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

Functions

ATP 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 activity

Processes

clathrin-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 cell

Components

extracellular 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

• Flavi_capsid (PF01003)
• Flavi_DEAD (PF07652)
• Flavi_glycop_C (PF02832)
• Flavi_glycoprot (PF00869)
• Flavi_M (PF01004)
• Flavi_NS1 (PF00948)
• Flavi_NS2A (PF01005)
• Flavi_NS2B (PF01002)
• Flavi_NS4A (PF01350)
• Flavi_NS4B (PF01349)
• Flavi_NS5 (PF00972)
• Flavi_propep (PF01570)
• FtsJ (PF01728)
• Peptidase_S7 (PF00949)

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

1. Osatomi K, Sumiyoshi H: Complete nucleotide sequence of dengue type 3 virus genome RNA. Virology. 1990 Jun;176(2):643-7. [Article]
2. 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