| New model in OGS2.0 | DPOGS215108 |
|---|---|
| Genomic Position | scaffold2176:- 3738-15991 |
| See gene structure | |
| CDS Length | 3318 |
| Paired RNAseq reads | 125 |
| Single RNAseq reads | 301 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA009567 (0.0) |
| Best Drosophila hit | ionotropic receptor 8a (0.0) |
| Best Human hit | glutamate receptor, ionotropic kainate 3 precursor (2e-48) |
| Best NR hit (blastp) | PREDICTED: similar to CG32704-PA [Apis mellifera] (0.0) |
| Best NR hit (blastx) | PREDICTED: similar to CG32704-PA [Apis mellifera] (0.0) |
| GeneOntology terms | GO:0015277 kainate selective glutamate receptor activity GO:0016020 membrane GO:0005234 extracellular-glutamate-gated ion channel activity GO:0006811 ion transport |
| InterPro families | IPR001508 NMDA receptor IPR001320 Ionotropic glutamate receptor IPR001638 Extracellular solute-binding protein, family 3 IPR019594 Glutamate receptor, L-glutamate/glycine-binding |
| Orthology group | MCL16286 |
Nucleotide sequence:
ATGGCGCTCAAAATGTTACAAAACGCCCAAAAAGTGACGAGGAATCACAGCGTTAGATTC
TCCAACGATGAAATGCCGAAATTCAAGTCGCTTGATTCGCCAGAGATGAACAATGGCTTC
ACCCAGAGTATAGACTCCGGGGCGCCCAGCCCTGACTGTGGGTATCAGCCAGCGGCTCAG
AGGTATCGACTAAACGAACAACGCATAAAGCTGCTAACAGCTATCAACGTGGTGGTGCAG
CAGCGAGCTGAGTTGGAAGCGAATAGGAGCACTCTCTCCAATATGCTGGACGAGATGAGA
AGGAAATTGAAGAGAAGAGTGGAGGAATGTCATCTAGAGAAGAAAGAGAAGATGAAGGCG
CTGAAACAAGCCAATCAGCGTCTAGAGCGCGAGAAGTTCAGCATCGTATCAGAGCTGGAA
CACCTCCAGAGGCACCTGGAAAAGGAACAAGCCCACCACGTGCAGCACGCGAGGAATGCC
ACCGCACAGCGTAAACGGCAGGCTGAGGTCGACATTGTGCGATTGAGGAAGGAGCTCTCT
TCCACCAAGAGCTGCATGGCGTCGCTGAGACTCCCAGGAAGGAAGACCTGTTCCAAATTC
ATAGAGGGGACAAACGAGCTGACGCAATGCCTAATGGAGGTAATTACCCTTGCCCATGGA
CAGTCGCAATATAATTTTGCGGATGCGCTGTCACCCTTGATTGGGGAAGCGGTTGAGGCA
AGGGTGGGAAAAGTATTCATAACGGAAGTCCACGAGCCGGAACTGGCGCAGGAAATATCA
CGAGCAGTGAAAATGACTGAAGATAACGAACAAGACCTTTTAATAAGTGACGAAGTGATA
CAACTAGACAGAGAAAATGCTGATGAAAGTTACAATAAATTATGCGCTTTCGTGTCTAAA
GGTGTGTCTGCGATAATTGACCTCTCTTGGTCGCCATGGGAAATGGCCGAACAGCTATCG
GAGACTGCTGGAGTACCAATAATCCATAGTTTATTAGGAGCACAGCAACTCGTCTCAGCT
TTCGATAGCTATTTGGATTCCAGGAACGCAACCGATGCAGCGTACCTCGTTGAGAGCGAA
AGCGATGTAGATAGAATCCTATACGAACTGCTGGGCAGATCTCACGTCAGAGTGTGGGTG
CACGCGGGACTAACAAGAGAATCAGCCAAAGCCTTGAGAAACATGCGTCCGGAACCAAAT
TTTTACGTTATTGTTGGAGACGAGGAGTTCGTAGTGACGACCTATAAGAGAGCAGTTAAA
GAAAAATTGGTTAAACGTAAATATCGTTGGAATATTCTACTTACTGACTATAAGACGGTC
GATCCGTCTATGTTAGTGTTGCCAACTTTCATCCTGCAGTCGGATTTCGGGGAGTGCTGC
AAGTTGGCAGGCTTGAAGGAGGATTGTATATGTCCCTCTAATATGCAGCGACAGCAATTT
CTTCTGAAAAATATTATTCAATATACAAGTGAAGCTTTCTTAAAACTAGGTTCGAATCAT
GTTGTTAATATAGATTGCGAGAACCCACAGAATGAAATGAATGTTACCAGGGACAAGTTG
TATCAAATCTTCGAAGAAGATAACGCTAAAAATGACTCATTGTTATTTTGGGACGAAGAA
AGGTCTGGGCTGTTTTTGCGCTCCAATTTCATATTATCCACGTATAAACCTGAGTCTGGT
ATGGAGAGAGTCGCGTCTTGGTTGGCAAATGAGAAATATGAGCTGTTACCGGGAGTAGAG
