGAGCCGTACAGTCCTTACGACAACCGAGTG
TTAGCCATTAGCACCGAGTTGGAGATGATCGAATTCCCGTACAATAAGGAGATGCAGATC
AGTTTCAGTTCCATTTTGGGGAACGGCACGGCGACGGCGTTTATCGAATCGGAACAACCG
AAATATAAGACTTTGATATTGGTGTTCATTTGTGCCTTCGTGGTCTCACGGGCGGTCGGC
GAATTATCCGTCATAGACAACGTGGTCACTGTTCAAGATTTAGACGACGATAACAAACAC
AACAAGGGAAATTATCGACAAGGTATACAAGTTAAAACCGAACAAGGTCTTGTGCGGGGC
TATCAGGACGAATCGGGCATCGTGACATTTTTTGACATACCCTATGGAGAATTCAGTAAA
GATCAACCATTTCAGGAACCAACTCCGCCGAAACCTTGGGAGGCTGTGCACGACAGAACA
TCACACTCATCCCGCTGTCCGCAGATACGCAACGGAACCTTCGAAGGCACTCATGAATGT
CTCAGTCTGACAGTAATGAAGCTAAACGATGCTGCTAATGCTGATGTCTTATTTCATATC
CACGACAGTTCCTTCACTTCCGGAAGTGGCGATCCTCTTGTTTATAATCCTAAACATATA
GTTCCGAAAGGAGTTATCTTGGTTTTACCGAATTACAGACTTGGACCTCTAGGATTTCTG
TGTTTGCAAAATAATACGGTGCCCGGTAATGCTGGCCTTAAGGATCTGACGCTTGCGTTA
GATTGGACGAAAAACAATATAGAGTCTTTTGGAGGAAATTCGACTAATATAGTGGTAAGC
GGCACCGCAGCTGCAGGGGCATTGGTTGAGTATCTGCTTCTATACAACAGTTCTAATATA
TATATTTCTAAAGCGATCACTGAAAGCGGATCTGTGCTTTCTCCTTGGGCTGTAGACAGA
TATCCATTAGATACTGCCAATTTATTTTTTCAAAAGTTAAGGGGACGCCAGATTACAGGA
GACCCTCAGCATGTATTGCAAAACGTGGATTTAGAAGTTCTAACGAAAGCTGGTGACGGG
ATAGACTTTAAACCATGCATTGAATCAGGAGAAGGCTTCATGACCCAATCGCCTTGGGTT
TCGTTACAGAATGGAAAGTTTAACTTTTCATACATGACAGGATCAGCGAACCAAGCTGCG
ATGAGGGAAGTTTTAGAACTTTCAACACAAAGTTTATCACAGATTAATAAAAATTTATCC
GAATTGCTACCTAACGATCTCTTCTTCGACAATGATAACGAGAAATCTCGTCTAGCATTA
AAAGTGAAAACTATTTACTTCGGCAACAAAGACATCTCTGAAAATAATAGAGAGAAACTT
TCGCTATGCTACTCGGATAGCCAATATCTCAATAGTGCAATAAGAACCGCCAGGCTATTA
GCTAAGGGAGGTTCTCATGTATATTTTTATGAATTCTCTTTGGATAACCATTCATCGCCT
ATTAGCGGTTCTGCGCGGGGAGACTCCCTGAATTTTATATTCGGAACAGAAGAAACCACT
ACGAATAATAACGGAGAAACAAACAAAAATGTAATGAGAGAGATGATGCTACATTTATGG
ATTAGTTTCATAAAATACGGGAATCCTTCCGCGGAAAATATTACATGGAAGAACTTGAAA
TATGGGGAACAGAACAGCGAGGAGTGGCTCTCAATTGGCTCGGCGGTGGAGATGAAGAAG
GGTCTTCATGTGGAACGGCTGAAGTTATGGGACGACTTATATAACTCTTACTACATTGAG
AGGAACAAGGGCTCAGGACACAAACCTGTCAGTTTCTTGGCGATCGTTTCTTGGTCAGTC
CTTGCCTTCATTAACCTTTAG
Protein sequence:
MTIDESEQNVVSIAQGRIRGVQKRGYITYGGIPYTTVSGMPGRFKSGGLAPVWPDIRGSQ
MGDCTTTSPVEDCLQLDVNVPPGSLLPVMVWVTGGSGHYDPTMLVEQQILVVIVRHRLGP
TGFLCSREDKIAGNAGLKDVVLALRWVRDNIVAFDGNPNMVVVSGQSFGAAMVQSLILSN
MARGLFHGAIIQSGSVLAPWAFNFDAEQRAKLLKMKFNESRDSFTLVRAGTADLARKADE
LDFPYLPFGICVENPMKNEEIFLPDSPFDLLSNGKIISVPIIMGYTNNEAYIFSSMLKEV
GVLKKMAKEINFLIPIELQTSKRDVLQLAKKVKEMYFPGNVTMKSVLKYHRDAYFLSHIY
KSIRFLTPSSSPVYFYQFSHSGSVGVEEEPDVIKDGAAHSDELAYLFPDKGRKLDGDDGD
AQRNVVKLWTNFVKYLNPTPQGELGLGLVWEPYSPYDNRVLAISTELEMIEFPYNKEMQI
SFSSILGNGTATAFIESEQPKYKTLILVFICAFVVSRAVGELSVIDNVVTVQDLDDDNKH
NKGNYRQGIQVKTEQGLVRGYQDESGIVTFFDIPYGEFSKDQPFQEPTPPKPWEAVHDRT
SHSSRCPQIRNGTFEGTHECLSLTVMKLNDAANADVLFHIHDSSFTSGSGDPLVYNPKHI
VPKGVILVLPNYRLGPLGFLCLQNNTVPGNAGLKDLTLALDWTKNNIESFGGNSTNIVVS
GTAAAGALVEYLLLYNSSNIYISKAITESGSVLSPWAVDRYPLDTANLFFQKLRGRQITG
DPQHVLQNVDLEVLTKAGDGIDFKPCIESGEGFMTQSPWVSLQNGKFNFSYMTGSANQAA
MREVLELSTQSLSQINKNLSELLPNDLFFDNDNEKSRLALKVKTIYFGNKDISENNREKL
SLCYSDSQYLNSAIRTARLLAKGGSHVYFYEFSLDNHSSPISGSARGDSLNFIFGTEETT
TNNNGETNKNVMREMMLHLWISFIKYGNPSAENITWKNLKYGEQNSEEWLSIGSAVEMKK
GLHVERLKLWDDLYNSYYIERNKGSGHKPVSFLAIVSWSVLAFINL