| New model in OGS2.0 | DPOGS203704 |
|---|---|
| Genomic Position | scaffold21:- 46716-54670 |
| See gene structure | |
| CDS Length | 3018 |
| Paired RNAseq reads | 313 |
| Single RNAseq reads | 1036 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA003496 (3e-124) |
| Best Drosophila hit | CG2292 (2e-92) |
| Best Human hit | GPI ethanolamine phosphate transferase 1 (1e-114) |
| Best NR hit (blastp) | unnamed protein product [Tetraodon nigroviridis] (8e-135) |
| Best NR hit (blastx) | GPI ethanolamine phosphate transferase 1 [Bos taurus] (7e-130) |
| GeneOntology terms | GO:0016740 transferase activity GO:0003824 catalytic activity GO:0005789 endoplasmic reticulum membrane GO:0008152 metabolic process GO:0006506 GPI anchor biosynthetic process |
| InterPro families | IPR017850 Alkaline-phosphatase-like, core domain IPR017849 Alkaline phosphatase-like, alpha/beta/alpha IPR007070 GPI ethanolamine phosphate transferase 1 IPR010342 Protein of unknown function DUF938 IPR017852 GPI ethanolamine phosphate transferase 1, C-terminal IPR002591 Type I phosphodiesterase/nucleotide pyrophosphatase/phosphate transferase |
| Orthology group | MCL14619 |
Nucleotide sequence:
ATGCCATATCTTCGATCGGTCGCAAATACCAATGGTCTGTGGGGTATATCACGCACTAGG
GTGCCCACGGAGTCAAGACCAGGTCATGTAGCTATATTAGCAGGATTCTATGAAGACCCC
TCAGCTGTTGCAAAAGGCTGGAAACAAAATCCTGTTGACTTTGATTCAGTGCTCAATCAA
AGTGTTTATAGTTGGTGCTGGGGCACATATGATATATTAGAAATATTTGCTAAGGATGAC
TTAAGTGGGCACATATACACTGAAAAAATGGATCCTTATGATGAAACATACAGCCCAAAT
AGAAATACCACCACTTTGGATAAATGGGTATTTGATAGAGTAAATTATTTTTTTAATAGA
CAAGAATTGGACAGTGAAATTTACAAAAAGTTACAACATGATAAAATTTTATTTTTTTTG
CATCTGTTAGGAACAGATAGCTCTGGACACATGCATAAACCAAAGTCACAAAATTTCTTA
ACAACTATTAAATTTGTTGATGAGAATATTCAAGAAATTGAACAAATCATAAGGAAATTC
TACAAAGATGATGGACGAACAGCATTTTTAATGACATCTGATCATGGGATGACTGATTGG
GGTTCTCATGGTACAGGGGATGATCATGAAACTGAAACCCCTTATGTCTTATGGGGTGCT
GGCGTAACACAGATTGAAAGTGAATCAATACAGCTTGATAACAACTATGAAATGTCTCTT
GATAACCGACATGATATCAATCAGGCCGATCTAACTCCTTTGATGTCTACATTGCTTTCT
ATTCCCGTTCCCGTTAACTCCATTGGACAGTTGCCAAGTGAACTACTGAACATGACACTT
CCAAATAAGGCTAAAGCTATATACAGTAACTGCATACAGATGATATCACAATACAATAAA
AAGAGAATGGATATTGAATCCAGCGCAATATCATTCCTCTACCATCCATATGAACCACTC
AGTAGTGAAAAAGTAGAAGAAATACTTCATGTAATGGAAATGTTATTAGCTGAAGAAAAA
TACAACAGTCTCATTAGTTTGTGCGAAGACATTATGCATTTAAGCTTAAACGGCCTCTCA
TATTATCATAACTATTATCAGAAGCCGTTGTTGATCACTATATCACTATCATTTATGGGC
TGGATTATGTTTTTATTGAAAGTATTACTAAAACAAAGAATAAATACTCAAGCTGAATAT
TCTATCGCAAGTAAAGGACTGCTTAGGCCCAATGGAGGAGTGGACATAGTTATTAGAACA
ATTTCTATTCTTATGGCTATATTACCTTTTTATTTGATATACGCTCAAAACTTACCAATG
CAGTATTATATTTACTTTGTGATGCCAATAGTTATGTGGATGTATGCTGTGACACCAGTC
AAATTATGGATGGTTACTTTAAAATCTATTAGAAATAAAAAAACGCTGTTGATCTTATGG
