| New model in OGS2.0 | DPOGS201278 |
|---|---|
| Genomic Position | scaffold573:+ 20203-29097 |
| See gene structure | |
| CDS Length | 3306 |
| Paired RNAseq reads | 332 |
| Single RNAseq reads | 1108 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA003029 (2e-143) |
| Best Drosophila hit | rugose, isoform B (1e-68) |
| Best Human hit | protein FAN isoform 1 (2e-118) |
| Best NR hit (blastp) | hypothetical protein TcasGA2_TC013522 [Tribolium castaneum] (1e-173) |
| Best NR hit (blastx) | PREDICTED: similar to neutral sphingomyelinase (n-smase) activation associated factor fan [Nasonia vitripennis] (2e-163) |
| GeneOntology terms | GO:0005057 receptor signaling protein activity GO:0006672 ceramide metabolic process GO:0005625 soluble fraction GO:0005737 cytoplasm GO:0007165 signal transduction |
| InterPro families | IPR000409 BEACH domain IPR011046 WD40 repeat-like-containing domain IPR019782 WD40 repeat 2 IPR017986 WD40-repeat-containing domain IPR001680 WD40 repeat IPR019781 WD40 repeat, subgroup IPR023362 PH-BEACH domain IPR015943 WD40/YVTN repeat-like-containing domain |
| Orthology group | MCL16658 |
Nucleotide sequence:
ATGAACAAATCCAGATTCTCCATGTTATTGTTGGAGCCAGGAGAAATATATTTTGAGGAT
TATTCCTGTACAATGAGTGATATATCAAACTTATCTAATACAATACAGGGTAGATTAAAA
CTTTGTTCAAAGTCTCTTATTTTTGAGCCAAGAGAGTGGATTTATCCACTTATTAAATTA
TATTTTAAAGAATGTATTGATATTAATGTAAAAACAGATGGTGGTGATGAGAAAAGTGCT
TTAAATATAAGAATTAAGCAATACGCTGAGATGTTAGAAGAGAATATGCTAGCACCATAT
AAATTTAAATACGAATGTAAAGAGTTCCGTTTTAATTTTGATTTTGTGTCTGCTGAGGAA
TGTTTGAGCCAGATGCAACAATTACACAGAGCGTCAACTCTCCATGCTCCCGAACATAAC
AGTATGGTGGCAACTATCCAACATTCTCGTTATACGAGAATGACATTTGATCCCATTATG
ATGGATGATTTTACAGAAAAAATTATTGAGGAATTTCAAGCTGAAAAAATTTCACCATTA
GTAAGACACCAAGGCAAATTAGCACTCACTTCTACAACCTTATATTTCCAACCGTTCAGC
AATATTGAAAGTGGCCTTGAAATATATGGTAAAGAAGGTACTGCTGTGTCTCACATATAT
CTTGTATTCCAATGTGAGGATGACAGAGATCTGGCATATAAAACTCTAGAAGAATCTCCA
AATGTACACTTGGAGCCCGTTCATGTCGAAGAAATGACACTCCAATGGCAGAATGGAATT
GTATCTAATTATGATTATCTGATGTATCTCAACTGTCTCGCTGACAGGAGTACAAAGGAC
TTAACACAATACCCTGTATTTCCTTGGGTGGTGGCAGATTATACATCAGAAAAATTAGAT
TTAGATAATGCAGACACATTCAGAGATCTCACTAAACCGATGGGCGCTTTGAATCCTGAT
AGATTAGAGAAATTACTAGAAAGATTCCATGAAATGTCAGACCCGAAATTCTTATATGGA
TCTCACTATTCAGCTCCCGGCCTTGTGTTGTTTTATTTGATGCAACAATTACACAGAGCG
TCAACTCTCCATGCTCCCGAACATAACAGTATGGTGGCAACTATCCAACATTCTCGTTAT
ACGAGAATGACATTTGATCCCATTATGATGGATGATTTTACAGAAAAAATTATTGAGGAA
TTTCAAGCTGAAAAAATTTCACCATTAGTAAGACACCAAGGCAAATTAGCACTCACTTCT
ACAACCTTATATTTCCAACCGTTCAGCAATATTGAAAGTAATGCGATTCTAAAAATGAAA
TTAAGCGAGCTGAACAGGATATATAAAAGGAGATTTTTATTAAGGCAAGTTGGCCTTGAA
ATATATGGTAAAGAAGGTACTGCTGTGTCTCACATATATCTTGTATTCCAATGTGAGGAT
GACAGAGATCTGGCATATAAAACTCTAGAAGAATCTCCAAATGTACACTTGGAGCCCGTT
CATGTCGAAGAAATGACACTCCAATGGCAGAATGGAATTGTATCTAATTATGATTATCTG
ATGTATCTCAACTGTCTCGCTGACAGGAGTACAAAGGACTTAACACAATACCCTGTATTT
