| New model in OGS2.0 | DPOGS214312 |
|---|---|
| Genomic Position | scaffold829:- 28721-60286 |
| See gene structure | |
| CDS Length | 5976 |
| Paired RNAseq reads | 232 |
| Single RNAseq reads | 578 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA004118 (1e-08) |
| Best Drosophila hit | Na channel protein 60E (0.0) |
| Best Human hit | sodium channel protein type 2 subunit alpha isoform 1 (0.0) |
| Best NR hit (blastp) | PREDICTED: similar to putative BSC1 sodium channel protein [Tribolium castaneum] (0.0) |
| Best NR hit (blastx) | PREDICTED: similar to Na channel protein 60E CG9071-PB, isoform B [Apis mellifera] (0.0) |
| GeneOntology terms | GO:0042048 olfactory behavior GO:0042221 response to chemical stimulus GO:0005248 voltage-gated sodium channel activity GO:0006814 sodium ion transport GO:0005886 plasma membrane GO:0001518 voltage-gated sodium channel complex GO:0055085 transmembrane transport |
| InterPro families | IPR001696 Voltage gated sodium channel, alpha subunit IPR000048 IQ motif, EF-hand binding site IPR005821 Ion transport |
| Orthology group | MCL10091 |
Nucleotide sequence:
ATGGCCACCATACTGCTCAACTGTGTCTTCCTCGCCATGTCGGAGACTATCGAAGAAGCT
GAATACATATTTCTGGCGATATACACTGCGGAGATGATAATAAAATGCATAGCGAAAGGT
TTTATACTTAATAAGTATACTTATCTACGGAACCCATGGAACTGGCTCGACTTCGTGGTA
ATAACGTCTGGTTACGCCACCATCGGCATGGAGGTTGGCAACCTTGCTGGCTTGCGGACG
TTCAGAGTGCTAAGGGCTTTGAAAACTGTTTCCATTATGCCCGGTCTGAAAACTATTATC
AACGCGTTGCTACATTCCTTTAAACAGCTGGCGGAAGTAATGACCTTGACAATCTTCTGT
CTCATGGTGTTTGCACTATTTGCTCTTCAAGTATACATGGGGGAGTTGAGGAATAAGTGT
GTACAGAACTTGGTTATACCACCCGGCGAGAACTTCACTGACGAGCTGTGGTCACAATGG
ATAAGCGAACCCTCACACTGGATGGTGGATGATGATGAGGTGCCTATTATCTGTGGCAAT
CTGACCGGCGCTAGGCACTGCCCGTCTGAATACACATGCCTCTGTGTAGGACCCAATCCA
AACCACGGTTATACCAACTTCGACAATTTTCTATGGTCCATGCTCACTACGTTTCAACTC
ATCACCCTGGACTATTGGGAGAACGTGTACAATATGGTTCTATCGTCGTGTGGACCGATG
