| New model in OGS2.0 | DPOGS211304 |
|---|---|
| Genomic Position | scaffold122:- 79627-98298 |
| See gene structure | |
| CDS Length | 5949 |
| Paired RNAseq reads | 6443 |
| Single RNAseq reads | 23483 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA004960 (6e-07) |
| Best Drosophila hit | CG12173, isoform B (2e-37) |
| Best Human hit | enolase-phosphatase E1 (8e-50) |
| Best NR hit (blastp) | enolase-phosphatase e-1 [Aedes aegypti] (2e-67) |
| Best NR hit (blastx) | PREDICTED: similar to enolase-phosphatase e-1 [Nasonia vitripennis] (5e-64) |
| GeneOntology terms | GO:0019509 L-methionine salvage from methylthioadenosine GO:0043874 acireductone synthase activity |
| InterPro families | IPR023214 HAD-like domain IPR010041 2,3-diketo-5-methylthio-1-phosphopentane phosphatase IPR005834 Haloacid dehalogenase-like hydrolase |
| Orthology group | MCL14420 |
Nucleotide sequence:
ATGACTGCATTAACTGTATTAGATACTCCTTCTGTTATTACCGATTCTACTTGTGATGAT
GTTAGTGATACGAAAAACAAGAATAATTTACAAAAAGCTATGATATTTGGTGACCTGGAA
CCTGAGGAAGGGAATCTAAAAGATATAAATAATTTGAGCGATGACGATGTTGCCCCAATT
GTGGCGCCTAAAAAGCGTGCTCAGCACTTTACAGGTTTTGATAGTGATGAAGACAACATT
AGTAAAAGTATTGAAATGTCCCCACAGACAGTAAATGAAAAAGGGAATTCCCAGGAAATA
AATCCCAAACCAAATTTGGATTCCAAAAAACCTAAAGAAAGGAAATCGACAAGGATAAAA
AGAATAGACAGTTCTGATAGTGATCATAGTTCTTCAGAAAAACTTATTGATAGTGAAGAT
GATGCGTTTGTTAGAAAATCAGTAAGAAGGGAAGACAAAGAAAATACTCTTAAAGATAAA
TTCAAAAGTATGCTCTTACATAGAAAAACTGGTCCAATGACTTCTGATGATTTGGAACCC
AAAAATGTGACTTCTGCTAATAGTGAATCAGATGATGAGTTTTCTTGTCTTAAAATAAAG
CAGAAAGTTAAAAGTAATGTTCAAGCCATGAAATCGATATGTGACCCTGACACCTCCGAT
GAAGAAGACAACAGTCAAATGAAATCGTTCAAAAGGAGGTCTAAACCAAAGATGACAAAA
TCCACATCCCCTAAACCTATGAAAATGACAGCAAAACAGGCGTTGGAAAATAAGCAAAAG
ATTAAAAGTGAATCAAATCGCATGTTAAGAGAAAAAGGTGTCTCGTTGCCGTATCATAGG
CCAAAGGCTTTGACCTTGAAAGATATAATGAGTAGAAGAAAACCGGCTGTTAGTTCTGAT
GGAAGGACTTTGCCCATTAAAATGAACGAAGATCAGCTGAGACAATATGCGATGTTATTG
GAACAAAGACAGAAGGAGGTTATAGAATTATGTAAAAGTGATAGTGAGGAAGAGGACAAA
GGAGTTGAACAAATGGATGAAACAAATGATAACAAAGGAGTTGCAGATGAATGCACCGAA
GAAACCACTACACTTATCACAGAATTAATTTCAAACAGTAATGAAGAAAGTGGTGTGAAC
CTTGACAACTCTGTAGAAGTCAATAATCTCGACAGAAGTGACAAACAACTTGAACAATCG
GAATCACTCCATTTACCTACAGAATCAGAATCCTCAAATAAAAATGTTACTGATACTCTG
TCTGACATTATTAAAACAGATGTTGAGTGTCAAGAAAGTAATTTAGAAGAAAATATTGTA
