| New model in OGS2.0 | DPOGS215109 |
|---|---|
| Genomic Position | scaffold718:- 26323-39567 |
| See gene structure | |
| CDS Length | 2784 |
| Paired RNAseq reads | 80 |
| Single RNAseq reads | 248 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA009597 (0.0) |
| Best Drosophila hit | CG11155, isoform A (0.0) |
| Best Human hit | glutamate receptor, ionotropic kainate 2 isoform 1 precursor (1e-174) |
| Best NR hit (blastp) | PREDICTED: similar to CG11155-PA [Nasonia vitripennis] (0.0) |
| Best NR hit (blastx) | PREDICTED: similar to CG11155-PA [Nasonia vitripennis] (0.0) |
| GeneOntology terms | GO:0015277 kainate selective glutamate receptor activity GO:0005234 extracellular-glutamate-gated ion channel activity GO:0016020 membrane GO:0030288 outer membrane-bounded periplasmic space GO:0004970 ionotropic glutamate receptor activity GO:0006811 ion transport |
| InterPro families | IPR001320 Ionotropic glutamate receptor IPR001828 Extracellular ligand-binding receptor IPR019594 Glutamate receptor, L-glutamate/glycine-binding IPR001508 NMDA receptor |
| Orthology group | MCL10030 |
Nucleotide sequence:
ATGTGGAAAGAGTGGCGCTGGCTCGTACTGATCCTCAACGCTGTGGCTGCATTGTCACCT
GTGATTAAAATAGGAGCAATTTTCACTGAAGAAGCCCGCGGTGGCAGCGCCGAGTTGGCT
TTCAAGTACGCCGTGTACAGGATAAATAAAGAGAGAAATTTACTACCAGAAAGCACCCTA
GTATACGACATACAGTACACTACAACAAGGGACTCCTTCAGGACTTACAAGAAAGCCTGC
ACTCAAATAAAATCAGGTGCTATAGCCATCTTCAGCAGTGCTGGGCCACTGCTCGGTTCT
ACTCTGTCAGCTATGTGTCGCACCCTGCACGCACCACACTTGACAGTGGCACCCCACGTA
GTTGAGAGTCCAGGTTTGTGTTGTGATTACACGATCAATCTGTATCCATCTAGGGACCTT
TTGGACACTGCGTTCGTTGACCTCACCGCTTTCCTCAACTGGACGAGGATGGGTATTATA
TATGAGGATTACGGGAACGGCGAACTAAACATAGTTCGGCTGGCGAGAGATGGTCGCGAT
ATGTACGCCGTGAGATGTGAGTCACGTGACTATAGACGAGCCCTCGCGCAACTGAAGGCC
CAAGATATAAAGCATATTATCGTCGACACTGACCCGAAGCATTTGAGGCTGCTTTCAAGG
GCTATCTTGCAGTTGCAAATGAACAATGAAAACTATCACTACATATTCACGACGTTCGAC
ATGGAGTTGTTTGACCTGGAAGACTTCCTCTATAATCGCGTCAATATGAGCGGCTGGCGT
TTGGTAGATCGGGACTCCGATAAAGTCAAGGATGTGCTCACAGTTATGGAGAAGTTCCAT
CCCATTGGAGCTTCAATACTCAGCGGTGGCCATATTAAGACGGAACCGGCGCTTATCTAC
GACGCAGTTCAAGTCCTGGCCCTAGCGCTCGCCTCGACCCGCGACGTGAGCGCCACTAAT
GCATCCTGCGACACTGAAACAACCGTCGCATACGGCAGTGTACTGTTGGAAAACATCAAT
AAGGTACAAGCACACGGTCTGACGGGTCCGATCGCTTTTACCAACGGCAACCGTAAAACG
TTCAACCTCCAGCTGATGAGACTGTCAGCGGAGCGTAGGGCTGCAGTCCTAGCAGGGCAC
TGGACCAAGGACGGGGGACTGGAGGTCACTGATCCAGCCGCTTATAGGAGAGACCCACCA
CCGAATGTCACGCTAACTGTGGTCACTGTCGAGGAGAAACCCTACGTTATGGTGAAGGAA
GGATGGAATCTTCAAGGTAACGCTCGCTTCGAGGGTTTCTGCATAGACCTTTTGGCGCGG
