Genome polyprotein
Details
- Name
- Genome polyprotein
- Kind
- protein
- Synonyms
- 3.4.21.91
- NS1
- Gene Name
- Not Available
- UniProtKB Entry
- P27915Swiss-Prot
- Organism
- DENV-3
- NCBI Taxonomy ID
- 408870
- Amino acid sequence
>lcl|BSEQ0011983|Genome polyprotein MNNQRKKTGKPSINMLKRVRNRVSTGSQLAKRFSRGLLNGQGPMKLVMAFIAFLRFLAIP PTAGVLARWGTFKKSGAIKVLKGFKKEISNMLSIINKRKKTSLCLMMMLPATLAFHLTSR DGEPRMIVGKNERGKSLLFKTASGINMCTLIAMDLGEMCDDTVTYKCPHITEVEPEDIDC WCNLTSTWVTYGTCNQAGEHRRDKRSVALAPHVGMGLDTRTQTWMSAEGAWRQVEKVETW ALRHPGFTILALFLAHYIGTSLTQKVVIFILLMLVTPSMTMRCVGVGNRDFVEGLSGATW VDVVLEHGGCVTTMAKNKPTLDIELQKTEATQLATLRKLCIEGKITNITTDSRCPTQGEA ILPEEQDQNYVCKHTYVDRGWGNGCGLFGKGSLVTCAKFQCLESIEGKVVQHENLKYTVI ITVHTGDQHQVGNETQGVTAEITSQASTAEAILPEYGTLGLECSPRTGLDFNEMILLTMK NKAWMVHRQWFFDLPLPWTSGATTKTPTWNRKELLVTFKNAHAKKQEVVVLGSQEGAMHT ALTGATEIQTSGGTSIFAGHLKCRLKMDKLKLKGMSYAMCLNTFVLKKEVSETQHGTILI KVEYKGEDAPCKIPFSTEDGQGKAHNGRLITANPVVTKKEEPVNIEAEPPFGESNIVIGI GDKALKINWYRKGSSIGKMFEATARGARRMAILGDTAWDFGSVGGVLNSLGKMVHQIFGS AYTALFSGVSWIMKIGIGVLLTWIGLNSKNTSMSFSCIAIGIITLYLGVVVQADMGCVIN WKGKELKCGSGIFVTNEVHTWTEQYKFQADSPKRVATAIAGAWENGVCGIRSTTRMENLL WKQIANELNYILWENDIKLTVVVGDITGVLEQGKRTLTPQPMELKYSWKTWGLAKIVTAE TQNSSFIIDGPSTPECPSASRAWNVWEVEDYGFGVFTTNIWLKLREVYTQLCDHRLMSAA VKDERAVHADMGYWIESQKNGSWKLEKASLIEVKTCTWPKSHTLWSNGVLESDMIIPKSL AGPISQHNHRPGYHTQTAGPWHLGKLELDFNYCEGTTVVISENCGTRGPSLRTTTVSGKL IHEWCCRSCTLPPLRYMGEDGCWYGMEIRPINEKEENMVKSLASAGSGKVDNFTMGVLCL AILFEEVMRGKFGKKHMIAGVLFTFVLLLSGQITWRGMAHTLIMIGSNASDRMGMGVTYL ALIATFKIQPFLALGFFLRKLTSRENLLLGVGLAMAATLRLPEDIEQMANGIALGLMALK LITQFETYQLWTALVSLTCSNTIFTLTVAWRTATLILAGISLLPVCQSSSMRKTDWLPMT VAAMGVPPLPLFIFSLKDTLKRRSWPLNEGVMAVGLVSILASSLLRNDVPMAGPLVAGGL LIACYVITGTSADLTVEKAADVTWEEEAEQTGVSHNLMITVDDDGTMRIKDDETENILTV LLKTALLIVSGIFPYSIPATMLVWHTWQKQTQRSGVLWDVPSPPETQKAELEEGVYRIKQ QGIFGKTQVGVGVQKEGVFHTMWHVTRGAVLTHNGKRLEPNWASVKKDLISYGGGWRLSA QWQKGEEVQVIAVEPGKNPKNFQTMPGIFQTTTGEIGAIALDFKPGTSGSPIINREGKVV GLYGNGVVTKNGGYVSGIAQTNAEPDGPTPELEEEMFKKRNLTIMDLHPGSGKTRKYLPA IVREAIKRRLRTLILAPTRVVAAEMEEAMKGLPIRYQTTATKSEHTGREIVDLMCHATFT MRLLSPVRVPNYNLIIMDEAHFTDPASIAARGYISTRVGMGEAAAIFMTATPPGTADAFP