TTACAAAAATCAGTTCCAGATGAAAGTCAAAAAATTTCATTAATTTATGATACAGAAAAG
ACTATCGTTGAAGACACAGATTCTAAAGTAGAGAATGAAGCTGCTGAAGTAATTAAAGAT
AATGGTGAGGACAGGAGTGATGAATTTTCAGACTGTGAAATGAATTTTGATGAAATAGAT
AAAATTATTGAAGAGGCTGAAATTATTTGTAATAAAACCAATTGCAACAAGCCAATTCCA
AAACTCACCGGCGGACCGGGCACCTTAATAGATTTGGATAATGAAGACACAGCGTCAAGG
AAGTTGAGTGGCGTTGAACTGTTGAAGGAGAGATTTAGTTTTTTCGCCAAAATAAAGACA
TTAGAAGACATTGAAAAGGATCGGGAAAAGAAATATAAACCAGGTACTCAACATTTAAAA
TTAAAACACGAACTCGAGGAGCAGATAGCTGAACAGAGATCATTGGAATGGGAAAAGCGA
CTTCTAGAAGAACAGCAATTAAAATCTGAATTAAATGGTGAGACTGGTGAAGATGATATC
GAGAAACTTGAAGCTAAGATGGAAGAAATAGAAAAAGAAGAAGACGAGAATGATAATGGA
GTTTCAGAGAGTGAGGAGGAATTGGTAGAAGACGATGTTCTCATAGAAGACAAGCCGAAA
AAACGGAATCCTATGTTTGATGATGAAGCAGAAGTGAGTGATGATGAGTCCAAAGAAGAT
CTGGATAACGATGATGAATCGAATGAAGATCTGGACAGCGAAGAATCCAGCTCCGAGTCA
GATGATTGCAAACCCAAAAAAGGTAGAATCTTAAAGGCCTTTGAAGATTCTGATGATGAA
AAGGAAAATGAACGAACAATTAGTGATGATTTAAACAGAGGTGAAACTGGGGAAATTGAA
GTCATAAATGATGATGCTGCTATAAGAGAATCACAAGATGACGAACTGCCACTGGCTCAA
GTGAATAAATTATCAGATGATGTATTTTCGACACAAACAACTGAAACTGAATCTGAAAAT
ATAGATGGATGTTGTAGTGTTGTTATAAGCGCTCACAGTATCTGTTTATCAAATCCTGAT
CTATCAAAAATGATCAAATCTGACATTAATCCCGACAACATGGATGTTTGTGGAACTATA
GAAGATGATGCAATTATGGATGATATTGCTGGAATGTGCTCTGGAAGTTTCTCACAGAAC
CTTGTTACCTCTCAAACACTACCATCAACACAATCACAGGAGTTCGGTGATGACATTGCA
GATATGTGCACTGGAAAATTCTATGAGAATCCACTTGTATCTCAGGATATTAGTTCTGAA
GTCACAGGGTCCGAGGAGAAATCGCAAAACATAGAAAAAGAATCGTTATTGCTTGAAAAA
GCTACTAATAATTTAATAGACGGAGTAACGGACCAAAATGTATCAAATACGAGTGGGAAT
GACATAACCAAACAGAACACAGTATTAAATTCGATTCTAGATGAATTAGATGACTTAGAG
GATAAGCCTAAACAAAATAAGTATTTCGCAACCGACGTGCCGTCTAAGGACCACAGAAAG
AAATTTGTTATTGAATCAGATGATGAAGCTATTGAGAATTCACCAAAAAAGACCAAGAAA
CTTAAGAAAAAGAAGGCAGAGCAACGTGCTTTACATATATCAGATGATGAAGAAGAAGAT
AATGTAGAAAGTGACTTAGAAGAGCAAGATGACAGGATTGTGGAGTACGATTCAGAGGAG
AATGAGATCGTAGTACAGCAGCCAAAAACCAAACAATCCAAGAAAGGAATAACAGATTTC
TTTGAGAATGAGGCTGAATTGACATCTGAAGATGAATGGGTGGGTTCTGGTGATGAAGAT
GAACGGGGCCTGGACCGGATGGAGAGGGAAGAAGGAGACAATGACAACTTCCATCAAGGA
CAGCTGCAGAGAGAGCTGGGACAGATACATATGCGTGAAGTCTTAGACCAGGACAAACGT
GAAGTGAGGCTCATACAGGAACTGCTGTTCGAAGACGGAGATTTGGGTGATGGACACCGA
CAGAGAAAGTTTCGCTGGCATAATGCAGATGGTGAAGAAGAAACCGGAACATATCCTGAA
GAATTTACAGATACACAGGAAGATGAATTTGAATCCGAAGAACAGTGGAGAAAGGAAAGA
CATGAAAGAGAAATGTTTATAAGGCAAATGCGTGAAAAAGATGAAGAGCCAAACAAGAGT
