| New model in OGS2.0 | DPOGS205973 |
|---|---|
| Genomic Position | scaffold176:+ 40778-50871 |
| See gene structure | |
| CDS Length | 4434 |
| Paired RNAseq reads | 2640 |
| Single RNAseq reads | 6301 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA009402 (0.0) |
| Best Drosophila hit | CG31004, isoform B (0.0) |
| Best Human hit | sushi domain-containing protein 2 precursor (2e-69) |
| Best NR hit (blastp) | hypothetical protein AaeL_AAEL005432 [Aedes aegypti] (0.0) |
| Best NR hit (blastx) | hypothetical protein AaeL_AAEL005432 [Aedes aegypti] (0.0) |
| GeneOntology terms | GO:0003674 molecular_function GO:0005575 cellular_component GO:0007160 cell-matrix adhesion |
| InterPro families | IPR016060 Complement control module IPR005533 AMOP IPR000436 Sushi/SCR/CCP IPR003886 Nidogen, extracellular domain IPR001846 von Willebrand factor, type D domain IPR014756 Immunoglobulin E-set |
| Orthology group | MCL14543 |
Nucleotide sequence:
ATGGGTGTTAAAGTTAAATTGGTAGTATTTGTAACGTTAGCTTTAAGTGTATACGGACAA
GATGTTGTAAGTGATGAGAGGACAGTTAGTGATAACGTTGATAAGGAAATTTCGGATAAT
ATCACGGATTCGATACAAAATGCAAAAGTAGAGGATCCTGTAGAAATTATAACTGGTAGT
GATATCGAAATAAAGAGTGGTAAATATCAATTTGCGAACGATGGACTTACAGGCGACGAG
CCTGTTGATTTGGAAGCGGTAGACTTAAGTCCAGGCGAATCGCAGAACGAGCGACAGGTT
TTGGGACCGGCGACCACAACATCCATAACTAATACGGAATATGCACACATCGATGGCAGA
GTCCTTCCGTCAACTAGTTATCAAAACAATGGCCAACCATATGTCATCACACAGCAAAGA
CTGGCTCAAATCAGATCGAATTTTATGTACTGGTTCTACGACCAAGGTGGTAACGAGAAT
ATTGGAGACTATCAGAGAGATATCCACACGTCAACACCTCAAATTCACAAAAATTTCAAC
TTCCAACTCCCATTCTTTGGATTCAGGTTTAATTACACAAGACTATCGATGAATGGCTAC
ATATACTTCAGCGATCCTCCAGACCACTACACCTATCCTCTGTCTTTCCCCATCAGAGAT
TGGCCAGCTATGAATGACCCTTCATTTATAGGTATCTTCTTCAGTAAATGTCGTATAGGA
AGCCAGAGGCCCGAAGACCCTGATCAGAGAAGACCTGGAGTTTACTTTAGAATGGACAGA
GACCTGCAGACTCGAACAGATCAGTTAGGTGTGGAGATGAGGGAGAGGATAACTTGGGAT
ATAAGGCAGGGCGTCATTGGTTCAGAAAGTTTCTTCCCAAAACACGCTATAACTATAACA
TGGAAAAACATGTCCTTCGCTGGAGGAATAGACAACTCACTATTTGTTACGAACACCTTT
CAAATGGTATTAGCTACTGACGAGGTATTCACCTACGCAATATTCAATTATCTCGAAATC
AACTGGAGTTCTCACACTGAAGCTGGAGGTGATACGACTACTGGTGAAGGTGGTGTACCA
GCTTATATCGGATTCAATGCGGGGAATGGCACTAGAAGTTACGAGTATAAACCCTACTCA
CAAGCCTCCGTACTTAGAGACTTGACTGGAAGAGGCTGGGCTAATGGATTTCCAGGAAGA
CATATCTTTAGAATTGATGAGAATATCCTCATGGGTACTTGTAATAAGGATATAGATGGT
GCAAATCTACCACTAATGTTCGCCCCTGAAAGTGGTAACATGCTTGGTGGTACCGTCGTC