QSNAPIQDEERDIPERSWNSGNEWITDFVGKTVWFVPSIKAGNVIANCLRKNGKKVIQLS RKTFDTEYQKTKLNDWDFVVTTDISEMGANFIADRVIDPRRCLKPVILTDGPERVILAGP MPVTVASAAQRRGRVGRNPQKENDQYIFMGQPLNKDEDHAHWTEAKMLLDNINTPEGIIP ALFEPEREKSAAIDGEYRLKGESRKTFVELMRRGDLPVWLAHKVASEGIKYTDRKWCFDG ERNNQILEENMDVEIWTKEGEKKKLRPRWLDARTYSDPLALKEFKDFAAGRKSIALDLVT EIGRVPSHLAHRTRNALDNLVMLHTSEHGGRAYRHAVEELPETMETLLLLGLMILLTGGA MLFLISGKGIGKTSIGLICVIASSGMLWMADVPLQWIASAIVLEFFMMVLLIPEPEKQRT PQDNQLAYVVIGILTLAAIVAANEMGLLETTKRDLGMSKEPGVVSPTSYLDVDLHPASAW TLYAVATTVITPMLRHTIENSTANVSLAAIANQAVVLMGLDKGWPISKMDLGVPLLALGC YSQVNPLTLIAAVLLLVTHYAIIGPGLQAKATREAQKRTAAGIMKNPTVDGIMTIDLDPV IYDSKFEKQLGQVMLLVLCAVQLLLMRTSWALCEVLTLATGPITTLWEGSPGKFWNTTIA VSMANIFRGSYLAGAGLALSIMKSVGTGKRGTGSQGETLGEKWKKKLNQLSRKEFDLYKK SGITEVDRTEAKEGLKRGEITHHAVSRGSAKLQWFVERNMVIPEGRVIDLGCGRGGWSYY CAGLKKVTEVRGYTKGGPGHEEPVPMSTYGWNIVKLMSGKDVFYLPPEKCDTLLCDIGES SPSPTVEESRTIRVLKMVEPWLKNNQFCIKVLNPYMPTVIEHLERLQRKHGGMLVRNPLS RNSTHEMYWISNGTGNIVSSVNMVSRLLLNRFTMTHRRPTIEKDVDLGAGTRHVNAEPET PNMDVIGERIKRIKEEHSSTWHYDDENPYKTWAYHGSYEVKATGSASSMINGVVKLLTKP WDVVPMVTQMAMTDTTPFGQQRVFKEKVDTRTPRPMPGTRKVMEITAEWLWRTLGRNKRP RLCTREEFTKKVRTNAAMGAVFTEENQWDSARAAVEDEEFWKLVDRERELHKLGKCGSCV YNMMGKREKKLGEFGKAKGSRAIWYMWLGARYLEFEALGFLNEDHWFSRENSYSGVEGEG LHKLGYILRDISKIPGGAMYADDTAGWDTRITEDDLHNEEKITQQMDPEHRQLANAIFKL TYQNKVVKVQRPTPKGTVMDIISRKDQRGSGQVGTYGLNTFTNMEAQLIRQMEGEGVLSK ADLENPHPLEKKITQWLETKGVERLKRMAISGDDCVVKPIDDRFANALLALNDMGKVRKD IPQWQPSKGWHDWQQVPFCSHHFHELIMKDGRKLVVPCRPQDELIGRARISQGAGWSLRE TACLGKAYAQMWTLMYFHRRDLRLASNAICSAVPVHWVPTSRTTWSIHAHHQWMTTEDML TVWNRVWIEDNPWMEDKTPVTTWEDVPYLGKREDQWCGSLIGLTSRATWAQNILTAIQQV RSLIGNEEFLDYMPSMKRFRKEEESEGAIW
- Number of residues
- 3390
- Molecular Weight
- 378060.625
- Theoretical pI
- 8.65
- GO Classification
- FunctionsATP binding / ATP-dependent helicase activity / double-stranded RNA binding / metal ion binding / mRNA (guanine-N7-)-methyltransferase activity / mRNA (nucleoside-2'-O-)-methyltransferase activity / RNA helicase activity / RNA-directed RNA polymerase activity / serine-type endopeptidase activity / serine-type exopeptidase activity / structural molecule