TCGGTGTCATTTTTCACTGTTGTGGTCTTCTTCGGCTCCTTCTACCTCATCAACCTGATG
CTGGCTGTGGTGGCGCTGAGCTACGAAGAAGAATCGCAGATAACACAAGAGGAAAGAAAA
AAGGATCTAAACGAACATCGCGACGATTCCACGTTCAGCTTTGATCCGACGTCTCTAGCT
GTTCGGACCCTCGCCAAGGATTCTAAGAAACGTATTGATGCAAGGAAAGGCCTGCTTTTA
GCATCGTACTCACGGAAGAGGACGAGGCGACGCAAACGAGGGAAAAGCACGATACACCAC
ACGAACACTGTCAGTGTTAGTGAAAGATCCCGGTCACGGTCACGGTCTCGCTCAGTTACG
CCAAGCGGCACGCCTCCACCGCTGCCTGCGCCAGCGGCACCACCACCACCATCACATACC
TTACATCCAGATAATGCTTTGGGTAGGGGAGCCCTAAGCATGGCGGGTCGTCAATTAAGC
GACCACAGTAACAACAGAGAGTCGTCGCTCGATGACTCCGGAGTCGTGGATGACCACGAC
GAGGGTGAGCACACCTCCGATGACCAAGCACCACAACATCGACGACACCTACTTCCCCAC
CCTACCACTTTACCGCTAAAACAAGAAAATAAGAAACTGGAATCAAAACTAAAGAATGGT
TCAAAAACAGAAATACAAGTGGAACCCGCAAAAAAGAACGAAAAAAGCACCATACATGAG
AGATATCCTTTGAACCCGGACTACCTCAACCAGATCGTAGTTCTAGGGGCGGACTGGCCA
TACAAGCGAACGCCCGACCTCCCCCAAGCGGAGACGACGAAAATTAATGAGCTCAGTTTA
TTGGCAGCCACGCACAAATCTCATATGGGCAATTATGAACCAAATTGCACTTACTTCACA
GATGAGCTAGTGGATAGAAATTGCGAGTGCTGCGTAACATGTTGTATAGACTATGAGGGC
TGGCTGCAATTTCAGAACTGTTTGTATGGAATAGTCAAAGATCCATTATTTGAACTATTC
ATAACTACTTGTATAGTGCTTAATACACTTTTCCTGGCCCTTGAGCATCATGGGATGAGT
GAAAATGTGAGACAAGCCTTAGATATAGGAAATAAGGTCTTCACGTCAATTTTTACATTA
GAATGTATTATGAAAGTTATGGCAATGAGTAAAGACTTCTTCGCCTGTGGTTGGAACATA
TTCGATTTAATCATCGTTTCTGCTAGTCTCTTGGATCTTATATTCGAACTTGTAGATGGC
CTATCTGTGTTAAGAGGCCTTCGTTTGTTACGTGTGTTAAAGTTAGCTCAATCATGGACT
ACTATGAAAGTTTTGTTAAGTATTATAATATCGACAATAGGTGCTCTTGGTAACTTAACG
TTCGTGTTAGTTATAGTTATATATATATTTGCTGTTATCGGTATGCAGTTATTCTCGAAA
TCCTACACACCAGAGAAGTTCGATCCTGATCCCGTGCCAAGGTGGAACTTTAACGACTTC
TTCCACTCGTTCATGATGATATTTCGTATCCTTTGTGGAGAGTGGATAGAACCGCTATGG
GACTGTATGCGAGCAGAGCAAGCTAGTGGTGCGGAGAGTTGTTTCTTTATTTTCCTCCCC
GCGCTGGTGATGGGCAACTTCATGGTGCTCAACCTCTTCCTTGCCTTGTTGCTTAATAGT
TTTAATAGTGAAGAACTAAAGAATCGAAAAGAGGAAGTAGGAGAGGATTCAAAATTAGCT
AAGAGTTTCGATAGAATACGTTCAATAGTAAGAAAAAAAGGTTTTCTTATATCTAGAAGT