AATATTACTGGTCCCTGCTTCCAACCAACCGATCGGATCTCTTGTCGCTTCGACACTGAG
TCAGTCGTTGGAGCGGTTGTTGACTCTAACAGAGCTATTTGTGTTCAACCCCGATTTTAT
CACAACGGTTACGCCAGATTCGAAATTGCAATAAATAACGAACCCTACAAATGGAAAGGA
AAATTCTTTGTTGAAACCCCTGGAACTGCTACCGAAAAGATATTCTTCCCTGATAACTCT
ATTCACGAAAGATATCCACCAGAAATACGAATTAGATGGGACCGGTTCAATTTAACGACC
AACCTGAACGTCCAACTACAAATTAGTTTATGGGGCTACAAGGAAGTCACCATCAGACCT
CAAATGGAATTCATTGACATGATTGAGACTGGTGTAGCGAATACAGGGGAATACGTCATC
AATCCCCAAAACTTCCGCAACAGGGACAACATCATGCACAACGACATGCAGTTTGGATTC
CTTCAAATTAATTTAACAACTCCAGAAATATACAAGGATGTCGCTATATCACCTGTATTA
TGGAGTCGTCCGATTCCCCTGGGCTGGTATTTTGCGCCGCAATGGGAGCGAATGTACGGA
CAGCGCTGGTCTCAATCCATGTGCAACAACTGGCTGAGAACTGACAGATTCCTCAAAAAT
TATGCAGCACAAGTATGGGTGTGCCCATGTACACTAGAACATGCCCTCCTAGATAAGGGA
AGGTTCATGCCTGACCTGGACTGCGACAGGGACATCAACCCTACATGTAGATATCATTGG
GGAGCCATTCACTGTGTTAGAAGCGGTGGACCCAGTTCGGAAGGATCGGGTCAACAATGC
TGTTACGACAAAAACGGTTTCCTTATGCTTTCCTACGATCAGATGTGGGGATCCAGGCCT
CGTCGGTCCCATGACTTCGGGTTTACTCCTTACAATGAAGCTAATAAAGTACCATCTTTG
TCTCATTGGTTCCACGATATGATACCCTTCTATCAATGCTGTATGTGGCAAGAGGAACAG
GCAGTCGGCTGCGAAACGTTTAGGTTCGAGCGTCGACCATCTCAAGACTGTGTTGCGTAC
CAATCACCAGGGGTAGCTGGTATATTTGGAGACCCACACATTGTGACCTTCGACGGTCTT
CAGTATACATTTAACGGCAAAGGTGAGTATGTACTGGTGAGAGTTGACCGTCCACAACTG
AAGCTGGATGTTCAAGGTCGCTTCGAACAAGTGCCCAGAAATATTTATGGACCAGTGAAC
GCAACGATGCTTACCTCCATTGTGGCCGCTTCTAACAACTCCGTACCTATAGAGGTAAGA
CTAAGACCGCAGCATGCTCAATGGAGATACCGTCTAGATGTGTTCGCTGACAACAAAAGG
ATTTATTTCGACAGAAGCGCTCTAAGAGTTCAATATTTCCCAGGTGTGACCGTATATCAG
CCCATGTATATTCTTAACCAGTCGGAAATCGTCATCATGTTTTCGTCGGGTGCTGGAATA
GAAGTCATTGAAAACAAAGGCTTCATGAGCGCTAGGGTCTACTTGCCTTGGACCTATATG
AATCAAACACGAGGTCTTTTTGGAAACTGGTCTTTGGACATCAACGACGACTTCTTACGG
CCAGATAGCACTATGGCTGCTGTCGACCTGAACAACTTCCAATCCGCTCATAGAGACTTC
GCTCAACACTGGCAACTAACAGATAGGGAACAACCAAATATAGGGGTGGCGTTGTTTGTC
AGAGAATACGGAAGAACAGCGGCGTATTACAACGATAATCAATTTATACCGAACTTTATA
CGAGAACCGGTGAATTTCTTGCCATCGAACCGATCTCAGGACGTGATTAGAGCGACCGAG
ATCTGTCAAGATTCCTATCAATGTCGTTACGACTACGGCATGACCTTGAATAGAGATATG
GCTGAATTCACAAAGAACTATTTATCTTCTATTACAAATATTAAAGAGCAGAATGCCCGT
CGCGTGATCAGTTGCGGGGTTTTGGAGACACCACGCTTTGGACGTAAAAGCAACTTTTTC
TTCACTCCCGGCACGAGAGTTAACTTCGAATGTAATCAAGACTTTATTCTAATTGGTGAC
AAGAGACGTGTGTGCGAGGACAACGGGAGATGGAATTTACCAGACTACGGCTATACTGAA
TGCTTACGTAATCAGGAATACTCACAAAGAGCGTTGTTCTTGACTTGGGGCATCATAGTG
GCGATTATTGTACCATTAGCTCTCCTCATTTGTCTGCTTTGGTTCTGGTGTTATTTCAAA
CCAAAGTCCGAAGGCAAAGATACATTCCGATTCGAAGACATACCGCGGTCTAAATCGGCT