activityProcessesclathrin-mediated endocytosis of virus by host cell / fusion of virus membrane with host endosome membrane / induction by virus of host autophagy / regulation of transcription, DNA-templated / suppression by virus of host STAT2 activity / suppression by virus of host TYK2 activity / suppression by virus of host type I interferon-mediated signaling pathway / transcription, DNA-templated / viral RNA genome replication / virion attachment to host cellComponentsextracellular region / host cell endoplasmic reticulum membrane / host cell nucleus / integral component of membrane / viral capsid / viral envelope / virion membrane
- General Function
- Capsid protein C Plays a role in virus budding by binding to the cell membrane and gathering the viral RNA into a nucleocapsid that forms the core of a mature virus particle. During virus entry, may induce genome penetration into the host cytoplasm after hemifusion induced by the surface proteins. Can migrate to the cell nucleus where it modulates host functions. Overcomes the anti-viral effects of host EXOC1 by sequestering and degrading the latter through the proteasome degradation pathway.
- Specific Function
- ATP binding
- Pfam Domain Function
- Signal Regions
- Not Available
- Transmembrane Regions
- 101-118 244-264 266-280 1124-1144 1155-1175 1197-1217 1283-1303 1316-1336 1345-1365 1369-1389 2147-2167 2192-2212 2228-2248 2347-2367 2413-2433 2459-2479
- Cellular Location
- Virion
- Gene sequence
>lcl|BSEQ0005510|10173 bp ATGAACAACCAACGGAAAAAGACGGGAAAACCGTCTATCAATATGCTGAAACGCGTGAGA AACCGTGTGTCAACTGGATCACAGTTGGCGAAGAGATTCTCAAGAGGATTGCTGAACGGC CAAGGACCAATGAAATTGGTTATGGCGTTTATAGCTTTCCTCAGATTTCTAGCCATTCCA CCGACAGCAGGAGTCTTGGCTAGATGGGGTACCTTTAAGAAGTCGGGGGCTATTAAGGTC TTAAAAGGCTTCAAGAAGGAGATCTCAAACATGCTGAGCATTATCAACAAACGGAAAAAG ACATCGCTCTGTCTCATGATGATGTTACCAGCAACACTTGCTTTCCACTTAACTTCACGA GATGGAGAGCCGCGCATGATTGTGGGGAAGAATGAAAGAGGAAAATCCCTACTTTTTAAG ACAGCCTCTGGAATCAACATGTGCACACTCATAGCCATGGATTTGGGAGAGATGTGTGAT GACACGGTCACTTACAAATGCCCCCACATTACCGAAGTGGAGCCTGAAGACATTGACTGT TGGTGCAACCTTACATCGACATGGGTGACTTATGGAACATGCAATCAAGCTGGAGAGCAT