Details of Virus RNA

  Strain Information Strain Name
Dengue virus 2 (strain 16681)
Strain Family
Flaviviridae
RNA Binding Site
3'UTR
  Virus Information Virus Name
Dengue virus 2 (DENV2)
Taxonomy ID 11060

Full list of proteins interacting with the 3'UTR of this Strain

Protein Name Uniprot ID Host Species Pro Info Detection Method Infection Cell Cell ID Cell Originated Tissue Infection Time Interaction Score Fold Change
Actin Q711N9 Mesocricetus auratus Pro Info RNA affinity chromatography (RAC) BHK Cells (Small hamster kidney fibroblast) . Kidney 2 h . .
Annexin A2 C0HJG9 Mesocricetus auratus Pro Info RNA affinity chromatography (RAC) BHK Cells (Small hamster kidney fibroblast) . Kidney 2 h . .
Elongation factor 1-alpha 1 P62629 Cricetulus griseus Pro Info RNA affinity chromatography (RAC) BHK Cells (Small hamster kidney fibroblast) . Kidney 2 h . .
Heterogeneous nuclear ribonucleoprotein A1 isoform X1 A0A1U8BTE0 Mesocricetus auratus Pro Info RNA affinity chromatography (RAC) BHK Cells (Small hamster kidney fibroblast) . Kidney 2 h . .
Heterogeneous nuclear ribonucleoprotein H isoform X2 A0A1U8BVV8 Mesocricetus auratus Pro Info RNA affinity chromatography (RAC) BHK Cells (Small hamster kidney fibroblast) . Kidney 2 h . .
Heterogeneous nuclear ribonucleoprotein U A0A1U7QFZ3 Mesocricetus auratus Pro Info RNA affinity chromatography (RAC) BHK Cells (Small hamster kidney fibroblast) . Kidney 2 h . .
Ribosome-binding protein 1 Q9P2E9 Homo sapiens Pro Info Comprehensive identification of RNA-binding proteins by mass spectrometry (ChIRP-MS) HuH-7.5.1 Cells (Human hepatocellular carcinoma cell) . Liver 48 h Saint score = 1 .
Ribosome-binding protein 1 Q9P2E9 Homo sapiens Pro Info Comprehensive identification of RNA-binding proteins by mass spectrometry (ChIRP-MS) HuH-7.5.1 Cells (Human hepatocellular carcinoma cell) . Liver 48 h Saint score = 1 .
Y-box binding protein 1 A0A8C2LH34 Cricetulus griseus Pro Info RNA affinity chromatography (RAC) BHK Cells (Small hamster kidney fibroblast) . Kidney 2 h . .
Y-box-binding protein 1 P67809 Homo sapiens Pro Info RNA affinity chromatography (RAC) BHK-21 Cells (Small hamster kidney fibroblast) . Kidney 2 h . .

Functional Go Enrichment analysis of those proteins interacting with the 3'UTR of this Strain

GO Term GO Category GO ID Adjusted P-value Odds Ratio Combined Score
RNA Binding Molecular Function GO:0003723 3.61E-06 92.67521368 1534.515874
Poly-Pyrimidine Tract Binding Molecular Function GO:0008187 0.000847841 289.4057971 2917.916921
