| New model in OGS2.0 | DPOGS211764 |
|---|---|
| Genomic Position | scaffold427:- 43946-50592 |
| See gene structure | |
| CDS Length | 2517 |
| Paired RNAseq reads | 759 |
| Single RNAseq reads | 1770 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA004017 (0.0) |
| Best Drosophila hit | CG2144 (1e-42) |
| Best Human hit | GPI ethanolamine phosphate transferase 2 isoform 2 (7e-98) |
| Best NR hit (blastp) | PREDICTED: GPI ethanolamine phosphate transferase 2-like isoform 5 [Macaca mulatta] (3e-106) |
| Best NR hit (blastx) | PREDICTED: GPI ethanolamine phosphate transferase 2-like [Xenopus (Silurana) tropicalis] (4e-105) |
| GeneOntology terms | GO:0016740 transferase activity GO:0051267 CP2 mannose-ethanolamine phosphotransferase activity GO:0016020 membrane GO:0005789 endoplasmic reticulum membrane GO:0006506 GPI anchor biosynthetic process GO:0005783 endoplasmic reticulum GO:0016254 preassembly of GPI anchor in ER membrane GO:0016780 phosphotransferase activity, for other substituted phosphate groups GO:0016021 integral to membrane |
| InterPro families | IPR002591 Type I phosphodiesterase/nucleotide pyrophosphatase/phosphate transferase IPR017849 Alkaline phosphatase-like, alpha/beta/alpha IPR017850 Alkaline-phosphatase-like, core domain |
| Orthology group | MCL15504 |
Nucleotide sequence:
ATGGATGACCTTCCTAATTTTATTGAAGGAGTCAGTATCGACGGTCATGAGGTTTATAAT
CCTGGAGAAAACACAGTTATTCTAATGGTGATCGATGGATTGAGATATGACTTTGTGACC
GAAGAATACATGCCCTTCACTGGACAACTAATAAAAAATAAATCTGCCTGTATATATGTC
TCGGTAGCTGAACCACCGACTGTAACAATGCCTAGAATTAAGGCAATGATGACTGGTAGT
GTGTCAACATTCGCCGATGTAGCACTTAACTTTGGTGCTCCAGCTGTACAAGGGGATAGT
GTGCTAAGAGTGGCCAAGTCGAGAGGGCTTCGAACAATTTTATATGGAGATGACACTTGG
CTGAGATTGTTCCCAGGGCTTTGGACGGAATCGGATGGAACCACATCATTCTTTGTGACA
GATTATACTGAGGTAGACAATAACGTAACGCGACATCTTGATAAAGTTTTAACACCGGAT
GACAAAAACAAACCAAATTTTGACTTCCTCGTGCTTCACTACTTGGGCTTGGATCACATC
GGACATTTGGAAGGCGCCAGAAGCCCAAAGATTAGACCGAAATTAATTGAAATGGATGAA
ATTATCAAGAAAATATATCACGCCATGCAGCAATGGGAGAATGTTGGTACTTTGATAGTA
TGCGGTGATCATGGCATGCGCGACGCCGGGGGACATGGCGGGGCTTCGCCCTCTGAGGTC
CTGGTACCTCTCGTGGTCATTAGAAGTAAGGACTTCAAGTGCCCATACCCGTCCGGCCCG
GGCCCTACGGTGTCCCAGGTGGACGTGGCCCCTACTATCTCGTGGCTATTGAACTGTCCC
CTACCAGGGGATAGCGTGGGGGTCATCCTACCGTCTATGATGCCGCGTGATGTTAGACAG
AATCTGTATTTACTACATGTTCAAGCGAGCCAGATTGGAAAACTGGTGTCCTCTGATACT
GAAATGTACAAACAATACAAGCGAGCCGCGAACCAATTCGCCAACTACCTGTCCACTGGT
