| New model in OGS2.0 | DPOGS213396 |
|---|---|
| Genomic Position | scaffold163:+ 27699-47010 |
| See gene structure | |
| CDS Length | 6642 |
| Paired RNAseq reads | 3676 |
| Single RNAseq reads | 9397 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA009137 (2e-23) |
| Best Drosophila hit | oxysterol binding protein (4e-50) |
| Best Human hit | oxysterol-binding protein-related protein 3 isoform b (8e-91) |
| Best NR hit (blastp) | oxysterol-binding protein 3, putative [Pediculus humanus corporis] (2e-165) |
| Best NR hit (blastx) | oxysterol-binding protein 3, putative [Pediculus humanus corporis] (3e-109) |
| GeneOntology terms | GO:0006810 transport GO:0006869 lipid transport GO:0008202 steroid metabolic process GO:0008150 biological_process GO:0005575 cellular_component GO:0003674 molecular_function |
| InterPro families | IPR000648 Oxysterol-binding protein IPR001849 Pleckstrin homology domain IPR011993 Pleckstrin homology-type IPR018494 Oxysterol-binding protein, conserved site |
| Orthology group | MCL17271 |
Nucleotide sequence:
ATGGAGGCCGCACTCACTGCCGTTGAGATCGTGGAGAGTAGAGACATAACGCATAGTGTG
ACAGGAAGTCCCGAACCTCTATCCTTTTGGCTCACATTTCACGGGAAACCTCTCTCTCCC
CATCGCTTCGAACCAATACCAATACTGGTTATCATTCTCTGGTCTCAAGAGGACATATCT
ACATGTAATGATACAGACGTGTTACAAGATGTGACGGATGAAATGACTCGTGTGTTGGCG
ATCGATACTAGACGGAAATATTATAACAGGAGAGACAAGTCGGGCTCGCACACTAGACGG
GGGCCCGGGCGCGACTCGCTGAGAAACCGCCTAGGAAAAGAACACGTGTTAAAATGTCTG
TCGATCAGCATCAGTGAGGGCGGGAGCAGCATGGCCGCCCAGGCGGGACTCAAGCACGCG
GCCACGGAGCACGCCGCCCTGGACGAGAAACGTGAGTCACACACACGACACTCACTCGTC
TGTAAAGTCGGTCAAACAGTGCCCCCAGATCCAGTAATGATCAAACACGGAGAGATGAAA
ACTGAGGTGCGTCTGTACCGATCTGAAGCATGGAGACACATTGATGCTGGCTACTGGCGG
GAGGAGAAATACACCTGCGGTGAGAGACGTCGCGGCGCGGCGGGGCGGGCGGCTGCTCTG
CGCAGGGCCCCGTCGGACTCGGACTGCTCGGGGGAGACGGCCTCCCTGTCGACGGACAGC
GGGGACAGACCCGCCAGGCCCCCGCCTCCCGCCGCCAGGACCGCCAAGAATAGGAGCAGT
CGGCGGCGAGGCAGCGAGTGGGAGGTGCTGGAGGGTCTGAAGGACGGCCAGAGGTTCGAC
AGGAGGCCGGATGTGTTCAACGGGTACCTCCACAAGAAGAGGAAGTGGCCGCTCAAGGGC
TGGCACAAGCGGTTCTTCGTGATAGACGGCGGTATCCTGGTGTACGCGCGCTCGGCGGCG