CTTGAACCTTTGAGAAATTTCTTCCGTGTCGGCACATCTCCTGCCATACCGTGGACCTTG
GTAAAATATTCTGAGACTGGAGAGCCAATGTTGACAGAGGATGGTCAGCCCGTGTATGAA
GGATACTGTATCGAGCTCATCAACAAAATAGCTGAGGAATTAGGATTTGACTACGAAATT
GTGACACCGAAAATTGGTACATTCGGAAGGAGGCTTCCAAACGGCTCATGGGATGGAATT
ATAGGGGATTTGATGACAGGTGAAACAGATATAGCCGTCGCTGCTTTGACCATGACAGCC
GAGAGAGAGGAAGTTGTCGATTTTGTGGCACCCTATTTTGAACAAACTGGAATACTTATA
GTTATTCGTAAACCGATACGTAAGACGTCCCTCTTCAAGTTCATGACGGTTCTTCGTACA
GAGGTGTGGCTCAGCATCGTGGCTGCTCTTCTGCTGACCGGTTTTATGATCTGGTTGCTG
GAGAAGTACTCGCCTTATTCCGCTAGGAACAATCCCGGAGCTTATCCCTATCCCACTCGA
GAGTTTACTCTGAAGGAGAGCTTCTGGTTTGCACTGACGTCATTCACGCCTCAAGGAGGC
GGAGAAGCCCCCAAGGCACTATCTGGACGTACTCTCGTGGCTGCCTATTGGCTATTTGTA
GTACTCATGCTTGCTACTTTCACTGCTAACTTGGCAGCTTTTCTTACCGTTGAGAGGATG
CAGACACCAGTGTCCTCGCTGGAGCAACTTGCGAGACAATCCCGCATTAATTATACAGTG
GTAGAGGGATCCACCGTGCATCAGTACTTCATAAACATGAAGTTTGCAGAGGACACGCTT
TACAGAGTGTGGAAGGAAATAACTTTAAACGCAACATCCGACCAGTCGCAGTACAGAGTG
TGGGATTATCCAATACGAGAACAGTATGGACACATTTTGCTGGCTATAAATGCATCAGGT
CCTGTGCCCGACGCTAAGGCGGGGTTTCAGCAAGTCGACGAACACACTGAGGCGGATTTC
GCTTTCATTCATGATTCAGCTGAGATTAGATACGAAATAACTCGCAACTGCAACCTGACG
GAGGTGGGTGAGGTGTTCGCTGAGCAACCTTACGCCCTGGCAGTAGCATCAGGATCCAGG
TTACAAGAGGAGCTGTCCCGAGCTCTTCTAGACCTACAGAAGGAGCGGTTCCTTGAGCAG
CTGTCTGCTAAATATTGGAATGAATCTGCGAGGCAGGCTTGTCCTGATTCTGACGAGTCA
GAAGGCATCACTTTGGAGAGTCTAGGTGGAGTTTTCATAGCCACGTTATTCGGCTTGGGT
CTGGCGATGTTGACGCTAGCTTGGGAGGTGTTTTATTACAAGCGTAAAGAGAAAAACAAA
ACAAAGGAAACAACAGTAAAGACGATAGAAGCTTTTCAGCCAAAGAAGACGAAATTGCCA
AAGAAAATGGCGGAAAGAGTTGCCAAGTTGAGGAACAGAAAGAAATCAGCCGTCAAGCCC
GTCACAATCGGCGATACTTTCAAACCAGCTGACGGTGGAGTGTCTTTTATAAATGTGTAT
CCAAAATATAATCCGTAG
Protein sequence:
MALKMLQNAQKVTRNHSVRFSNDEMPKFKSLDSPEMNNGFTQSIDSGAPSPDCGYQPAAQ
RYRLNEQRIKLLTAINVVVQQRAELEANRSTLSNMLDEMRRKLKRRVEECHLEKKEKMKA
LKQANQRLEREKFSIVSELEHLQRHLEKEQAHHVQHARNATAQRKRQAEVDIVRLRKELS
STKSCMASLRLPGRKTCSKFIEGTNELTQCLMEVITLAHGQSQYNFADALSPLIGEAVEA
RVGKVFITEVHEPELAQEISRAVKMTEDNEQDLLISDEVIQLDRENADESYNKLCAFVSK
GVSAIIDLSWSPWEMAEQLSETAGVPIIHSLLGAQQLVSAFDSYLDSRNATDAAYLVESE
SDVDRILYELLGRSHVRVWVHAGLTRESAKALRNMRPEPNFYVIVGDEEFVVTTYKRAVK
EKLVKRKYRWNILLTDYKTVDPSMLVLPTFILQSDFGECCKLAGLKEDCICPSNMQRQQF
LLKNIIQYTSEAFLKLGSNHVVNIDCENPQNEMNVTRDKLYQIFEEDNAKNDSLLFWDEE
RSGLFLRSNFILSTYKPESGMERVASWLANEKYELLPGVELEPLRNFFRVGTSPAIPWTL
VKYSETGEPMLTEDGQPVYEGYCIELINKIAEELGFDYEIVTPKIGTFGRRLPNGSWDGI
IGDLMTGETDIAVAALTMTAEREEVVDFVAPYFEQTGILIVIRKPIRKTSLFKFMTVLRT
EVWLSIVAALLLTGFMIWLLEKYSPYSARNNPGAYPYPTREFTLKESFWFALTSFTPQGG
GEAPKALSGRTLVAAYWLFVVLMLATFTANLAAFLTVERMQTPVSSLEQLARQSRINYTV
VEGSTVHQYFINMKFAEDTLYRVWKEITLNATSDQSQYRVWDYPIREQYGHILLAINASG
PVPDAKAGFQQVDEHTEADFAFIHDSAEIRYEITRNCNLTEVGEVFAEQPYALAVASGSR
LQEELSRALLDLQKERFLEQLSAKYWNESARQACPDSDESEGITLESLGGVFIATLFGLG
LAMLTLAWEVFYYKRKEKNKTKETTVKTIEAFQPKKTKLPKKMAERVAKLRNRKKSAVKP
VTIGDTFKPADGGVSFINVYPKYNP