miRNA Binding Molecular Function GO:0035198 0.000847841 246.4814815 2410.753549
pre-mRNA Binding Molecular Function GO:0036002 0.000847841 237.6666667 2308.188874
Regulatory RNA Binding Molecular Function GO:0061980 0.001170293 166.2666667 1501.640997
Single-Stranded RNA Binding Molecular Function GO:0003727 0.001170293 162.203252 1457.249153
Single-Stranded DNA Binding Molecular Function GO:0003697 0.005012126 70.56028369 520.4058389
RNA Polymerase II C-terminal Domain Binding Molecular Function GO:0099122 0.016785013 571.0571429 3445.289983
poly Binding Molecular Function GO:0034046 0.016798589 475.8571429 2797.6605
Phospholipase Inhibitor Activity Molecular Function GO:0004859 0.016798589 356.8571429 2008.476466
G-rich Strand Telomeric DNA Binding Molecular Function GO:0098505 0.016798589 356.8571429 2008.476466
DNA Binding Molecular Function GO:0003677 0.016798589 13.62918149 76.6901154
Single-Stranded Telomeric DNA Binding Molecular Function GO:0043047 0.018920437 285.4571429 1549.437088
Cadherin Binding Involved In Cell-Cell Adhesion Molecular Function GO:0098641 0.027123624 178.3571429 890.6521752
Telomerase RNA Binding Molecular Function GO:0070034 0.030686697 142.6571429 682.334006
poly RNA Binding Molecular Function GO:0008266 0.030686697 135.8571429 643.5130349
poly Binding Molecular Function GO:0008143 0.032802796 118.8571429 547.857721
RNA Polymerase II Complex Binding Molecular Function GO:0000993 0.035041222 95.05714286 417.8062797
Poly-Purine Tract Binding Molecular Function GO:0070717 0.035041222 95.05714286 417.8062797
RNA Polymerase Core Enzyme Binding Molecular Function GO:0043175 0.035041222 89.10714286 386.1142785
Intracellular Non-Membrane-Bounded Organelle Cellular Component GO:0043232 0.001562162 26.33333333 269.2026328
Nucleus Cellular Component GO:0005634 0.003941273 24.2375 208.5468307
Intracellular Membrane-Bounded Organelle Cellular Component GO:0043231 0.006869424 20.07894737 153.4686712
Vesicle Cellular Component GO:0031982 0.037187994 28.26752504 158.4820359
Cytoplasmic Side Of Lysosomal Membrane Cellular Component GO:0098574 0.037187994 259.4935065 1385.975083
Mitotic Spindle Microtubule Cellular Component GO:1990498 0.037187994 237.8571429 1251.41637
Secretory Granule Lumen Cellular Component GO:0034774 0.03758092 20.8895966 105.0611234
Actin Cytoskeleton Cellular Component GO:0015629 0.03758092 20.17128205 100.1104236
Lysosomal Membrane Cellular Component GO:0005765 0.039372998 18.49152542 88.73436897