GACGTGTCCCGGGGCCGGCTGCACGGCTCCGTGGACGTGGGCCTGTCCGTCATATCGGCT
AAGGCTCGCCGCAGACGCATCGACATCGACGCCGATGAGTTCATATACCACCTGCGGGCC
AAGACGCCCGACGTGTTCCGGACCTGGCTCAATGTGCTGAAAGCGCACCGGTTGTATCGG
CAACATTTGCTCACGTTCGGCGCCCGGGAGTCGATCCCCAAGATCCACGCGCCGGCGGAC
GATCTCCCCGCAGACACCTCCTCACGGAACAAGCTCTCCAGAATCTTGTACAATGAAAAA
GTTTCAAGCGAATGGGGAACGAACAGCTTGGTATACACGCTGTACGACGTGCAGACAAGC
TATAAGAACGCGTTCAACAAACGACCGTCAGCGAAGTACGGCGGCAACCGGAACGCCGCA
CGAGACATGTTCACAGTTATAGATGACATGGAAAAGAATATACACATGAAAAACAGAAGA
CTAAAGTCCGCTCACCGCAAGGAGAAGACGAAGAGAAACGAAAACATAACTCTGATGATG
TCGATCAATGAAAAACAGGAGCATGAAAATAATGCGAGTCATATGACATACTGTAACAGC
GCCTGCTCCTCCGAAACATCCTTCGATGAAAAATATAACAGACACAACCATAGTGTGGCC
GGCGCGGATGGAGCCGACACCCCCACATACTTCTTCTTCTCCAGAAAAGAAAACGGAGAA
GATAAACCATTGATAAGGAGAAGTAAAAAGTGCACGAACGTTGTCAGATACAGAAACATT
CAAGACGAGCCGAGACTCAGAAAACCTCTGAGTAGGGTCATGCTGTTGACTAAATATAAA
CTGATGCAGTACGACTCATTGACACTGAACGACGGTGACGATGACGTCTGCACGAAACAA
GTCGATATACAAACAACACCAAGCAAAGAACACAAAGATATACAGAACACGCTGTCGCCA
GAAGACTACGACACCATCGCCGAGAAACTGATGGTTTCAGTCGTCACCAATAACAGCAAA
GACTCGTTCACCAAAAACTGCATAAACCAGGTCATCAGGGAGTTGTATGAGATAAAACAG
AATGATACCGGAGACCATCCCGTCAGGAACTTGTTCCGAAGCCTGTTAGAATATTGGTTG
AATAACACCTCTTCCGAAAACTGGAGAAACGGCACTAAGATAACTAAATCCATCCACCGG
CCATCTAATAGATATTTTACAAGAGACGAGCCGACATCGAACATTGCCGTACCACAAACA
TCACGATCCACTCAGTTCCGTGGGATAAGTGATCTGATTAAGGATAAGGCCTTTGAGATC
CCCATACAAAACCCTGGAAAGAACAACAGACTAGCGTGCAAAATAAATGATAGCTTCGAA
AAAGAAAGACGAATACAAGAACTAGAAAGAATACTTAAAAATACAATTTACATCTGTGAA
ACGGTTCAGAGCAATCACAGCAGAGAGAAGGACATAAAAATCACCAAGAAAATTATTAAC
AGCCTCGATAAATTCCCAAATGAAAATAATTTTAGCAAATCAGACGAAGAAAGTGCATGC
GATAACTCTAATTCATCCAACGAACTACCAAAGTTACAAGAAACAATAAAACATCTCATT
AGCGAAACCTCCATACCACCCGACGTAGCCAAAGAATTCTTTGGCGCATATTTGAACCTC
CTCCGACAGGGTCACAGTGATGAAGAGACCACTTCGTCTTCTGAAGAACAGCATACAGAC
GTGTGTGCTAAGTGTGATATTATAGCTGAACCTGTAAATAAGAAACTCTCAAAGGGGATT
TCGACCAAAGAAGACGCATCCCCAAGCAAAGTTCAGGGCGGTGACCCCGGAGAGTTGTAT
CTTAAGAACATACTCGATACAATAACAACTATTTTCTCTAGAAATGTTATTGCTAATGCG
AAGGGACAGTACACTAAAGACTGGACAGGAAGGAAAGTTCACAACGAAATGGGCTGCTTT