AGACGCGATAAGAGATCAGTGGCGTTAGCTCCCCATGTCGGCATGGGACTGGACACACGC ACTCAAACCTGGATGTCGGCTGAAGGAGCTTGGAGACAAGTCGAGAAGGTAGAGACATGG GCCCTTAGGCACCCAGGGTTTACCATACTAGCCCTATTTCTTGCCCATTACATAGGCACT TCCTTGACCCAGAAAGTGGTTATTTTTATACTATTAATGCTGGTTACCCCATCCATGACA ATGAGATGTGTGGGAGTAGGAAACAGAGATTTTGTGGAAGGCCTATCGGGAGCTACGTGG GTTGACGTGGTGCTCGAGCACGGTGGGTGTGTGACTACCATGGCTAAGAACAAGCCCACG CTGGACATAGAGCTTCAGAAGACTGAGGCCACTCAGCTGGCGACCCTAAGGAAGCTATGC ATTGAGGGAAAAATTACCAACATAACAACCGACTCAAGATGTCCCACCCAAGGGGAAGCG ATTTTACCTGAGGAGCAGGACCAGAACTACGTGTGTAAGCATACATACGTGGACAGAGGC TGGGGAAACGGTTGTGGTTTGTTTGGCAAGGGAAGCTTGGTGACATGCGCGAAATTTCAA TGTTTAGAATCAATAGAGGGAAAAGTGGTGCAACATGAGAACCTCAAATACACCGTCATC ATCACAGTGCACACAGGAGACCAACACCAGGTGGGAAATGAAACGCAGGGAGTTACGGCT GAGATAACATCCCAGGCATCAACCGCTGAAGCCATTTTACCTGAATATGGAACCCTCGGG CTAGAATGCTCACCACGGACAGGTTTGGATTTCAATGAAATGATTTTATTGACAATGAAG AACAAAGCATGGATGGTACATAGACAATGGTTCTTTGACTTACCCCTACCATGGACATCA GGAGCTACAACAAAAACACCAACTTGGAACAGGAAAGAGCTTCTTGTGACATTTAAAAAT GCACATGCAAAAAAGCAAGAAGTAGTTGTCCTTGGATCACAAGAGGGAGCAATGCATACA GCACTGACAGGAGCTACAGAGATCCAAACCTCAGGAGGCACAAGTATTTTTGCGGGGCAC TTAAAATGTAGACTCAAGATGGACAAATTGAAACTCAAGGGGATGAGCTATGCAATGTGC TTGAATACCTTTGTGTTGAAGAAAGAAGTCTCCGAAACGCAGCATGGGACAATACTCATT AAGGTTGAGTACAAAGGGGAAGATGCACCCTGCAAGATTCCTTTCTCCACGGAGGATGGA CAAGGGAAAGCTCACAATGGCAGACTGATCACAGCCAATCCAGTGGTGACCAAGAAGGAG GAGCCTGTCAACATTGAGGCTGAACCTCCTTTTGGGGAAAGTAATATAGTAATTGGAATT GGAGACAAAGCCCTGAAAATCAACTGGTACAGGAAGGGAAGCTCGATTGGGAAGATGTTC GAGGCCACTGCCAGAGGTGCAAGGCGCATGGCCATCTTGGGAGACACAGCCTGGGACTTT GGATCAGTGGGTGGTGTTTTGAATTCATTAGGGAAAATGGTCCACCAAATATTTGGGAGT GCTTACACAGCCCTATTTAGTGGAGTCTCCTGGATAATGAAAATTGGAATAGGTGTCCTC TTAACCTGGATAGGGTTGAATTCAAAAAACACTTCTATGTCATTTTCATGCATTGCGATA GGAATCATTACACTCTATCTGGGGGTCGTGGTGCAAGCTGACATGGGGTGTGTCATAAAC TGGAAAGGCAAAGAACTCAAATGTGGAAGTGGAATTTTCGTCACTAATGAGGTCCACACC TGGACAGAGCAATACAAATTTCAAGCAGACTCCCCCAAAAGAGTGGCAACAGCCATTGCA GGCGCTTGGGAGAATGGAGTGTGCGGAATTAGGTCAACAACCAGAATGGAGAACCTCTTG TGGAAGCAAATAGCCAATGAACTGAACTACATATTATGGGAAAACGACATTAAATTAACG GTAGTTGTAGGCGACATAACTGGGGTCTTAGAGCAAGGGAAAAGAACACTAACACCACAA