GTAGCAGCACGAGCTGGGTTCAGCTATAGACTGCGGCTTGTTCCTGGTAACGTGTACGGA
GCGAGGGATCCCGCTACTGGACAATGGAATGGAATCGTGAGAGAGCTTGTGGATCGGAAA
GCTGATATCGCGGTAGCCTCGATGACCATAAACTACGCGCGAGAAGCGGTCATAGACTTC
ACTAAACCGTTCATGAATTTAGGAATTGGAATACTCTTCAAGGTACCTTCATCTCAACCG
ACTCGTCTCTTCAGTTTCTTGAACCCCTTGGCAGTTGAGATATGGCTTTACGTCCTCGCT
GCTTACATTCTCGTCAGCTTCACACTGTTCGTGATGGCCAGGTTCTCACCTTATGAATGG
TCTTCCAGCACTCATATCTGCGGTCACGAGACCAAACTCTTGACCAATCAGTTTAGTGTT
TGCAACTCCTTCTGGTTCATCACCGGCACCTTCCTAAGACAGGGATCCGGTTTAAATCCC
AAGGCAACATCGACACGAATAGTTGGCGGCATCTGGTGGTTTTTTACACTGATTATCCTC
TCCTCGTATACTGCTAACCTGGCCGCCTTCCTGACGGTGGAGCGCACGGTGCTGCCAATC
CAGAGTGCTGCAGATCTTGCAGCACAGAACAGCGTGCAGTACGGAACATTGAGTGGAGGA
TCCACTATGACTTTCTTCAGGGACTCCAACATTGATATTTATCAGCGTATGTGGGATCAT
ATGTCTCGTGCGTCGCCACCAGCGTTAGTGGCTTCGTATGAGGAGGGCGTGCGTCGTGTG
CTGGCGGGGAACTATGCTTTCCTTATGGAGTCCACGATGTTGGATCACCGCGTACAGAGG
GACTGCAACCTCACTCAGGTCGGCGGGCTCCTAGACTCTAAGGGCTACGGAATAGCCACT
TGGAAAGGAAGCCCTTGGAGGGATAAAATTTCGCTCGCAATATTAGAGTTACAAGAAAAG
GGGGTTATTCAGATATTATACGATAAATGGTGGAAGAACACCGGCGATGTATGCAATCGG
GATGGCAAGGACAGCAAGGCGAATCCGTTAGGAGTACAAAATATTGGTGGTGTTTTCGTA
ACGTTACTGTGCGGACTCGTGCTGGCGATAGTTGTCGCTATATTGGAATTCTGTTGGAAC
ACAAAGAAAAACGCATCTCAGGGAAGACAGTCGCTCTGCAGTGAGATGGGTCAGTACGGT
GGAGTTGAAGGAGCTGAGATGGTCATAGCGCTCAGCGCGGCGCGGCGCCTCCGCCCCCGC
TTCCCCTGCGCCCGCGTCCGCTCTCCGTCGTCCTCCAGGTTCCTACAGCACACTGAAGCG
AACAACTTCGTACGTTCTGAAAGAGCCACGGGAGAAAAAACATGTTCAGATCATAGCTTA
GATAATAATGTATGCAGAAAGAAATATAATTGCTTTAAGGAAACCTTATATATGAGATTT
ACGACAAATATTTCGACAGGATGA
Protein sequence:
MWKEWRWLVLILNAVAALSPVIKIGAIFTEEARGGSAELAFKYAVYRINKERNLLPESTL
VYDIQYTTTRDSFRTYKKACTQIKSGAIAIFSSAGPLLGSTLSAMCRTLHAPHLTVAPHV
VESPGLCCDYTINLYPSRDLLDTAFVDLTAFLNWTRMGIIYEDYGNGELNIVRLARDGRD
MYAVRCESRDYRRALAQLKAQDIKHIIVDTDPKHLRLLSRAILQLQMNNENYHYIFTTFD
MELFDLEDFLYNRVNMSGWRLVDRDSDKVKDVLTVMEKFHPIGASILSGGHIKTEPALIY
DAVQVLALALASTRDVSATNASCDTETTVAYGSVLLENINKVQAHGLTGPIAFTNGNRKT
FNLQLMRLSAERRAAVLAGHWTKDGGLEVTDPAAYRRDPPPNVTLTVVTVEEKPYVMVKE
GWNLQGNARFEGFCIDLLARVAARAGFSYRLRLVPGNVYGARDPATGQWNGIVRELVDRK
ADIAVASMTINYAREAVIDFTKPFMNLGIGILFKVPSSQPTRLFSFLNPLAVEIWLYVLA
AYILVSFTLFVMARFSPYEWSSSTHICGHETKLLTNQFSVCNSFWFITGTFLRQGSGLNP
KATSTRIVGGIWWFFTLIILSSYTANLAAFLTVERTVLPIQSAADLAAQNSVQYGTLSGG
STMTFFRDSNIDIYQRMWDHMSRASPPALVASYEEGVRRVLAGNYAFLMESTMLDHRVQR
DCNLTQVGGLLDSKGYGIATWKGSPWRDKISLAILELQEKGVIQILYDKWWKNTGDVCNR
DGKDSKANPLGVQNIGGVFVTLLCGLVLAIVVAILEFCWNTKKNASQGRQSLCSEMGQYG
GVEGAEMVIALSAARRLRPRFPCARVRSPSSSRFLQHTEANNFVRSERATGEKTCSDHSL
DNNVCRKKYNCFKETLYMRFTTNISTG