AAAAAAGTCAGTTGCGGAGAAACTTCAGTTGTCATAGATATATCTAAATACGATCTCGAG
CATATATCACTGAAAAACGACCCATCAATTAAAGGACTGGCTTCAATTAAAATGAAATTA
AAAGAGAAACCAATGTACTCGGGGGAAAGCAAGTCTAAGAATTTAAACTTTAAGATCACG
GACGCATCCGAAATTGATGTAAGTGATATATTTCCAGTGAAGAATTCCGAATCCGATAGA
ATGTTCTGCACGAAATCTGCAAACTGTAAATCACTAACGCGAGTCTCCTACCGGAATGTG
CCAAAGATTATCGATAGAGAAGCTATAGAGCTACGACCTTATCTGAGCAGCCACGAGGGG
AGCGACAAAATAATATTGAACGACATAAAAATCAAACGCTGTTCTAGTTTAAGTTGTGGA
ATATCCGACGAGTACAGATCGATGGGGTCCAGCAACAAGGCACGGGGGGAAAGTACAGAT
TCGAAGAAGAACACGTATGATGAAGACATGCAGTCGTGTTACATTCTATCATTGAAGAAA
AGGAGATCACTCACATCCAAACATAAGAAGAAGAAAACATTAAACAGCGAGCGTGACCGA
GGTGCTACTTTACACCTCAGTCAAAGTCATACGTCGATGTTTGACAGAACGCCCAAGGTT
ATAGACGAAGCCTATATTCTTAAGGTTCTGGAGAATTTAACGAAGTTATCAAAAAATGTT
CCTAACATTAATAAGGATATTAATAACTTTTACATGAAGTTACGGAAAAAACATGTAAAA
ATGTCTACAACTACAAGTAAAACAAACAGATTGGGTTTGTTGGGGAAGATTTATAAAGAA
GATTCTTTTGCCAAAGGCGCTGAGGAGATCGAAACTCAATTCGACGAAACGATATGTCCA
AGGGCTGTAACATTCCTTACCAGAGATACAGGAACAAGCACCAGCGAATATCATATCAAC
AAAGACGTCAGTGACAAAGCCACGGGCCTAATCTTAAAAACGGAAAATCTGTGTAAGTGT
ATCCAAGTCGGCGTAAATGAGGACAATATCACGAGAAACACTGTTAATGTATCGAGAAGA
AACATATTTTTTAACACTTACAACACGAGCAGTACCCAGACATCATCCTTCAGTAGTATG
TTTACTGAAGAAGATCTTCAAACAGCGGAGCGAGCTAGATCCAAACAAGATTGGCCTACA
GCGAATGCCACTAAAGATTGCGCTATCAGTGCTATAGTGAAGTCGATGTGGGACAAAGCT
GACAGCTCGCAGAACTTCCGCTTTAAGAAAAGAGGTGTGAAAAGAAACGGCGAGGAAACT
GTAGCGACGAAGAAGTTTAAAAACCTAAAAAAGCCATGTCCAGAAATAAGACAGAATCTG
ATCAAAGAGATTGCACTTCTTCCTCCGCAACGCAAAGTGTCCACACAGTCCCAAACGGAG
AAGAAGCTGCGATGTCTTCGGAACAAACCAGCCGCGACCGATTACCAAGTTTATCAACTT
TTCATGAGTCGCAAGTACGAGGCTGAGAAATCGCGTTCGATGTTAAACTTTATCGTCAGG
AGCGACCTGAGCGATGACCTCAAAACCCTCTACCGATGTAGTAGCGACACTTCCTACATT
TCCGGAGTAGCTCATGGCGTTGACTTGGTCCTTATTTCTCCAGGACTGGTCAGTCCGACG
CCCGCCCGAGGGCCTCAGGCTGGCTTCGTGGCCGGAACTCCCGGGGGGCGCTTTGCAGGA
TGGATCCTCGAGGCCGGCTGTCCCTTGGAGAGCGCGTCCCGCGAGCTCGGCCAGGCGCAG
CTGTCCGTGCAGCAGCTGCAGCGACTGCTGGCGGCCATCGAGCTGCAACAACAGCAGCAC
CACGACACCGATGTGTCGCTGGAGGGCGCGTCTCCCAACGTCAAGAAGGACAGGCGGAAG
TTCGGGCTGCGCAAGAAGAAATCGTCGGGCAAGTGCTCGTCGGCGGAGCTGCAGGCGCCG