AAAGAGACTGAAAAAAAATCTAAATTAGAAGAGCTAGTAAATGAATTTATGATACAACAT
CGTGCTATGAAAGAGCAAAAAGAATCAATACCCAATGAACAAAGAATTTCTACAACTATG
CAGGAAACTATTTTATTTCCTCATGACAACGTTTATAGCCACAGTTACCAGGAAGCGTTA
AATAGGCCAATATCTGTTGGATCTGATTTTGCGTATCCACAACTATATCAAGCAGGCAAT
AATTGTAATCATGGCAGTCAAGAAACACTTAAAGATGTTCGAGATTTAGCAGCGGAGCAT
AAAATAACGAGCATAAGGGAAGACTCAAAGGAAAATTTGGATGATACCGTATCCACAGAT
CAAATAGCCGCTCAAAAACTACTTAATCAAATGTCATCCGGTTATCATACACAGCCCTCG
GATTCTAGAGATGAAAATGAACATTATGAAATGGCTCAAATATCAAGTAGAACCACTCCT
GAAAAAAGACGTCACGGACTGTTATATGGTCGGGACCCACCAAAAATACCTAGCGAAGAA
GATGTAAAACATCCATGGCAGACCCTAGTATCATATGTGGATGAATTAACTGTTGGAGGA
AGGAAAAATTCAAAGGGCCAGTATATTGATCCAATGGGAAAATTCCCTGGTTTCGGTAAG
CAGAAGGAACCTAAAGTGCCTCAGGATTGTTTTCCACGACAATGCTACAAGCAATGTCGT
TGTTGGGATGCATGTATTCGGACAAATTTGGGTCAAAAGTGGATGTTCATACGAACATTT
GTTCTTCGTTACGTAGACACGCCCGCCTTTGAGTGGTTTGTCCTTGTGCTAATTTTTGCA
TCCAGTATCACTCTATGTTTTGAAGATATTCACCTCGAAAAAAACATACCTCTTAAGAAA
ATTTTGTACTGGACAAATCTTAGTTTCTGTATGATTTTTGTCATCGAGATGTTCTTTAAA
TGGATAGCACTGGGCTTTTACAGATACTTTACTAGTTTTTGGACATTATTGGACTTTACT
ATTGTTTTTGTGTCTGTGTTTAGTCTTCTTATAGAGGAAAACGAAAATTTAAAGGTTCTA
CGATCTCTAAGAACTCTACGTGCTTTGAGACCTTTGCGAGCTATTTCAAGATGGCAAGGC
ATGAGAATTGTTGTCAATGCACTTATGTATGCAATACCCAGTATTTTTAATGTGTTATTA
GTTTGTTTAGTATTTTGGTTGATTTTTTCAATTATGGGAGTGCAGTTTTTTGGTGGAAAA
TTTTTTAAATGTGTAGATGATGAAGGCGAATTATTACCATTAGAGATAGTTAATGATAAA
TGGGAATGCTACTACAATAATTTTTCGTGGATAAACTCTAAAATATCTTTTGATCATGTG
GGAATAGCATATTTGGCCTTATTTCAAGTTGCAACATTTGAGGGCTGGATGGAAGTAATG
GCCGATGCTGTGGACGCAAGAGGTGTTGATCTTCAACCAGCGAGAGAAGCTAATCTTTAT
GCATACATATATTTTGTAATTTTTATTGTATGCGGTTCATTCTTTACATTAAATCTATTC
ATAGGAGTTATTATAGACAATTTTAATATGCTTAAGAAAAAGTACGAAGGCGGAGTATTA
GAAATGTTTCTTACGGAGAGCCAAAAGCACTATTATACAGCCATGAAGAAGTTGGGTAGA
AAGAAGCCTCAAAAAGTTATAAAGCGGCCAAGGAATCAGTTTTTAGCCATGTTTTATGAC
CTTTCTAATTCACGTCGATTCGAAATAGCTATATTTGTTCTGATATTCTTAAATATGCTC