CCCATGGAGCTAAAATATTCTTGGAAAACATGGGGTTTGGCAAAAATAGTGACAGCTGAA ACACAAAATTCCTCTTTCATAATAGATGGGCCAAGCACACCGGAGTGTCCAAGTGCCTCA AGAGCATGGAATGTGTGGGAGGTGGAAGATTACGGGTTCGGAGTTTTCACAACCAACATA TGGCTGAAACTCCGAGAGGTGTACACCCAACTATGTGACCATAGGCTAATGTCGGCAGCC GTCAAGGATGAGAGGGCCGTACACGCCGACATGGGCTATTGGATAGAAAGCCAAAAGAAT GGAAGTTGGAAGCTAGAAAAAGCATCCCTCATAGAGGTGAAAACCTGCACATGGCCAAAA TCACACACTCTTTGGAGCAATGGTGTGCTAGAGAGTGACATGATTATCCCAAAGAGTCTA GCTGGTCCCATTTCGCAACACAACCACAGGCCCGGGTACCACACCCAAACGGCAGGACCC TGGCACTTAGGAAAATTGGAGCTGGACTTCAACTATTGTGAAGGAACAACAGTTGTCATC TCAGAAAACTGTGGGACAAGAGGCCCATCATTGAGAACAACAACAGTGTCAGGGAAGTTG ATACACGAATGGTGTTGCCGCTCGTGCACACTTCCTCCCCTGCGATACATGGGAGAAGAC GGCTGCTGGTATGGCATGGAAATCAGACCCATTAATGAGAAAGAAGAGAACATGGTAAAG TCTCTAGCCTCAGCAGGGAGTGGAAAGGTGGACAACTTCACAATGGGTGTCTTGTGTTTG GCAATCCTCTTTGAAGAGGTGATGAGAGGAAAATTTGGGAAAAAACACATGATTGCAGGG GTTCTCTTCACGTTTGTGCTCCTCCTCTCAGGGCAAATAACATGGAGAGGCATGGCGCAC ACACTCATAATGATTGGGTCCAACGCCTCTGACAGAATGGGGATGGGCGTCACTTACCTA GCTCTAATTGCAACATTTAAAATTCAGCCATTCTTGGCTTTGGGATTCTTCCTGAGGAAA CTGACATCTAGAGAAAATTTATTGCTGGGAGTTGGGTTGGCCATGGCAGCAACGTTACGA CTGCCAGAGGACATTGAACAAATGGCGAATGGAATTGCTTTGGGGCTCATGGCTCTTAAA CTGATAACACAATTTGAAACATACCAACTATGGACGGCATTAGTTTCCCTAACGTGTTCA AATACAATTTTCACGTTGACTGTTGCCTGGAGAACAGCCACTCTGATTTTAGCCGGAATT TCGCTTTTGCCAGTGTGCCAGTCTTCGAGCATGAGGAAAACAGATTGGCTCCCAATGACT GTGGCAGCTATGGGAGTTCCACCCCTACCACTTTTTATTTTCAGTCTGAAAGATACACTC AAAAGGAGAAGCTGGCCACTGAATGAGGGGGTGATGGCAGTTGGACTTGTGAGCATTCTA GCTAGTTCTCTCCTTAGGAATGATGTGCCCATGGCTGGACCATTAGTGGCTGGGGGCTTG CTGATAGCGTGCTACGTCATAACTGGCACGTCAGCAGACCTCACTGTAGAAAAAGCAGCA GATGTAACATGGGAGGAAGAGGCCGAGCAAACAGGAGTGTCCCACAATTTAATGATCACA GTTGATGATGATGGAACAATGAGAATAAAAGATGACGAGACTGAGAACATCTTAACAGTG CTTTTAAAAACAGCACTACTAATAGTATCAGGCATCTTTCCATACTCCATACCCGCAACA ATGTTGGTCTGGCATACTTGGCAAAAGCAAACCCAAAGATCCGGCGTCCTATGGGACGTA CCCAGCCCCCCAGAGACACAGAAAGCGGAACTGGAAGAAGGGGTCTATAGGATCAAACAG CAAGGAATTTTTGGGAAAACCCAAGTGGGGGTTGGAGTACAGAAAGAAGGAGTTTTCCAC ACCATGTGGCACGTCACAAGAGGGGCAGTGTTGACACACAATGGGAAAAGACTGGAACCA AACTGGGCTAGCGTGAAAAAAGATCTGATTTCATACGGAGGAGGATGGAGATTGAGTGCA