U12-type Spliceosomal Complex Cellular Component GO:0005689 0.047932552 105.6349206 474.9953904
Cortical Actin Cytoskeleton Cellular Component GO:0030864 0.068283872 66.27574751 268.2435667
Ribosome Cellular Component GO:0005840 0.076540905 47.45714286 176.7148687
Cortical Cytoskeleton Cellular Component GO:0030863 0.076540905 45.92165899 169.5318023
Spindle Microtubule Cellular Component GO:0005876 0.076540905 42.48400853 153.6332952
Cytoplasmic Stress Granule Cellular Component GO:0010494 0.076540905 37.93714286 133.0240675
Glutamatergic Synapse Cellular Component GO:0098978 0.076540905 36.94805195 128.6090483
Lipid Droplet Cellular Component GO:0005811 0.076540905 35.11640212 120.501773
Late Endosome Membrane Cellular Component GO:0031902 0.076540905 33.85714286 114.9818124
Azurophil Granule Lumen Cellular Component GO:0035578 0.076540905 32.31168831 108.2700252
Nuclear Lumen Cellular Component GO:0031981 0.076540905 8.232219366 27.27966147
Gene Expression Biological Process GO:0010467 0.000407359 67.46575342 854.8664967
CRD-mediated mRNA Stabilization Biological Process GO:0070934 0.000407359 832.6666667 9972.498783
Negative Regulation Of Nuclear-Transcribed mRNA Catabolic Process, Deadenylation-Dependent Decay Biological Process GO:1900152 0.000407359 740.1111111 8715.627567
Positive Regulation Of Cytoplasmic Translation Biological Process GO:2000767 0.000505195 555 6256.612278
Negative Regulation Of Telomere Maintenance Via Telomerase Biological Process GO:0032211 0.000738594 391.6666667 4168.651313
Regulation Of Nuclear-Transcribed mRNA Catabolic Process, Deadenylation-Dependent Decay Biological Process GO:1900151 0.000738594 317 3250.022084
Regulation Of Cytoplasmic Translation Biological Process GO:2000765 0.000738594 302.5757576 3075.871223
RNA Splicing, Via Transesterification Reactions With Bulged Adenosine As Nucleophile Biological Process GO:0000377 0.000738594 67.16949153 682.1841455
Negative Regulation Of Telomere Maintenance Via Telomere Lengthening Biological Process GO:1904357 0.000738594 289.4057971 2917.916921
mRNA Splicing, Via Spliceosome Biological Process GO:0000398 0.000861496 57.06923077 552.5914977
Negative Regulation Of DNA Biosynthetic Process Biological Process GO:2000279 0.000861496 229.4597701 2213.227314
mRNA Processing Biological Process GO:0006397 0.000861496 56.2492891 542.2902903
RNA Stabilization Biological Process GO:0043489 0.001132449 190.0666667 1765.211478