CACGGGGAGCTGGCCGCCTCGCACATGTGCCTGTCCACGGTGACGGCGCCCCCGTCCCCC
GGCGGCGGCTCGGCCTCCGTCCCGGCCTCCGCGGCCTCGCTGCCCATCGCGTGTGCGGCC
ACTCGCCCGCAGTCCCTGCCGGGGGCGGAGTCTCTGCCGCCTGCGCCTCTGTCCAGCCTC
ACGCCGGACCATCAGCTGCGGGAGGACTTCACGGTGCTGGCAAAGGACCTGGTCGCCAGC
CTCAAGGGCGTCGTCGCCACACTGTCCAGGGAGCGCGCCCGCGTCCGCTCGGAGGGCGAG
GCCCCGCCACTGGTCGCGTCGCTGCGGTCGGACCTCTCCACGGCACTACACCTCAACTCC
GAGCTGCGGTCCAGACTCGCGCGCATACACGACGCCTCCGACCTCGCGGACGTGTCGGCC
GCCAACGCGAGTCGCCAGTTCCAGCAGTCGTTGAGCTACAGCTCGTCGTGCGTGTCCGCC
TCCGAGTTCTTCGACGCGGAGGAACACGACGAGCGCCACGGCGACCCGCACGACGACCCG
CACGGCGACCAGCTCCTCAACGCTGGCGAGACCGGAGTGATCGAGCTGGACGGGGACTCG
TCGTCGGAGGCGGGGTCGCTCAGCTCCGAGGACGGGTCGGCTAGCTCCGACAACTCGGAC
GCTAACATGATAACGGTGGTGTCGGAGCCCCGGCCGTCTTGGTCCCGCCGCAGCCGTCTG
CCGAGTCCGCGGCCGGAGCCCGGCGGCCCGAGCCTCTGGAACCTGTTGTGCAAGAACATC
GGCAAGGACCTCAGTCAGGTGTCCATGCCCGTCACCATCAACGAACCCCTGAACATGCTG
CAGCGTCTCTGCGAGGAGCTGGAGTACTCGGAGTTGCTGGACGCGGCGGCGGCGTGTCCG
GACGCGGCGGAGCGCGCGGCGCTGGTCGCGTCGTTCGCGGTGAGTGCCTACGCCTCCGCC
GCACATCGCGCCGCCTCCAAGCCCTTCAACCCGCTGCTGGGGGAGACGTACGAGTGCGTG
AGACACGACCGAGGATTCAGCTTCGTGGGCGAGCAGGTGTCCCACCACCCGCCCGTGTCC
GCCTGCCACGCCGCGTCGCCGCGCTGGCTGTTCTGGCAGGAGGCGCGCATCAAGACCAGG
TTCTGGGGCAAGTCCATGGAGTTCCAGCCGGCCGGCCGCGTCCACGTGCGCCTCGCGACG
ACTGGCGACCACTACAGCTGGAACAAGGTCACCACCTGCGTCCACAACTTGTTCGGGGGA
CAGCGCTGGGTCGACCAGTACGGGGACATGCATATCGTCTGCCACGGCACAGACGTGTCG
TGCAAACTGAACTTCATAAAGGCGTCGTCGTGGTCCAGCGGTCGCCACGAGGTGCGCGGG
ACGGTGTCGTGCGGGGGCCGGCGGGTCCGCCTATCGGGTCGCTGGTCCGAGGCCCTGTAC
GCAGGCGAGCCCCCGGCCGCTCGCTGCCTGTGGCGGCCGGGCGCGATGCCCGCCGACTAC
GAGGCCTACTACGGGTTCACGAGGTTCGCGACCGAACTCAACGAGATGGAGCCCGGCATG
GAGGACGTGCTGCCTCACACGGACACCAGGCTCAGACCGGACCAGCGCGCGCTCGAAGAC
GGCGACGTGGAGAAGGCGGAGCGGCTGAAGCACGAGCTGGAGCAGGCGCAGCGGGACCGC
CGCAGGGAGCAGCCAGAACACGCGCCCGTCTGGTTCCGGTAA
Protein sequence:
MEAALTAVEIVESRDITHSVTGSPEPLSFWLTFHGKPLSPHRFEPIPILVIILWSQEDIS
TCNDTDVLQDVTDEMTRVLAIDTRRKYYNRRDKSGSHTRRGPGRDSLRNRLGKEHVLKCL
SISISEGGSSMAAQAGLKHAATEHAALDEKRESHTRHSLVCKVGQTVPPDPVMIKHGEMK
TEVRLYRSEAWRHIDAGYWREEKYTCGERRRGAAGRAAALRRAPSDSDCSGETASLSTDS