CAATGGCAAAAGGGGGAGGAGGTGCAGGTTATTGCCGTAGAGCCTGGGAAGAACCCAAAG AACTTTCAAACCATGCCAGGCATTTTTCAGACAACAACAGGGGAAATAGGAGCAATTGCA CTGGATTTCAAGCCTGGAACTTCAGGATCTCCCATCATAAACAGAGAGGGAAAGGTAGTG GGACTGTATGGCAATGGAGTGGTTACAAAGAATGGAGGCTATGTTAGTGGAATAGCGCAA ACAAATGCAGAACCAGATGGACCGACACCAGAGTTGGAAGAAGAGATGTTCAAAAAGCGA AATCTAACCATAATGGATCTTCATCCTGGGTCAGGAAAGACGCGGAAATATCTTCCAGCT ATTGTTAGAGAGGCAATCAAGAGACGCTTAAGGACTCTAATTTTGGCACCAACAAGGGTA GTTGCAGCTGAGATGGAAGAAGCAATGAAAGGGCTCCCAATAAGGTATCAAACAACTGCA ACAAAATCTGAACACACAGGAAGAGAGATTGTTGATCTAATGTGTCACGCAACGTTCACA ATGCGCTTGCTGTCACCAGTCAGGGTTCCAAACTACAACTTGATAATAATGGATGAGGCT CATTTCACAGACCCAGCCAGTATAGCGGCTAGAGGGTACATATCAACTCGTGTAGGAATG GGAGAGGCAGCCGCAATTTTCATGACAGCAACACCCCCTGGAACAGCTGATGCCTTTCCT CAGAGCAACGCTCCAATTCAAGATGAAGAGAGAGACATACCGGAACGCTCATGGAATTCA GGCAATGAATGGATTACTGACTTTGTTGGGAAGACAGTGTGGTTTGTCCCTAGCATCAAA GCCGGAAATGTCATAGCAAACTGTTTGCGGAAAAATGGAAAAAAGGTCATTCAACTCAGC AGGAAGACCTTTGACACAGAATATCAAAAGACCAAACTGAATGATTGGGACTTTGTGGTG ACAACAGACATTTCAGAAATGGGAGCCAATTTCATAGCAGATAGAGTGATCGACCCAAGA AGATGTCTCAAGCCGGTGATTTTGACAGATGGACCCGAGCGGGTGATCCTGGCTGGACCA ATGCCAGTCACCGTAGCGAGCGCTGCGCAAAGGAGAGGGAGAGTTGGCAGGAACCCACAA AAAGAAAATGACCAGTACATATTCATGGGCCAGCCTCTCAACAAAGATGAAGACCATGCT CACTGGACAGAAGCAAAAATGCTGCTGGACAACATCAACACACCAGAAGGGATTATACCA GCTCTCTTTGAACCAGAAAGGGAGAAGTCAGCCGCCATAGACGGCGAATACCGCCTGAAG GGTGAGTCCAGGAAGACTTTCGTGGAACTCATGAGGAGGGGTGACCTCCCAGTTTGGCTA GCCCATAAAGTAGCATCAGAAGGGATCAAATATACAGATAGAAAATGGTGCTTTGATGGA GAACGTAATAATCAAATTTTAGAGGAGAATATGGATGTGGAAATCTGGACAAAGGAAGGA GAAAAGAAAAAACTGAGACCTAGGTGGCTCGATGCCCGCACTTATTCAGATCCTTTAGCA CTCAAGGAATTCAAGGATTTTGCAGCTGGCAGAAAGTCAATCGCCCTTGATCTTGTGACA GAAATAGGAAGAGTGCCTTCACACTTAGCCCACAGAACGAGAAACGCCCTGGACAATTTG GTGATGCTGCACACGTCAGAACATGGCGGTAGGGCCTACAGGCATGCAGTGGAGGAACTA CCAGAAACGATGGAAACACTCTTACTCCTGGGACTGATGATCTTGTTAACAGGTGGAGCA ATGCTCTTCTTGATATCAGGTAAAGGGATTGGAAAGACTTCAATAGGACTCATTTGTGTA ATTGCTTCCAGCGGCATGTTATGGATGGCTGATGTCCCACTCCAATGGATCGCGTCGGCT ATAGTCCTGGAGTTTTTTATGATGGTGTTGCTCATACCAGAACCAGAAAAGCAGAGAACT CCCCAAGACAACCAACTCGCATATGTCGTGATAGGCATACTTACATTGGCTGCAATAGTA GCGGCCAATGAAATGGGACTGTTGGAAACTACAAAGAGAGATTTAGGAATGTCTAAAGAA