ATAACCAGAAGCACAATAATTAAAGCGAATTTATCTTCTCGAAGTGTCTCATCTTTGATC
AACGATAATACAATCATTAAACCTGTAGAAAAACCTGTGGTTGAGAAAAAATCTGCAAAA
GATATACCTAGTCCAAAGAGAGGATTCACAATTTTTCAGCAAAACTATCACACGTCTTTA
TTAACACGTGGAAGGGGAGCTTTGGCTAGACTAGCTGCTCTGGCAACACCGCTAGCTGAT
GATGACACGCCCAGAAACATAACCAATAACAGAGGGAACTTCGTCTTCACTTCCATTAAT
CCTGATGATAATTCGAAGGTTCCTACTAAACGAAAGGCTGAAATAATCCACACTCCAAGA
CTTATAAAGAAATTGAAGACTGAAAGTTCAAATGATAAGCTGTTTCCCTACGCAGAGGAA
AATGTAAAACAGTTCCTAGAAGCACAGTGGGAGAATGATGATGTGAAGGAATCGGTCACG
GCGCTGAGGAAACTGGCCATTGAGGATAAGGAAAAAAACGTTGAGGGACTCGTTGCTATC
CCAGGCGAGGATGCCTCTAAGGAAGATCAAATTGAGGGTTTGGTCAACAATGTCAAATGG
CAGATGTCCGCTGATCGCAAAGTTGGGGCCCTAAAACAGTTACAGGGGCTCATTTGGAAG
CAGGGCTATGACAAAGGAGACCTTAAGGGACATGTCTTCGATGATGTCTCTACAGCACTA
GAACAGTGGCACTCCATTGAAGGTCAAAAAGTGTACATCTATTCATCAGGCTCGGTTCAA
GCTCAGAAACTTCTCTTTGGCCAGTCACTAGCCGGTGACCTCCTCAAATATATAGATGGT
CACTTTGACACTGCGGTCGGAGGGAAACAAGAAGAGTCTAGCTACAAGGCTATAGTGGAG
AAAATAGGCTGCAAAGCTGAAGAAGTATTGTTTGTGACTGATATTGTTAAAGAAGCTGAA
GCAGCATCGAAAGCGGGTCTTCATGTGGCGCTGGCCAGTCGTGAGGGTAACAGTTCCTTA
CCCAGCGAGGCCACTGATACTTACCCCGTGATACATACATTCACACAACTAGCCGTCTCC
AACAAACGCAAGACTGAACCTCAGGATGAACAACCTGCTAAAGTACCCAAAACCGACATA
CAGAAAGACGTCAAATCGGCTTCTGAAACTGATTCATCTAAAGAAGAGACACCACTACCT
GAGAAGGCAGAGGAACCAGAAAAGATGGAAGTGGAAGAATCAAAAGATGAACCAGTTAAA
GAAGAGGAAAAGGTGAAAACTGAAATATCCATTGAGGATGTTACGAATACGAAAGAAGTT
ACTGAAAACGTAGTTGATATGGAGCCTGTTGTACAAGAAGTTGAGGAAAACAAACCAGAG
AAGACTGAGGATATGGAAACTGAGACCTCCGATGATAAAGTTGACGACAAAAACGATGAA
GTAAAAGCCGAAAAAGAAAAAGAAAAAGACACACCTGTTGAAAATAATGTGAGTACAGAA
TCCAAAGAAAAGACTGAAGTAACCCCCGACGTGCCAAAAGAGAGCTCCGACAAAAATGGT
ATAGAGACGAATGCGTCCGCCTCTGAAGCATCTCCTACAGTGATAACTGAAATAGAAGAA
GTTACAAGTGATAAAGAAAATATTAGCGAAATGGCTGAAATAATTGAGGACTTAGAGCCA
GTGGTTGAAGAGCCGGCGGCCGCTGAAGATGTCGAGGAGTTACGTAACGTTGGTGACGTG
CTGGAAAAGGAATGCGACGAGATACTGTCAAAGGTACAGGGTGTTACCAATCTGGAAACG
ATGCCGTTAAGACCGTTGCTAAACCCCATTGAAGAGGAATCAATGGAAGCCGAAAATACG
AACGACATCATGGATAGCATACTAGACACTGAACAAGAAATGGAAATGAAAAACAGCGAG
GCGACCGCAAAAGAAAAACATCCAGAAAAAAATATAGATGATAAAGAAAAAGAAAAGGTC
GAAAAGAACGGAGTGTTAGAGGAGACGGTCACTGAAAGCGATGTTAAAATAGAAATCACA
CCAGAAGAATCCGCAGACAAGAGTGAAGCAGAAGAAAATATAGGAGATAAAAAAGATAAA
AATGATAAAACAGAAGAAAAAAACTCGGAGCCATCAAAAGAAACAGACAAAACGGTCAAA
GACAAACCGACAGAAGATGCACAGGTTAACGGAAAAACGAACGGTGATCTAATAGAGAAC