RNA Transport Biological Process GO:0050658 0.001169511 179.7747748 1650.515154
Negative Regulation Of mRNA Catabolic Process Biological Process GO:1902373 0.001207434 170.5384615 1548.508344
Positive Regulation Of Transport Biological Process GO:0051050 0.001598067 138.5 1202.25178
Regulation Of Telomere Maintenance Via Telomerase Biological Process GO:0032210 0.001598067 135.6666667 1172.256699
mRNA Stabilization Biological Process GO:0048255 0.001598067 130.3333333 1116.099787
Regulation Of Alternative mRNA Splicing, Via Spliceosome Biological Process GO:0000381 0.001598067 130.3333333 1116.099787
Regulation Of mRNA Stability Biological Process GO:0043488 0.002963265 92.22222222 728.0608226

Virus RNA Sequence Information

>U87411.1 Dengue virus type 2 (strain 16681) polyprotein mRNA, complete cds AGTTGTTAGTCTACGTGGACCGACAAAGACAGATTCTTTGAGGGAGCTAAGCTCAACGTAGTTCTAACAG TTTTTTAATTAGAGAGCAGATCTCTGATGAATAACCAACGGAAAAAGGCGAAAAACACGCCTTTCAATAT GCTGAAACGCGAGAGAAACCGCGTGTCGACTGTGCAACAGCTGACAAAGAGATTCTCACTTGGAATGCTG CAGGGACGAGGACCATTAAAACTGTTCATGGCCCTGGTGGCGTTCCTTCGTTTCCTAACAATCCCACCAA CAGCAGGGATATTGAAGAGATGGGGAACAATTAAAAAATCAAAAGCTATTAATGTTTTGAGAGGGTTCAG GAAAGAGATTGGAAGGATGCTGAACATCTTGAATAGGAGACGCAGATCTGCAGGCATGATCATTATGCTG ATTCCAACAGTGATGGCGTTCCATTTAACCACACGTAACGGAGAACCACACATGATCGTCAGCAGACAAG AGAAAGGGAAAAGTCTTCTGTTTAAAACAGAGGATGGCGTGAACATGTGTACCCTCATGGCCATGGACCT TGGTGAATTGTGTGAAGACACAATCACGTACAAGTGTCCCCTTCTCAGGCAGAATGAGCCAGAAGACATA GACTGTTGGTGCAACTCTACGTCCACGTGGGTAACTTATGGGACGTGTACCACCATGGGAGAACATAGAA GAGAAAAAAGATCAGTGGCACTCGTTCCACATGTGGGAATGGGACTGGAGACACGAACTGAAACATGGAT GTCATCAGAAGGGGCCTGGAAACATGTCCAGAGAATTGAAACTTGGATCTTGAGACATCCAGGCTTCACC ATGATGGCAGCAATCCTGGCATACACCATAGGAACGACACATTTCCAAAGAGCCCTGATTTTCATCTTAC TGACAGCTGTCACTCCTTCAATGACAATGCGTTGCATAGGAATGTCAAATAGAGACTTTGTGGAAGGGGT TTCAGGAGGAAGCTGGGTTGACATAGTCTTAGAACATGGAAGCTGTGTGACGACGATGGCAAAAAACAAA CCAACATTGGATTTTGAACTGATAAAAACAGAAGCCAAACAGCCTGCCACCCTAAGGAAGTACTGTATAG AGGCAAAGCTAACCAACACAACAACAGAATCTCGCTGCCCAACACAAGGGGAACCCAGCCTAAATGAAGA GCAGGACAAAAGGTTCGTCTGCAAACACTCCATGGTAGACAGAGGATGGGGAAATGGATGTGGACTATTT GGAAAGGGAGGCATTGTGACCTGTGCTATGTTCAGATGCAAAAAGAACATGGAAGGAAAAGTTGTGCAAC CAGAAAACTTGGAATACACCATTGTGATAACACCTCACTCAGGGGAAGAGCATGCAGTCGGAAATGACAC AGGAAAACATGGCAAGGAAATCAAAATAACACCACAGAGTTCCATCACAGAAGCAGAATTGACAGGTTAT GGCACTGTCACAATGGAGTGCTCTCCAAGAACGGGCCTCGACTTCAATGAGATGGTGTTGCTGCAGATGG AAAATAAAGCTTGGCTGGTGCACAGGCAATGGTTCCTAGACCTGCCGTTACCATGGTTGCCCGGAGCGGA CACACAAGGGTCAAATTGGATACAGAAAGAGACATTGGTCACTTTCAAAAATCCCCATGCGAAGAAACAG