CCAGGTGTTGTTTCTCCAACCAGCTATTTGGATGTGGACTTGCACCCAGCATCAGCCTGG ACATTGTACGCCGTGGCCACAACAGTAATAACACCAATGTTGAGACACACCATAGAGAAT TCCACAGCAAATGTGTCCCTGGCAGCCATAGCTAACCAGGCAGTGGTCCTGATGGGTTTA GACAAAGGATGGCCGATATCGAAAATGGACTTGGGCGTACCACTATTGGCACTGGGTTGC TATTCACAAGTGAACCCACTAACTCTTATAGCGGCAGTACTTTTGCTAGTCACACATTAT GCAATTATAGGTCCAGGATTGCAGGCAAAAGCCACTCGTGAAGCTCAGAAAAGGACAGCT GCTGGAATAATGAAGAATCCAACGGTGGATGGAATAATGACAATAGACCTAGATCCTGTA ATATATGATTCAAAATTTGAAAAGCAACTAGGACAGGTTATGCTCCTGGTTCTGTGTGCA GTTCAACTTTTGTTAATGAGAACATCATGGGCCTTGTGTGAAGTTCTAACCCTAGCCACA GGACCAATAACAACACTCTGGGAAGGATCACCTGGGAAGTTCTGGAACACCACGATAGCT GTTTCCATGGCGAACATCTTTAGAGGGAGCTATTTAGCAGGAGCTGGGCTTGCTCTTTCT ATCATGAAATCAGTTGGAACAGGAAAGAGAGGAACAGGGTCACAAGGTGAAACCTTAGGA GAAAAGTGGAAAAAGAAATTAAATCAGTTATCCCGGAAAGAGTTTGACCTTTACAAGAAA TCCGGAATCACCGAAGTGGATAGAACAGAAGCCAAAGAAGGGTTAAAAAGAGGAGAAATA ACACACCATGCCGTGTCCAGAGGCAGCGCAAAACTTCAATGGTTCGTGGAGAGAAACATG GTCATTCCCGAAGGAAGAGTCATAGACTTAGGCTGTGGAAGAGGAGGCTGGTCATATTAC TGTGCAGGACTGAAAAAAGTTACAGAAGTGCGAGGATACACAAAAGGCGGCCCAGGACAC GAAGAACCAGTACCTATGTCTACATACGGATGGAACATAGTCAAGTTAATGAGTGGAAAG GATGTTTTTTATCTGCCACCTGAAAAGTGTGATACCCTATTGTGTGACATTGGAGAATCT TCACCAAGCCCAACAGTGGAAGAAAGCAGAACCATAAGAGTCTTGAAGATGGTTGAACCA TGGCTAAAAAACAACCAGTTTTGCATTAAAGTATTGAACCCATACATGCCAACTGTGATT GAGCACTTAGAAAGACTACAAAGGAAACATGGAGGAATGCTTGTGAGAAATCCACTCTCA CGAAACTCCACGCACGAAATGTATTGGATATCCAATGGTACAGGCAACATCGTCTCTTCA GTCAACATGGTATCCAGATTGCTACTGAACAGATTCACAATGACACACAGGAGACCCACC ATAGAGAAAGATGTGGATTTAGGAGCAGGAACCCGACATGTCAATGCGGAACCAGAAACA CCCAACATGGATGTCATTGGGGAAAGAATAAAAAGGATCAAAGAGGAGCATAGTTCAACA TGGCACTATGATGATGAAAATCCTTACAAAACGTGGGCTTACCATGGATCCTATGAAGTA AAAGCCACAGGCTCAGCCTCCTCCATGATAAATGGAGTCGTGAAACTCCTCACAAAACCA TGGGATGTGGTGCCCATGGTGACACAGATGGCAATGACAGATACAACTCCATTTGGCCAG CAAAGAGTTTTTAAAGAGAAAGTGGACACCAGGACACCTAGGCCCATGCCAGGAACAAGA AAGGTTATGGAGATCACAGCGGAGTGGCTTTGGAGGACCCTGGGAAGGAACAAAAGACCC AGATTATGCACAAGGGAGGAGTTCACAAAGAAGGTCAGAACCAACGCAGCTATGGGCGCT GTCTTCACAGAAGAGAACCAATGGGACAGTGCGAGAGCTGCTGTTGAGGACGAAGAATTT TGGAAACTTGTGGACAGAGAACGTGAACTCCACAAACTGGGCAAGTGTGGAAGCTGCGTT