TCGCGTCTCAACCTTAGGTCAACATCGATGGGAAATATCACTGATACTATGAGATCCTCA
ACCATGCATAGCCAGGATACTGATAAACCAAAACTCCCTGACACTCCCACAGAAATAACC
CCCATGACAGCCAATGTAACTAGAACTGCCCCGCTCCCTCCTGAAACCTTAGACGGTGAA
AGTTCAGGAATAGGTTATACGGATTCTAATAAAAGCGACAGATCTGACAAATCCAAAAAA
CGACGCGCTTATGACAAAACTTACAGAACCAATGAACCCTTGCCCAATGCCCCTGAAGTA
GAATTTCCTGAAAAGCAATGGGACTTATCGGAGGAAGACCTGTTATCCCTAACAACTCCT
TCGGAAACAGAATCTAATCGAGATTCTACATTAACAAGACCTGCTAAAGACATCAAATAT
TTGAGTCGCCCTCGCCAAACGGGTCGTCATGCTTTGCAAACTGACTCTGGTTACTCAACT
AAAGACGGTTCAGAAGATCCATACTCTCCCAAATATGACGGTCAATATAGTCCAATACCT
TCGGCATATTCTCCCACTTACTCTGAAATTTACTCTCCACCTATCAGTCCCACATCTGAT
AACAGTCCCAGGAATACTTACAATAATCCTGGCTTGCCGGAACCTCCAAAGAGCGCCCCC
GCAACTGAAATAAAAACATTCACAATGCCTCCAAAGAGAGGAAAATCTATCGAGACACTC
ATTGACCCTCCTACGGCAGAAATGCCATCATTCAGTCGATCTACTATGGTATAA
Protein sequence:
MGVKVKLVVFVTLALSVYGQDVVSDERTVSDNVDKEISDNITDSIQNAKVEDPVEIITGS
DIEIKSGKYQFANDGLTGDEPVDLEAVDLSPGESQNERQVLGPATTTSITNTEYAHIDGR
VLPSTSYQNNGQPYVITQQRLAQIRSNFMYWFYDQGGNENIGDYQRDIHTSTPQIHKNFN
FQLPFFGFRFNYTRLSMNGYIYFSDPPDHYTYPLSFPIRDWPAMNDPSFIGIFFSKCRIG
SQRPEDPDQRRPGVYFRMDRDLQTRTDQLGVEMRERITWDIRQGVIGSESFFPKHAITIT
WKNMSFAGGIDNSLFVTNTFQMVLATDEVFTYAIFNYLEINWSSHTEAGGDTTTGEGGVP
AYIGFNAGNGTRSYEYKPYSQASVLRDLTGRGWANGFPGRHIFRIDENILMGTCNKDIDG
ANLPLMFAPESGNMLGGTVVNITGPCFQPTDRISCRFDTESVVGAVVDSNRAICVQPRFY
HNGYARFEIAINNEPYKWKGKFFVETPGTATEKIFFPDNSIHERYPPEIRIRWDRFNLTT
NLNVQLQISLWGYKEVTIRPQMEFIDMIETGVANTGEYVINPQNFRNRDNIMHNDMQFGF
LQINLTTPEIYKDVAISPVLWSRPIPLGWYFAPQWERMYGQRWSQSMCNNWLRTDRFLKN
YAAQVWVCPCTLEHALLDKGRFMPDLDCDRDINPTCRYHWGAIHCVRSGGPSSEGSGQQC
CYDKNGFLMLSYDQMWGSRPRRSHDFGFTPYNEANKVPSLSHWFHDMIPFYQCCMWQEEQ
AVGCETFRFERRPSQDCVAYQSPGVAGIFGDPHIVTFDGLQYTFNGKGEYVLVRVDRPQL
KLDVQGRFEQVPRNIYGPVNATMLTSIVAASNNSVPIEVRLRPQHAQWRYRLDVFADNKR
IYFDRSALRVQYFPGVTVYQPMYILNQSEIVIMFSSGAGIEVIENKGFMSARVYLPWTYM
NQTRGLFGNWSLDINDDFLRPDSTMAAVDLNNFQSAHRDFAQHWQLTDREQPNIGVALFV
REYGRTAAYYNDNQFIPNFIREPVNFLPSNRSQDVIRATEICQDSYQCRYDYGMTLNRDM
AEFTKNYLSSITNIKEQNARRVISCGVLETPRFGRKSNFFFTPGTRVNFECNQDFILIGD
KRRVCEDNGRWNLPDYGYTECLRNQEYSQRALFLTWGIIVAIIVPLALLICLLWFWCYFK
PKSEGKDTFRFEDIPRSKSASRLNLRSTSMGNITDTMRSSTMHSQDTDKPKLPDTPTEIT
PMTANVTRTAPLPPETLDGESSGIGYTDSNKSDRSDKSKKRRAYDKTYRTNEPLPNAPEV
EFPEKQWDLSEEDLLSLTTPSETESNRDSTLTRPAKDIKYLSRPRQTGRHALQTDSGYST
KDGSEDPYSPKYDGQYSPIPSAYSPTYSEIYSPPISPTSDNSPRNTYNNPGLPEPPKSAP
ATEIKTFTMPPKRGKSIETLIDPPTAEMPSFSRSTMV