CATGAGAGCGCTGCCAAAATAGCCAAGGAGTTCTACGAGGAGTCACTTCACGGTATGGCC
CAGTACTTCACGGAGACCACCACAGAATTTGATATGTTTGCTATCATCATAGCAACCGTA
TGCCTTTATTTAATAACAATAGCACTGTTGTGTATAGCTCTATATTCTCTACAACCCGAC
CAGAAGACGAATATAATTCCTCATCACAACCACCGCTCCAGTGCCAGCACGATGGTGGCA
TTTGCTGTCATTTACACAATAATATCCAGCGTAATGGTGACCGCTTGCTTCATAACAGAA
ACAAAATCACAGTTCTGTTCGTTCACACCGTTGTGGTGTGTGGCATTTATGGCCATGGCC
ATGACTATAACCGCGATTTATTTCGTCATCAAGAATTGCATTGAAAACATTAAGGATTTG
ACAACTCTGAGATGTTTGAATGCCATAGATTATTTGTTGATAGTCGGCACACTTTTTCAT
TCCTGGTCATTCTTTGGGACGAGTTTTATAGAAGAGGAGCATATGACGTGGTATTTTCTT
TGGAACACACTGATGCTGGTAGTTTTATTGAAGACCATAGCGGTCATAGTGATATATGTT
GGCAAGAAGTGGTCGGGATCCACTGAGGTCCAAGACAAACCGGACTTGGAGTATAGGATG
TGCGCTGTTGGTATCATTATTGTACCACAATGGATAATGCTTATCGCTCTTCATAGATAT
TTAAGAACAATGAATCAAACCGGTGACAGGTGGCTGTTCCTGCCGGACACGGCTGATTGG
TTGAACGCTCCGGAGAACTCTTTTTATTTGGAATCACATTGCATTATTGGTACATTTCTA
ACATTTTTAACGTGTATGGTTAACGTGAAACATATGAATAACATAATGCAGATGCATTCA
GCGCTAACAGTGGTCGCCTTTGGTTGCGTGGTTGCGTACAGAATGGCTACAGGTTCCATA
ACCTCATTAACGACCAAATCTATAGATCCTGTTATAATTGTCAATATATTCTGGGGTATC
CTAATATCTCAGTTCATATTCGAGATCGTATCCTATATAGGCGTGTCGAGGTTCAGTAAC
AAGTTCGGTTACACCAAACCGAAGGAGAAGAGCGAGGTGCCATTTTACGTTGACCCCTGG
TGTGTGGATGATGTTAAACTGAAACTAGCCAACTCAATCTCCCACATCATGTATAATGAT
ATGATGATGATAATAGTACTGTTGATGCGACCTCATAACATTATAATGGTGCCTAGTGTA
CATCTCACTTGTAAACTGACGTCAATCTGTCTTGACCATAGATTACTGGATTCTAGAGTA
AAAAAAACTGAAATAGCTGATTTATTGAGTAAAACTCTGGTGCATCTCTGGATTGGAATG
CTTTTCTTCTTTTATCAGGGTAATTCGAACAGCCTGGCCTCCGTAGACCTCGGCTCGGGC
TACGTAGGTCTACGAGAGTACAGAATTGTTGCTCGCAATATTTTTCATTGCCTATGA
Protein sequence:
MDDLPNFIEGVSIDGHEVYNPGENTVILMVIDGLRYDFVTEEYMPFTGQLIKNKSACIYV
SVAEPPTVTMPRIKAMMTGSVSTFADVALNFGAPAVQGDSVLRVAKSRGLRTILYGDDTW
LRLFPGLWTESDGTTSFFVTDYTEVDNNVTRHLDKVLTPDDKNKPNFDFLVLHYLGLDHI
GHLEGARSPKIRPKLIEMDEIIKKIYHAMQQWENVGTLIVCGDHGMRDAGGHGGASPSEV
LVPLVVIRSKDFKCPYPSGPGPTVSQVDVAPTISWLLNCPLPGDSVGVILPSMMPRDVRQ
NLYLLHVQASQIGKLVSSDTEMYKQYKRAANQFANYLSTGHESAAKIAKEFYEESLHGMA
QYFTETTTEFDMFAIIIATVCLYLITIALLCIALYSLQPDQKTNIIPHHNHRSSASTMVA
FAVIYTIISSVMVTACFITETKSQFCSFTPLWCVAFMAMAMTITAIYFVIKNCIENIKDL
TTLRCLNAIDYLLIVGTLFHSWSFFGTSFIEEEHMTWYFLWNTLMLVVLLKTIAVIVIYV
GKKWSGSTEVQDKPDLEYRMCAVGIIIVPQWIMLIALHRYLRTMNQTGDRWLFLPDTADW
LNAPENSFYLESHCIIGTFLTFLTCMVNVKHMNNIMQMHSALTVVAFGCVVAYRMATGSI
TSLTTKSIDPVIIVNIFWGILISQFIFEIVSYIGVSRFSNKFGYTKPKEKSEVPFYVDPW
CVDDVKLKLANSISHIMYNDMMMIIVLLMRPHNIIMVPSVHLTCKLTSICLDHRLLDSRV
KKTEIADLLSKTLVHLWIGMLFFFYQGNSNSLASVDLGSGYVGLREYRIVARNIFHCL