GATGTTGTTGTTTTAGGATCCCAAGAAGGGGCCATGCACACAGCACTTACAGGGGCCACAGAAATCCAAA TGTCATCAGGAAACTTACTCTTCACAGGACATCTCAAGTGCAGGCTGAGAATGGACAAGCTACAGCTCAA AGGAATGTCATACTCTATGTGCACAGGAAAGTTTAAAGTTGTGAAGGAAATAGCAGAAACACAACATGGA ACAATAGTTATCAGAGTGCAATATGAAGGGGACGGCTCTCCATGCAAGATCCCTTTTGAGATAATGGATT TGGAAAAAAGACATGTCTTAGGTCGCCTGATTACAGTCAACCCAATTGTGACAGAAAAAGATAGCCCAGT CAACATAGAAGCAGAACCTCCATTCGGAGACAGCTACATCATCATAGGAGTAGAGCCGGGACAACTGAAG CTCAACTGGTTTAAGAAAGGAAGTTCTATCGGCCAAATGTTTGAGACAACAATGAGGGGGGCGAAGAGAA TGGCCATTTTAGGTGACACAGCCTGGGATTTTGGATCCTTGGGAGGAGTGTTTACATCTATAGGAAAGGC TCTCCACCAAGTCTTTGGAGCAATCTATGGAGCTGCCTTCAGTGGGGTTTCATGGACTATGAAAATCCTC ATAGGAGTCATTATCACATGGATAGGAATGAATTCACGCAGCACCTCACTGTCTGTGACACTAGTATTGG TGGGAATTGTGACACTGTATTTGGGAGTCATGGTGCAGGCCGATAGTGGTTGCGTTGTGAGCTGGAAAAA CAAAGAACTGAAATGTGGCAGTGGGATTTTCATCACAGACAACGTGCACACATGGACAGAACAATACAAG TTCCAACCAGAATCCCCTTCAAAACTAGCTTCAGCTATCCAGAAAGCCCATGAAGAGGGCATTTGTGGAA TCCGCTCAGTAACAAGACTGGAGAATCTGATGTGGAAACAAATAACACCAGAATTGAATCACATTCTATC AGAAAATGAGGTGAAGTTAACTATTATGACAGGAGACATCAAAGGAATCATGCAGGCAGGAAAACGATCT CTGCGGCCTCAGCCCACTGAGCTGAAGTATTCATGGAAAACATGGGGCAAAGCAAAAATGCTCTCTACAG AGTCTCATAACCAGACCTTTCTCATTGATGGCCCCGAAACAGCAGAATGCCCCAACACAAATAGAGCTTG GAATTCGTTGGAAGTTGAAGACTATGGCTTTGGAGTATTCACCACCAATATATGGCTAAAATTGAAAGAA AAACAGGATGTATTCTGCGACTCAAAACTCATGTCAGCGGCCATAAAAGACAACAGAGCCGTCCATGCCG ATATGGGTTATTGGATAGAAAGTGCACTCAATGACACATGGAAGATAGAGAAAGCCTCTTTCATTGAAGT TAAAAACTGCCACTGGCCAAAATCACACACCCTCTGGAGCAATGGAGTGCTAGAAAGTGAGATGATAATT CCAAAGAATCTCGCTGGACCAGTGTCTCAACACAACTATAGACCAGGCTACCATACACAAATAACAGGAC CATGGCATCTAGGTAAGCTTGAGATGGACTTTGATTTCTGTGATGGAACAACAGTGGTAGTGACTGAGGA CTGCGGAAATAGAGGACCCTCTTTGAGAACAACCACTGCCTCTGGAAAACTCATAACAGAATGGTGCTGC CGATCTTGCACATTACCACCGCTAAGATACAGAGGTGAGGATGGGTGCTGGTACGGGATGGAAATCAGAC CATTGAAGGAGAAAGAAGAGAATTTGGTCAACTCCTTGGTCACAGCTGGACATGGGCAGGTCGACAACTT TTCACTAGGAGTCTTGGGAATGGCATTGTTCCTGGAGGAAATGCTTAGGACCCGAGTAGGAACGAAACAT GCAATACTACTAGTTGCAGTTTCTTTTGTGACATTGATCACAGGGAACATGTCCTTTAGAGACCTGGGAA GAGTGATGGTTATGGTAGGCGCCACTATGACGGATGACATAGGTATGGGCGTGACTTATCTTGCCCTACT AGCAGCCTTCAAAGTCAGACCAACTTTTGCAGCTGGACTACTCTTGAGAAAGCTGACCTCCAAGGAATTG ATGATGACTACTATAGGAATTGTACTCCTCTCCCAGAGCACCATACCAGAGACCATTCTTGAGTTGACTG ATGCGTTAGCCTTAGGCATGATGGTCCTCAAAATGGTGAGAAATATGGAAAAGTATCAATTGGCAGTGAC TATCATGGCTATCTTGTGCGTCCCAAACGCAGTGATATTACAAAACGCATGGAAAGTGAGTTGCACAATA TTGGCAGTGGTGTCCGTTTCCCCACTGCTCTTAACATCCTCACAGCAAAAAACAGATTGGATACCATTAG CATTGACGATCAAAGGTCTCAATCCAACAGCTATTTTTCTAACAACCCTCTCAAGAACCAGCAAGAAAAG