CCTTGGGTGGTGGCAGATTATACATCAGAAAAATTAGATTTAGATAATGCAGACACATTC
AGAGATCTCACTAAACCGATGGGCGCTTTGAATCCTGATAGATTAGAGAAATTACTAGAA
AGATTCCATGAAATGTCAGACCCGAAATTCTTATATGGATCTCACTATTCAGCTCCCGGC
CTTGTGTTGTTTTATTTGGGAAGAGGGGGAGGAAAGTGGGAAAGGGAGGGAAAAGAGAAG
GGGCAGGAAAGGGTGGGAAAAGGGAAAGGGCAACCGGCTCTCTCACTCATCGAACGAAAC
GCAGCCATTAAAGACTACTTCACGCCGATCTTCTGTGTGAGGGTGGTAAGGAAATATCCA
CAGTACATGTTGTGTTTGCAAAACGGAAGATTTGATCATCCGGACAGAATGTTCAATTCA
GTGAAGGACGTTTATAATAACTGTTTGAAGAATATGTCGGATTTTAAGGAGCTCGTGGCA
GAGTTCTACGACACAAGCACAAAGGGAGATTTCCTAGTTAATATTCACGATATAGATTTC
GGGGAGCGCCACGACGGAAACAAGGTCGCGGACGTGGCCTTACCCCCGTGGGCGGACACC
CCAGAACAGTTCGTACACAAACTAAGACAGGCCCTCGAATGCGATTACGTGTCCAGATAC
TTACACGCCTGGATTGATCTCATATTTGGTTACAAGCAACGCGGCGAGGAGGCTGTCAAA
GCTAATAATGTATTCCACCACGTGTGCTACGAGGGCTCTATAGACTTGGACGTGATATAC
GACATGAACGACAGACACGCGCTCGAAGTACAGATCATGGAGTTCGGCCAGATACCGAAA
CAGCTGTTCACTAAGCCTCATGTGAAGAGAATACCACAGCAGATAATAAAGCCGCTGAAC
ACGAAGCCGACCAGTCATATAGAGTGTATTAAAACAATAGCGTTACACAAGGAGGCCGTG
ACCTGTGTGATGAGAGAGAGAGACAGAATCATATCGGTCGGTAAAGACGGTACTTTGAAA
GTGTACGACGTTGTCCAGGATAAGCAGATACGCAGCGTCATACTGTGCGGTACGCCGCTG
AGTTCCTGTGTTATGGTGGACGAGCATATAGTAGCTGCTGAGCGCGTGTTGTTGTCTGGT
GGGTGGGACGCCGTAGTACGTGCTTGGAGGCGTGCGGGCGCTGGGCTAGCGCTCCGCGGA
CTGAGGGCGGAGCTCGACCACGACGGACGAGTCACCGCCTTGGCTGTCAGGTACAGGAAA
CACTACTTGGACATATTATCTGGGACCAGCGACGGCGACGTCTACCTCTGGGATTACTCC
ACCAAGGAGTTGATTAATAAGATCACGGTTCATCCCTCGCCGGTCGCCGGCATATGTCTG
TTGTCAGAGGAGAGAATCGTCAGCGCCAGCGAGAACGGTGACTTGAGCGTCACCGATCTG
AAAGTTTTGAGTTCGGTGTACGAGAAGCAGGTGTCGTCAACCCTGAGGGCGGTGTGCTCG
GAAGGTGACCTGCTGTGGGCGGGCGGGGCGGGGTTGCTGCTGCAAATGGACATGCTCGCT
GTAAAGCAGCTGGGGGAGTATGACGCTCATCAAGATCTGATCAGGTCCATTCACTATGAT
GCAGCCTCGAAAACCCTCACAACGGCTAGTGATGATAAGTCAATTAAAGTCTGGATAATA
ACATGA
Protein sequence:
MNKSRFSMLLLEPGEIYFEDYSCTMSDISNLSNTIQGRLKLCSKSLIFEPREWIYPLIKL
YFKECIDINVKTDGGDEKSALNIRIKQYAEMLEENMLAPYKFKYECKEFRFNFDFVSAEE
CLSQMQQLHRASTLHAPEHNSMVATIQHSRYTRMTFDPIMMDDFTEKIIEEFQAEKISPL
VRHQGKLALTSTTLYFQPFSNIESGLEIYGKEGTAVSHIYLVFQCEDDRDLAYKTLEESP
NVHLEPVHVEEMTLQWQNGIVSNYDYLMYLNCLADRSTKDLTQYPVFPWVVADYTSEKLD
LDNADTFRDLTKPMGALNPDRLEKLLERFHEMSDPKFLYGSHYSAPGLVLFYLMQQLHRA
STLHAPEHNSMVATIQHSRYTRMTFDPIMMDDFTEKIIEEFQAEKISPLVRHQGKLALTS
TTLYFQPFSNIESNAILKMKLSELNRIYKRRFLLRQVGLEIYGKEGTAVSHIYLVFQCED
DRDLAYKTLEESPNVHLEPVHVEEMTLQWQNGIVSNYDYLMYLNCLADRSTKDLTQYPVF
PWVVADYTSEKLDLDNADTFRDLTKPMGALNPDRLEKLLERFHEMSDPKFLYGSHYSAPG
LVLFYLGRGGGKWEREGKEKGQERVGKGKGQPALSLIERNAAIKDYFTPIFCVRVVRKYP
QYMLCLQNGRFDHPDRMFNSVKDVYNNCLKNMSDFKELVAEFYDTSTKGDFLVNIHDIDF
GERHDGNKVADVALPPWADTPEQFVHKLRQALECDYVSRYLHAWIDLIFGYKQRGEEAVK
ANNVFHHVCYEGSIDLDVIYDMNDRHALEVQIMEFGQIPKQLFTKPHVKRIPQQIIKPLN
TKPTSHIECIKTIALHKEAVTCVMRERDRIISVGKDGTLKVYDVVQDKQIRSVILCGTPL
SSCVMVDEHIVAAERVLLSGGWDAVVRAWRRAGAGLALRGLRAELDHDGRVTALAVRYRK
HYLDILSGTSDGDVYLWDYSTKELINKITVHPSPVAGICLLSEERIVSASENGDLSVTDL
KVLSSVYEKQVSSTLRAVCSEGDLLWAGGAGLLLQMDMLAVKQLGEYDAHQDLIRSIHYD
AASKTLTTASDDKSIKVWIIT