TACAACATGATGGGCAAGAGAGAGAAAAAACTTGGAGAGTTTGGTAAAGCAAAAGGCAGT AGGGCTATATGGTACATGTGGTTGGGAGCCAGGTACCTTGAGTTCGAGGCGCTCGGATTC CTCAATGAAGACCACTGGTTCTCGCGTGAAAACTCTTACAGTGGAGTAGAAGGAGAAGGA CTGCACAAGCTGGGATACATCTTGAGAGATATTTCCAAGATACCCGGAGGAGCCATGTAT GCTGATGACACAGCCGGTTGGGACACAAGAATAACAGAAGATGACCTGCACAATGAGGAA AAAATCACACAGCAGATGGACCCTGAACACAGGCAGCTAGCGAACGCTATATTCAAGCTC ACATACCAAAACAAAGTGGTCAAAGTCCAACGACCAACTCCAAAGGGCACGGTAATGGAC ATCATATCTAGGAAAGACCAAAGAGGCAGTGGACAGGTGGGAACTTATGGTCTGAACACA TTCACCAACATGGAAGCCCAGCTAATCAGACAAATGGAAGGAGAAGGCGTGTTGTCAAAG GCAGACCTCGAGAACCCCCATCCGCTAGAGAAGAAAATTACACAATGGTTGGAAACTAAA GGAGTGGAGAGGTTAAAAAGAATGGCCATCAGCGGGGATGATTGCGTAGTGAAACCAATC GACGACAGATTCGCCAATGCCCTGCTTGCCCTGAACGATATGGGAAAGGTTAGGAAGGAC ATACCTCAATGGCAGCCATCAAAGGGATGGCATGATTGGCAACAGGTCCCTTTCTGCTCC CACCACTTTCATGAATTGATCATGAAAGATGGAAGAAAGTTGGTAGTTCCCTGCAGACCC CAGGACGAACTAATAGGAAGAGCGAGAATCTCTCAAGGAGCAGGATGGAGCCTTAGAGAA ACTGCATGTCTAGGGAAAGCCTACGCTCAAATGTGGACTCTCATGTATTTTCACAGAAGA GATCTTAGACTAGCATCCAACGCCATATGTTCAGCAGTACCAGTCCATTGGGTCCCCACG AGCAGAACGACATGGTCTATTCATGCTCACCATCAGTGGATGACTACAGAAGACATGCTT ACTGTCTGGAACAGGGTGTGGATAGAGGACAATCCATGGATGGAAGACAAAACTCCAGTC ACAACGTGGGAAGATGTTCCATATCTAGGAAAGAGAGAAGACCAATGGTGCGGATCACTC ATAGGTCTCACTTCCAGAGCAACCTGGGCCCAGAACATACTCACAGCAATCCAACAGGTG AGAAGCCTCATAGGCAATGAAGAGTTTCTGGACTACATGCCTTCGATGAAGAGATTCAGG AAGGAGGAGGAGTCAGAGGGAGCCATTTGGTAA
- Chromosome Location
- Not Available
- Locus
- Not Available
- External Identifiers
Resource Link UniProtKB ID P27915 UniProtKB Entry Name POLG_DEN3P GenBank Gene ID M93130 PDB ID(s) 1UZG, 2J7U, 2J7W, 3P8Z, 3P97, 3UZE, 3VTT - General References
- Osatomi K, Sumiyoshi H: Complete nucleotide sequence of dengue type 3 virus genome RNA. Virology. 1990 Jun;176(2):643-7. [Article]
- Modis Y, Ogata S, Clements D, Harrison SC: Variable surface epitopes in the crystal structure of dengue virus type 3 envelope glycoprotein. J Virol. 2005 Jan;79(2):1223-31. [Article]
Associated Data
- Drug Relations
Drug Drug group Pharmacological action? Type Actions Details alpha-L-fucose experimental unknown target Details