GAGCTGGCCATTAAATGAGGCTATCATGGCAGTCGGGATGGTGAGCATTTTAGCCAGTTCTCTCCTAAAA AATGATATTCCCATGACAGGACCATTAGTGGCTGGAGGGCTCCTCACTGTGTGCTACGTGCTCACTGGAC GATCGGCCGATTTGGAACTGGAGAGAGCAGCCGATGTCAAATGGGAAGACCAGGCAGAGATATCAGGAAG CAGTCCAATCCTGTCAATAACAATATCAGAAGATGGTAGCATGTCGATAAAAAATGAAGAGGAAGAACAA ACACTGACCATACTCATTAGAACAGGATTGCTGGTGATCTCAGGACTTTTTCCTGTATCAATACCAATCA CGGCAGCAGCATGGTACCTGTGGGAAGTGAAGAAACAACGGGCCGGAGTATTGTGGGATGTTCCTTCACC CCCACCCATGGGAAAGGCTGAACTGGAAGATGGAGCCTATAGAATTAAGCAAAAAGGGATTCTTGGATAT TCCCAGATCGGAGCCGGAGTTTACAAAGAAGGAACATTCCATACAATGTGGCATGTCACACGTGGCGCTG TTCTAATGCATAAAGGAAAGAGGATTGAACCATCATGGGCGGACGTCAAGAAAGACCTAATATCATATGG AGGAGGCTGGAAGTTAGAAGGAGAATGGAAGGAAGGAGAAGAAGTCCAGGTATTGGCACTGGAGCCTGGA AAAAATCCAAGAGCCGTCCAAACGAAACCTGGTCTTTTCAAAACCAACGCCGGAACAATAGGTGCTGTAT CTCTGGACTTTTCTCCTGGAACGTCAGGATCTCCAATTATCGACAAAAAAGGAAAAGTTGTGGGTCTTTA TGGTAATGGTGTTGTTACAAGGAGTGGAGCATATGTGAGTGCTATAGCCCAGACTGAAAAAAGCATTGAA GACAACCCAGAGATCGAAGATGACATTTTCCGAAAGAGAAGACTGACCATCATGGACCTCCACCCAGGAG CGGGAAAGACGAAGAGATACCTTCCGGCCATAGTCAGAGAAGCTATAAAACGGGGTTTGAGAACATTAAT CTTGGCCCCCACTAGAGTTGTGGCAGCTGAAATGGAGGAAGCCCTTAGAGGACTTCCAATAAGATACCAG ACCCCAGCCATCAGAGCTGAGCACACCGGGCGGGAGATTGTGGACCTAATGTGTCATGCCACATTTACCA TGAGGCTGCTATCACCAGTTAGAGTGCCAAACTACAACCTGATTATCATGGACGAAGCCCATTTCACAGA CCCAGCAAGTATAGCAGCTAGAGGATACATCTCAACTCGAGTGGAGATGGGTGAGGCAGCTGGGATTTTT ATGACAGCCACTCCCCCGGGAAGCAGAGACCCATTTCCTCAGAGCAATGCACCAATCATAGATGAAGAAA GAGAAATCCCTGAACGTTCGTGGAATTCCGGACATGAATGGGTCACGGATTTTAAAGGGAAGACTGTTTG GTTCGTTCCAAGTATAAAAGCAGGAAATGATATAGCAGCTTGCCTGAGGAAAAATGGAAAGAAAGTGATA CAACTCAGTAGGAAGACCTTTGATTCTGAGTATGTCAAGACTAGAACCAATGATTGGGACTTCGTGGTTA CAACTGACATTTCAGAAATGGGTGCCAATTTCAAGGCTGAGAGGGTTATAGACCCCAGACGCTGCATGAA ACCAGTCATACTAACAGATGGTGAAGAGCGGGTGATTCTGGCAGGACCTATGCCAGTGACCCACTCTAGT GCAGCACAAAGAAGAGGGAGAATAGGAAGAAATCCAAAAAATGAGAATGACCAGTACATATACATGGGGG AACCTCTGGAAAATGATGAAGACTGTGCACACTGGAAAGAAGCTAAAATGCTCCTAGATAACATCAACAC GCCAGAAGGAATCATTCCTAGCATGTTCGAACCAGAGCGTGAAAAGGTGGATGCCATTGATGGCGAATAC CGCTTGAGAGGAGAAGCAAGGAAAACCTTTGTAGACTTAATGAGAAGAGGAGACCTACCAGTCTGGTTGG CCTACAGAGTGGCAGCTGAAGGCATCAACTACGCAGACAGAAGGTGGTGTTTTGATGGAGTCAAGAACAA CCAAATCCTAGAAGAAAACGTGGAAGTTGAAATCTGGACAAAAGAAGGGGAAAGGAAGAAATTGAAACCC AGATGGTTGGATGCTAGGATCTATTCTGACCCACTGGCGCTAAAAGAATTTAAGGAATTTGCAGCCGGAA GAAAGTCTCTGACCCTGAACCTAATCACAGAAATGGGTAGGCTCCCAACCTTCATGACTCAGAAGGCAAG AGACGCACTGGACAACTTAGCAGTGCTGCACACGGCTGAGGCAGGTGGAAGGGCGTACAACCATGCTCTC AGTGAACTGCCGGAGACCCTGGAGACATTGCTTTTACTGACACTTCTGGCTACAGTCACGGGAGGGATCT