GDRPARPPPPAARTAKNRSSRRRGSEWEVLEGLKDGQRFDRRPDVFNGYLHKKRKWPLKG
WHKRFFVIDGGILVYARSAADVSRGRLHGSVDVGLSVISAKARRRRIDIDADEFIYHLRA
KTPDVFRTWLNVLKAHRLYRQHLLTFGARESIPKIHAPADDLPADTSSRNKLSRILYNEK
VSSEWGTNSLVYTLYDVQTSYKNAFNKRPSAKYGGNRNAARDMFTVIDDMEKNIHMKNRR
LKSAHRKEKTKRNENITLMMSINEKQEHENNASHMTYCNSACSSETSFDEKYNRHNHSVA
GADGADTPTYFFFSRKENGEDKPLIRRSKKCTNVVRYRNIQDEPRLRKPLSRVMLLTKYK
LMQYDSLTLNDGDDDVCTKQVDIQTTPSKEHKDIQNTLSPEDYDTIAEKLMVSVVTNNSK
DSFTKNCINQVIRELYEIKQNDTGDHPVRNLFRSLLEYWLNNTSSENWRNGTKITKSIHR
PSNRYFTRDEPTSNIAVPQTSRSTQFRGISDLIKDKAFEIPIQNPGKNNRLACKINDSFE
KERRIQELERILKNTIYICETVQSNHSREKDIKITKKIINSLDKFPNENNFSKSDEESAC
DNSNSSNELPKLQETIKHLISETSIPPDVAKEFFGAYLNLLRQGHSDEETTSSSEEQHTD
VCAKCDIIAEPVNKKLSKGISTKEDASPSKVQGGDPGELYLKNILDTITTIFSRNVIANA
KGQYTKDWTGRKVHNEMGCFKKVSCGETSVVIDISKYDLEHISLKNDPSIKGLASIKMKL
KEKPMYSGESKSKNLNFKITDASEIDVSDIFPVKNSESDRMFCTKSANCKSLTRVSYRNV
PKIIDREAIELRPYLSSHEGSDKIILNDIKIKRCSSLSCGISDEYRSMGSSNKARGESTD
SKKNTYDEDMQSCYILSLKKRRSLTSKHKKKKTLNSERDRGATLHLSQSHTSMFDRTPKV
IDEAYILKVLENLTKLSKNVPNINKDINNFYMKLRKKHVKMSTTTSKTNRLGLLGKIYKE
DSFAKGAEEIETQFDETICPRAVTFLTRDTGTSTSEYHINKDVSDKATGLILKTENLCKC
IQVGVNEDNITRNTVNVSRRNIFFNTYNTSSTQTSSFSSMFTEEDLQTAERARSKQDWPT
ANATKDCAISAIVKSMWDKADSSQNFRFKKRGVKRNGEETVATKKFKNLKKPCPEIRQNL
IKEIALLPPQRKVSTQSQTEKKLRCLRNKPAATDYQVYQLFMSRKYEAEKSRSMLNFIVR
SDLSDDLKTLYRCSSDTSYISGVAHGVDLVLISPGLVSPTPARGPQAGFVAGTPGGRFAG
WILEAGCPLESASRELGQAQLSVQQLQRLLAAIELQQQQHHDTDVSLEGASPNVKKDRRK
FGLRKKKSSGKCSSAELQAPHGELAASHMCLSTVTAPPSPGGGSASVPASAASLPIACAA
TRPQSLPGAESLPPAPLSSLTPDHQLREDFTVLAKDLVASLKGVVATLSRERARVRSEGE
APPLVASLRSDLSTALHLNSELRSRLARIHDASDLADVSAANASRQFQQSLSYSSSCVSA
SEFFDAEEHDERHGDPHDDPHGDQLLNAGETGVIELDGDSSSEAGSLSSEDGSASSDNSD
ANMITVVSEPRPSWSRRSRLPSPRPEPGGPSLWNLLCKNIGKDLSQVSMPVTINEPLNML
QRLCEELEYSELLDAAAACPDAAERAALVASFAVSAYASAAHRAASKPFNPLLGETYECV
RHDRGFSFVGEQVSHHPPVSACHAASPRWLFWQEARIKTRFWGKSMEFQPAGRVHVRLAT
TGDHYSWNKVTTCVHNLFGGQRWVDQYGDMHIVCHGTDVSCKLNFIKASSWSSGRHEVRG
TVSCGGRRVRLSGRWSEALYAGEPPAARCLWRPGAMPADYEAYYGFTRFATELNEMEPGM
EDVLPHTDTRLRPDQRALEDGDVEKAERLKHELEQAQRDRRREQPEHAPVWFR