TTTGAAATAGTATGTTATACTTTGGGATCACTTGCTATGGGGTTTGCTTTTAGTCAGAGA
TGGGTGTTGAGCATCCCTCTACTAGGTATGAGCTTGTGGCCATTTTTATCATCAAAACAA
AACTCAAGATCCACTTACATTGCATGGGTTGCTGGATGTATAATGCTAAGTGTTTTTTCA
TTCCTGCCAGTAGTTGGTAAAGATGTGTGTATTGAATTAGTAATTCTTGCAGGTTTAATT
TGGATAATAGCGGTGAGTTTCTATGTATGGAACACATTGATGCCATACTACGACAAAAAT
AACGAAATTAAACGGGAGGCGATTATGAGTATCATACAAATAACAATCTTAGCAATATCA
TTGGTAATCATCTTTTTGCAGTCGAAAAGGTTTATAGACGAAATGCCAATATCAAGGGTC
TTTCAAATATTATGTTGGAATTTTTCTGTTATGTTCCCTCTACTGCCACTGTTCTATACA
AAGAAATGTATAAATAGACTTCTTGGAAACATAGCTTCATTGAATTCATTTGAAGTCAGG
TGGGTGTTGTGTTTCACAACATCGTTTCAGCCATTCGTAATAACAACATTAATTCTGCTG
AAAACTTTGGCTCCGTTTTTAAGTGTTGCCTGCACATTTAGGGCCATACAAATATTTACA
AAGGCTCCCGTTGGCTGTTTGAACATAATTGTGCTGATATTTTCAAATATAATGGGAATC
CAGATGTTATTTCAAGTTAGAAACACTGGAAGTTGGCTTGAGATAGGAACATCAATATCT
CAGTTTGTCATAGTACAAACAATTACATTATTTATTGTTTTAATAAGTCAAATAGCCAAA
ATATTCACCGGAACGGATCTGTATGGTTTGTTCTTAAGACACATGTCGAAATCAAATGAT
ATTGCCTGTACTATCAACGTGGACAAACAAAGTGAGGATTATGCGGGTGACAAATTAATA
AGTCCTTCAGCTTCCAGAAATCAAGAACCCATTTTACAGGTTTTGAAAAGATTTCTAATA
TGTGATATCGACCAAGTTGAAGATGAAAGCCCTTTATTCTTAGAAATTTCTTCAGGTACA
GGTCAACACCTAGCATATTTTGCACCTCATTTTCCTGGAGTAAAATTCCAACCATCGGAA
TGTGATGTTAAGGTAATGAAAAGCATATCATATTATGCGAATAACTGTCCAACAAAGAAT
ATTTTTCAACCTTTGCTGATTGACATACAAAACAAGTTAAGTAATTATGGATTTGAGGAG
GATTCAATTGACTATATGTTCAATGCCAATATGATTCACATAAGTCCTTTTGAATGCACT
ATTGGCTTATTTGAAAATGCAGGAACTTACTTGAAACCAGAAGCTTTAATGATAACCTAT
GGACCGTACAGTAAGGATGGTGTTTTATCACCAGAGAGCAATGTAGCATTCAATGCATCT
CTGAAAGCTAGAAATCCATTGTGGGGTATTAGAGATATTAATGATTTAATTAAATTAGGA
AATGAAAACAATTTATCTCTTATTGACACTGTTGAAATGCCAGCAAACAATATGACTCTG
ATATGGAAAAAAGAATAG
Protein sequence:
MPYLRSVANTNGLWGISRTRVPTESRPGHVAILAGFYEDPSAVAKGWKQNPVDFDSVLNQ
SVYSWCWGTYDILEIFAKDDLSGHIYTEKMDPYDETYSPNRNTTTLDKWVFDRVNYFFNR
QELDSEIYKKLQHDKILFFLHLLGTDSSGHMHKPKSQNFLTTIKFVDENIQEIEQIIRKF
YKDDGRTAFLMTSDHGMTDWGSHGTGDDHETETPYVLWGAGVTQIESESIQLDNNYEMSL
DNRHDINQADLTPLMSTLLSIPVPVNSIGQLPSELLNMTLPNKAKAIYSNCIQMISQYNK
KRMDIESSAISFLYHPYEPLSSEKVEEILHVMEMLLAEEKYNSLISLCEDIMHLSLNGLS
YYHNYYQKPLLITISLSFMGWIMFLLKVLLKQRINTQAEYSIASKGLLRPNGGVDIVIRT
ISILMAILPFYLIYAQNLPMQYYIYFVMPIVMWMYAVTPVKLWMVTLKSIRNKKTLLILW
FEIVCYTLGSLAMGFAFSQRWVLSIPLLGMSLWPFLSSKQNSRSTYIAWVAGCIMLSVFS
FLPVVGKDVCIELVILAGLIWIIAVSFYVWNTLMPYYDKNNEIKREAIMSIIQITILAIS
LVIIFLQSKRFIDEMPISRVFQILCWNFSVMFPLLPLFYTKKCINRLLGNIASLNSFEVR
WVLCFTTSFQPFVITTLILLKTLAPFLSVACTFRAIQIFTKAPVGCLNIIVLIFSNIMGI
QMLFQVRNTGSWLEIGTSISQFVIVQTITLFIVLISQIAKIFTGTDLYGLFLRHMSKSND
IACTINVDKQSEDYAGDKLISPSASRNQEPILQVLKRFLICDIDQVEDESPLFLEISSGT
GQHLAYFAPHFPGVKFQPSECDVKVMKSISYYANNCPTKNIFQPLLIDIQNKLSNYGFEE
DSIDYMFNANMIHISPFECTIGLFENAGTYLKPEALMITYGPYSKDGVLSPESNVAFNAS
LKARNPLWGIRDINDLIKLGNENNLSLIDTVEMPANNMTLIWKKE