| New model in OGS2.0 | DPOGS212556 |
|---|---|
| Genomic Position | scaffold9:- 507344-508978 |
| See gene structure | |
| CDS Length | 1635 |
| Paired RNAseq reads | 52 |
| Single RNAseq reads | 148 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA012277 (0.0) |
| Best Drosophila hit | CG10383 (9e-38) |
| Best Human hit | protein SERAC1 (2e-43) |
| Best NR hit (blastp) | PREDICTED: similar to conserved hypothetical protein [Nasonia vitripennis] (1e-86) |
| Best NR hit (blastx) | PREDICTED: similar to conserved hypothetical protein [Nasonia vitripennis] (1e-79) |
| GeneOntology terms | GO:0016021 integral to membrane GO:0016020 membrane GO:0006886 intracellular protein transport GO:0006505 GPI anchor metabolic process GO:0005488 binding GO:0016788 hydrolase activity, acting on ester bonds GO:0031227 intrinsic to endoplasmic reticulum membrane GO:0003674 molecular_function GO:0031012 extracellular matrix GO:0030198 extracellular matrix organization |
| InterPro families | IPR016024 Armadillo-type fold IPR011989 Armadillo-like helical IPR012908 PGAP1-like |
| Orthology group | MCL13510 |
Nucleotide sequence:
ATGATTGAAGTGGATAGTGTTCCAGCAAAACCTGATAATATTAATGAGAAACAACTTTGT
ATTTTATGTCTTGATGCATTACATCATCATCTGTTTTTATTTCATGATAGTACTTCTGAT
GAAAACTCTTCTGTTGCTGCTTTGAAAGAATTAGGTATTTTTCCAAAATTGGCAGAATTA
ATGTTGAGATACAGGAATGACTCTGAAATTGATTTTGCAGTTCTCAAGTTACTGACAGTT
CTTAGTGTGTATCCTAGCCTACTAAAAGATTTTTATGAGAATGGTCTTATAGGAGAGCTT
GCTCGACTAATAAAGTCACGTGATATTAGATTGGCAAGTTCATCAGCTGTTTGTTTAGCA
AATTTATCAGGTGAATACCATTATAAGCCAGGTTTATATTTGCTCCATCCGTTATATCGT
ACCAAAAGTAATCATAATTGTGATATATTGCTTGTTCATGGTTTGAGAGGAGGTGTATTT
GTTACTTGGAGACAAAGAGATAAAAAATGTGCAGAACCTGTTGGTATTATTGAAGTAACC
GTCTCTGATGTTGAATGTGATCCATGTGAAAAGGACAACCTCTCCAAAACATATTTTGAT
CCTGAACTTCAACAAGTTCTAGAGGATTTGAAGGAATTGGATGATGAAGCTTTACTGACA
AATTTAGAAGTAGTTTTACATGATATTCCTATATCTGCAAAGAGGGAACCTAGCAGTACC
AAACAATATACATCAAATAAAAAACGTCTGGCTTTAATACAGGAAGATGAAGATAAATGT
AATTATACACATTGTTGGCCTAAAGATTGGCTACCACAAGATTGTGATAGTTTGAGAATT
CTTGGTTTCAACTACTGGAGTAAACTTTCTGAATGGCTAGAGGGGTGCCCTCTAAAAAAT
GCGGATATTGAATCGAGAGCTGAAGAACTTGGCTCTGTTTTAATTGATGCTGAAGTTGGT
AAAAAAAGTATTGTTTGGCTGGCTCATTCAATGGGTGGTCTTATAGTAAAAAAATTATTG
GTAGATGCAGCACAAAAGAGTGAACCCAGATTTGGAAATCTGTGTCAAAAAACTAAAGCA
GTGTTATTTTACAGCACTCCACATAAGGGAAGTGCCTTAGCAACAATGCCTCGAGCTGCA
GCAGCAATTCTTTGGCCCTCACAAGATGTTAAACAATTACAAGAAAATTCACCAGTTCTA
CTTAAAATGCATAATGAGTTTATAAAATTTGCAGATTTGTTCAACTGGGAAACGATAAGT
TTTGCAGAAACACAACCAACTTTAGTAACAGCTTTCAAAGTTCCTGTTCATTTTGTAGAA
TCATTTTCAGCTGACTTAGGTCGTGGTGTATTCTATGAATTGCCTCTTGACCATCTGTCA
ATATGCAAACCAGCTACAAGGCAATCAATTCTATATACAACAGTATTAGATGTTTTATTA
AGAGTGTCATCTTGTGAAGTTCAATTAAAACACACGGACTCACACATTTTAAGACTAATA
TACACTTTTTGGTCTCTTGTAAAAAGTAAATTTGGTTTGTTAAAAACTAATTTGGAAGAT
AATCAAGGAAATGGAAATCAACACTGGATTGAAAAAACTTTACTTCATGCATTCACTGAT
GACGTTATAACATAA
Protein sequence:
MIEVDSVPAKPDNINEKQLCILCLDALHHHLFLFHDSTSDENSSVAALKELGIFPKLAEL
MLRYRNDSEIDFAVLKLLTVLSVYPSLLKDFYENGLIGELARLIKSRDIRLASSSAVCLA
NLSGEYHYKPGLYLLHPLYRTKSNHNCDILLVHGLRGGVFVTWRQRDKKCAEPVGIIEVT
VSDVECDPCEKDNLSKTYFDPELQQVLEDLKELDDEALLTNLEVVLHDIPISAKREPSST
KQYTSNKKRLALIQEDEDKCNYTHCWPKDWLPQDCDSLRILGFNYWSKLSEWLEGCPLKN
ADIESRAEELGSVLIDAEVGKKSIVWLAHSMGGLIVKKLLVDAAQKSEPRFGNLCQKTKA
VLFYSTPHKGSALATMPRAAAAILWPSQDVKQLQENSPVLLKMHNEFIKFADLFNWETIS
FAETQPTLVTAFKVPVHFVESFSADLGRGVFYELPLDHLSICKPATRQSILYTTVLDVLL
RVSSCEVQLKHTDSHILRLIYTFWSLVKSKFGLLKTNLEDNQGNGNQHWIEKTLLHAFTD
DVIT