ACGATGGGTATAGAGCATTATGACCAACCGCATTCAGTTTTCTTTGTACTAGAAGTCAGT
AACGCATTTTTTACAACAGTTTTTGGCTTAGAGGCTATAGTTAAAATAATAGGACTCCGA
TATCATTACTTCACGGTACCGTGGAATGTTTTCGATTTTTTGTTAGTTTTAGCATCCATC
TTAGGTATTCTTATGGAAGATATAATGATAGATTTACCAATATCTCCCACCCTACTCCGA
GTGGTTCGAGTCTTTCGGATAGGGAGAATTTTAAGACTGATTAAAGCCGCTAAAGGCATA
AGAAAACTGTTGTTTGCTTTAGTGGTGTCGCTACCAGCACTATTCAATATCGGTGCCTTG
TTAGCTCTCATTACGTTCATCTACGCAATAATCGGTATGTCCGTGTTCGGACACGTCAAG
GAACAGGGAGCTTTGGATGATATTGTCAACTTTCAGACCTTTGGTAGAAGTATGCAGCTT
CTTTTTCGTCTAATGACATCAGCTGGTTGGAACGACGTTCTAGAGTCTTTGATGATTCAA
CCTCCTGATTGCGAGCTGGGAGACCATGGCCACTCGAATGGAAATTGTGGGAGTCCGTTG
CTAGCTATAACGTACTTTACTTCCTTCATCATTATTAGTTATATGATTGTTATAAACATG
TACATAGCCATCATCCTAGAAAACTTCAATCAAGCTCATCAAGAAGAAGAAATTGGTATA
GTTGAGGACGATTTAGAAATGTTTTATATCAGATGGTCTAAATACGACCCGCACGCTACG
CAATTTATAAGTTTCGCTCAATTATCGGATTTCATTGCTTCTTTAGATCCTCCGTTAGGA
ATACCTAAGCCAAATACAGTAGCCCTCGTAAGCTTCAACCTACCAATTGCCAGAGGTAAC
AAAATTCACTGCTTAGACATATTACATGCACTGGTAAAACATGTTTTGGGTCATGTGGAA
GAAACAGATACGTTTAGGCAATTACAAGAACAAATGGATATTAAGTTTAAAAAACAGTTC
CCTACAAGAAAGGAATTGGAAATTGTTTCCTCTACAAGAATTTGGAAGAGGGAGGATAAA
GCGGCAAGGACAATACAGCGATCGTTTAGGGAATACATAAAGCGAAAGAACCGCAGTCCT
TCACAAGAAGAAGAAAGCACAAAGTGGTCGCCAGGCCACGGATGGGGTGGTAAGCTTAGT
GCACTGTTGCATGTTCGGAGGGGATCTCACGCTTCGAGCAGGAAGTCTTCTAGAGCTTCT
GATGCTTCTGATTTGAGCGATGTCGGTGGTGCCTGGCTCAACTTACCCCTTCTTTTACTA
CCGGGGGCTGGTCCCAGTGATATGGTTCCCAGTTCTGAAACAGCTCCTCCGCGCAGACGG
TCTGCCTATGGTTTGCCACTTTTTCTTCGTCACCAAGATGCCGTTGATGAAGACAGCGGC
ATGAAACGCGCAGGTTCACTTCGTTTAACTCCTCGGAGGAGTTCAGCTCGGAGGCCCACT
CCACCCGCCCGAGCGAGTACTCCGTCGCCTCACGCTAGCAGCGCTGTCAGCATCCTAGTT
ACTGAGGCTTCCCCTGACGCAGCCCCTCCACCGGCAGCGCCTCCGACTGTCGTCAGAGTC
CTCGTCCATAGGGAGAGTGATGAACAGCCCAGCTGA
Protein sequence:
MATILLNCVFLAMSETIEEAEYIFLAIYTAEMIIKCIAKGFILNKYTYLRNPWNWLDFVV
ITSGYATIGMEVGNLAGLRTFRVLRALKTVSIMPGLKTIINALLHSFKQLAEVMTLTIFC
LMVFALFALQVYMGELRNKCVQNLVIPPGENFTDELWSQWISEPSHWMVDDDEVPIICGN