GGAGATTCAAACAAAATGGAGGAATTAAGCGCGAGATTGACGGAGAACGGTGACGATGTG
AGGTCGAATGGTGACACGAAGAACGGCGACGGAGAGAAGGTGGAACCGGAAGTATCAGAC
ATTAAGGTTAAGACAGTATCAACAGAGGAGCCGAGAACCGAGCTCATAGAACAAGCCACT
GAGGCATAA
Protein sequence:
MTALTVLDTPSVITDSTCDDVSDTKNKNNLQKAMIFGDLEPEEGNLKDINNLSDDDVAPI
VAPKKRAQHFTGFDSDEDNISKSIEMSPQTVNEKGNSQEINPKPNLDSKKPKERKSTRIK
RIDSSDSDHSSSEKLIDSEDDAFVRKSVRREDKENTLKDKFKSMLLHRKTGPMTSDDLEP
KNVTSANSESDDEFSCLKIKQKVKSNVQAMKSICDPDTSDEEDNSQMKSFKRRSKPKMTK
STSPKPMKMTAKQALENKQKIKSESNRMLREKGVSLPYHRPKALTLKDIMSRRKPAVSSD
GRTLPIKMNEDQLRQYAMLLEQRQKEVIELCKSDSEEEDKGVEQMDETNDNKGVADECTE
ETTTLITELISNSNEESGVNLDNSVEVNNLDRSDKQLEQSESLHLPTESESSNKNVTDTL
SDIIKTDVECQESNLEENIVLQKSVPDESQKISLIYDTEKTIVEDTDSKVENEAAEVIKD
NGEDRSDEFSDCEMNFDEIDKIIEEAEIICNKTNCNKPIPKLTGGPGTLIDLDNEDTASR
KLSGVELLKERFSFFAKIKTLEDIEKDREKKYKPGTQHLKLKHELEEQIAEQRSLEWEKR
LLEEQQLKSELNGETGEDDIEKLEAKMEEIEKEEDENDNGVSESEEELVEDDVLIEDKPK
KRNPMFDDEAEVSDDESKEDLDNDDESNEDLDSEESSSESDDCKPKKGRILKAFEDSDDE
KENERTISDDLNRGETGEIEVINDDAAIRESQDDELPLAQVNKLSDDVFSTQTTETESEN
IDGCCSVVISAHSICLSNPDLSKMIKSDINPDNMDVCGTIEDDAIMDDIAGMCSGSFSQN
LVTSQTLPSTQSQEFGDDIADMCTGKFYENPLVSQDISSEVTGSEEKSQNIEKESLLLEK
ATNNLIDGVTDQNVSNTSGNDITKQNTVLNSILDELDDLEDKPKQNKYFATDVPSKDHRK
KFVIESDDEAIENSPKKTKKLKKKKAEQRALHISDDEEEDNVESDLEEQDDRIVEYDSEE
NEIVVQQPKTKQSKKGITDFFENEAELTSEDEWVGSGDEDERGLDRMEREEGDNDNFHQG
QLQRELGQIHMREVLDQDKREVRLIQELLFEDGDLGDGHRQRKFRWHNADGEEETGTYPE
EFTDTQEDEFESEEQWRKERHEREMFIRQMREKDEEPNKSITRSTIIKANLSSRSVSSLI
NDNTIIKPVEKPVVEKKSAKDIPSPKRGFTIFQQNYHTSLLTRGRGALARLAALATPLAD
DDTPRNITNNRGNFVFTSINPDDNSKVPTKRKAEIIHTPRLIKKLKTESSNDKLFPYAEE
NVKQFLEAQWENDDVKESVTALRKLAIEDKEKNVEGLVAIPGEDASKEDQIEGLVNNVKW
QMSADRKVGALKQLQGLIWKQGYDKGDLKGHVFDDVSTALEQWHSIEGQKVYIYSSGSVQ
AQKLLFGQSLAGDLLKYIDGHFDTAVGGKQEESSYKAIVEKIGCKAEEVLFVTDIVKEAE
AASKAGLHVALASREGNSSLPSEATDTYPVIHTFTQLAVSNKRKTEPQDEQPAKVPKTDI
QKDVKSASETDSSKEETPLPEKAEEPEKMEVEESKDEPVKEEEKVKTEISIEDVTNTKEV
TENVVDMEPVVQEVEENKPEKTEDMETETSDDKVDDKNDEVKAEKEKEKDTPVENNVSTE
SKEKTEVTPDVPKESSDKNGIETNASASEASPTVITEIEEVTSDKENISEMAEIIEDLEP
VVEEPAAAEDVEELRNVGDVLEKECDEILSKVQGVTNLETMPLRPLLNPIEEESMEAENT
NDIMDSILDTEQEMEMKNSEATAKEKHPEKNIDDKEKEKVEKNGVLEETVTESDVKIEIT
PEESADKSEAEENIGDKKDKNDKTEEKNSEPSKETDKTVKDKPTEDAQVNGKTNGDLIEN
GDSNKMEELSARLTENGDDVRSNGDTKNGDGEKVEPEVSDIKVKTVSTEEPRTELIEQAT
EA