LTGARHCPSEYTCLCVGPNPNHGYTNFDNFLWSMLTTFQLITLDYWENVYNMVLSSCGPM
SVSFFTVVVFFGSFYLINLMLAVVALSYEEESQITQEERKKDLNEHRDDSTFSFDPTSLA
VRTLAKDSKKRIDARKGLLLASYSRKRTRRRKRGKSTIHHTNTVSVSERSRSRSRSRSVT
PSGTPPPLPAPAAPPPPSHTLHPDNALGRGALSMAGRQLSDHSNNRESSLDDSGVVDDHD
EGEHTSDDQAPQHRRHLLPHPTTLPLKQENKKLESKLKNGSKTEIQVEPAKKNEKSTIHE
RYPLNPDYLNQIVVLGADWPYKRTPDLPQAETTKINELSLLAATHKSHMGNYEPNCTYFT
DELVDRNCECCVTCCIDYEGWLQFQNCLYGIVKDPLFELFITTCIVLNTLFLALEHHGMS
ENVRQALDIGNKVFTSIFTLECIMKVMAMSKDFFACGWNIFDLIIVSASLLDLIFELVDG
LSVLRGLRLLRVLKLAQSWTTMKVLLSIIISTIGALGNLTFVLVIVIYIFAVIGMQLFSK
SYTPEKFDPDPVPRWNFNDFFHSFMMIFRILCGEWIEPLWDCMRAEQASGAESCFFIFLP
ALVMGNFMVLNLFLALLLNSFNSEELKNRKEEVGEDSKLAKSFDRIRSIVRKKGFLISRS
KETEKKSKLEELVNEFMIQHRAMKEQKESIPNEQRISTTMQETILFPHDNVYSHSYQEAL
NRPISVGSDFAYPQLYQAGNNCNHGSQETLKDVRDLAAEHKITSIREDSKENLDDTVSTD
QIAAQKLLNQMSSGYHTQPSDSRDENEHYEMAQISSRTTPEKRRHGLLYGRDPPKIPSEE
DVKHPWQTLVSYVDELTVGGRKNSKGQYIDPMGKFPGFGKQKEPKVPQDCFPRQCYKQCR
CWDACIRTNLGQKWMFIRTFVLRYVDTPAFEWFVLVLIFASSITLCFEDIHLEKNIPLKK
ILYWTNLSFCMIFVIEMFFKWIALGFYRYFTSFWTLLDFTIVFVSVFSLLIEENENLKVL
RSLRTLRALRPLRAISRWQGMRIVVNALMYAIPSIFNVLLVCLVFWLIFSIMGVQFFGGK
FFKCVDDEGELLPLEIVNDKWECYYNNFSWINSKISFDHVGIAYLALFQVATFEGWMEVM
ADAVDARGVDLQPAREANLYAYIYFVIFIVCGSFFTLNLFIGVIIDNFNMLKKKYEGGVL
EMFLTESQKHYYTAMKKLGRKKPQKVIKRPRNQFLAMFYDLSNSRRFEIAIFVLIFLNML
TMGIEHYDQPHSVFFVLEVSNAFFTTVFGLEAIVKIIGLRYHYFTVPWNVFDFLLVLASI
LGILMEDIMIDLPISPTLLRVVRVFRIGRILRLIKAAKGIRKLLFALVVSLPALFNIGAL
LALITFIYAIIGMSVFGHVKEQGALDDIVNFQTFGRSMQLLFRLMTSAGWNDVLESLMIQ
PPDCELGDHGHSNGNCGSPLLAITYFTSFIIISYMIVINMYIAIILENFNQAHQEEEIGI
VEDDLEMFYIRWSKYDPHATQFISFAQLSDFIASLDPPLGIPKPNTVALVSFNLPIARGN
KIHCLDILHALVKHVLGHVEETDTFRQLQEQMDIKFKKQFPTRKELEIVSSTRIWKREDK
AARTIQRSFREYIKRKNRSPSQEEESTKWSPGHGWGGKLSALLHVRRGSHASSRKSSRAS
DASDLSDVGGAWLNLPLLLLPGAGPSDMVPSSETAPPRRRSAYGLPLFLRHQDAVDEDSG
MKRAGSLRLTPRRSSARRPTPPARASTPSPHASSAVSILVTEASPDAAPPPAAPPTVVRV
LVHRESDEQPS