TTTTATTCTTGATGAGCGGAAGGGGCATAGGGAAGATGACCCTGGGAATGTGCTGCATAATCACGGCTAG CATCCTCCTATGGTACGCACAAATACAGCCACACTGGATAGCAGCTTCAATAATACTGGAGTTTTTTCTC ATAGTTTTGCTTATTCCAGAACCTGAAAAACAGAGAACACCCCAAGACAACCAACTGACCTACGTTGTCA TAGCCATCCTCACAGTGGTGGCCGCAACCATGGCAAACGAGATGGGTTTCCTAGAAAAAACGAAGAAAGA TCTCGGATTGGGAAGCATTGCAACCCAGCAACCCGAGAGCAACATCCTGGACATAGATCTACGTCCTGCA TCAGCATGGACGCTGTATGCCGTGGCCACAACATTTGTTACACCAATGTTGAGACATAGCATTGAAAATT CCTCAGTGAATGTGTCCCTAACAGCTATAGCCAACCAAGCCACAGTGTTAATGGGTCTCGGGAAAGGATG GCCATTGTCAAAGATGGACATCGGAGTTCCCCTTCTCGCCATTGGATGCTACTCACAAGTCAACCCCATA ACTCTCACAGCAGCTCTTTTCTTATTGGTAGCACATTATGCCATCATAGGGCCAGGACTCCAAGCAAAAG CAACCAGAGAAGCTCAGAAAAGAGCAGCGGCGGGCATCATGAAAAACCCAACTGTCGATGGAATAACAGT GATTGACCTAGATCCAATACCTTATGATCCAAAGTTTGAAAAGCAGTTGGGACAAGTAATGCTCCTAGTC CTCTGCGTGACTCAAGTATTGATGATGAGGACTACATGGGCTCTGTGTGAGGCTTTAACCTTAGCTACCG GGCCCATCTCCACATTGTGGGAAGGAAATCCAGGGAGGTTTTGGAACACTACCATTGCGGTGTCAATGGC TAACATTTTTAGAGGGAGTTACTTGGCCGGAGCTGGACTTCTCTTTTCTATTATGAAGAACACAACCAAC ACAAGAAGGGGAACTGGCAACATAGGAGAGACGCTTGGAGAGAAATGGAAAAGCCGATTGAACGCATTGG GAAAAAGTGAATTCCAGATCTACAAGAAAAGTGGAATCCAGGAAGTGGATAGAACCTTAGCAAAAGAAGG CATTAAAAGAGGAGAAACGGACCATCACGCTGTGTCGCGAGGCTCAGCAAAACTGAGATGGTTCGTTGAG AGAAACATGGTCACACCAGAAGGGAAAGTAGTGGACCTCGGTTGTGGCAGAGGAGGCTGGTCATACTATT GTGGAGGACTAAAGAATGTAAGAGAAGTCAAAGGCCTAACAAAAGGAGGACCAGGACACGAAGAACCCAT CCCCATGTCAACATATGGGTGGAATCTAGTGCGTCTTCAAAGTGGAGTTGACGTTTTCTTCATCCCGCCA GAAAAGTGTGACACATTATTGTGTGACATAGGGGAGTCATCACCAAATCCCACAGTGGAAGCAGGACGAA CACTCAGAGTCCTTAACTTAGTAGAAAATTGGTTGAACAACAACACTCAATTTTGCATAAAGGTTCTCAA CCCATATATGCCCTCAGTCATAGAAAAAATGGAAGCACTACAAAGGAAATATGGAGGAGCCTTAGTGAGG AATCCACTCTCACGAAACTCCACACATGAGATGTACTGGGTATCCAATGCTTCCGGGAACATAGTGTCAT CAGTGAACATGATTTCAAGGATGTTGATCAACAGATTTACAATGAGATACAAGAAAGCCACTTACGAGCC GGATGTTGACCTCGGAAGCGGAACCCGTAACATCGGGATTGAAAGTGAGATACCAAACCTAGATATAATT GGGAAAAGAATAGAAAAAATAAAGCAAGAGCATGAAACATCATGGCACTATGACCAAGACCACCCATACA AAACGTGGGCATACCATGGTAGCTATGAAACAAAACAGACTGGATCAGCATCATCCATGGTCAACGGAGT GGTCAGGCTGCTGACAAAACCTTGGGACGTCGTCCCCATGGTGACACAGATGGCAATGACAGACACGACT CCATTTGGACAACAGCGCGTTTTTAAAGAGAAAGTGGACACGAGAACCCAAGAACCGAAAGAAGGCACGA AGAAACTAATGAAAATAACAGCAGAGTGGCTTTGGAAAGAATTAGGGAAGAAAAAGACACCCAGGATGTG CACCAGAGAAGAATTCACAAGAAAGGTGAGAAGCAATGCAGCCTTGGGGGCCATATTCACTGATGAGAAC AAGTGGAAGTCGGCACGTGAGGCTGTTGAAGATAGTAGGTTTTGGGAGCTGGTTGACAAGGAAAGGAATC TCCATCTTGAAGGAAAGTGTGAAACATGTGTGTACAACATGATGGGAAAAAGAGAGAAGAAGCTAGGGGA ATTCGGCAAGGCAAAAGGCAGCAGAGCCATATGGTACATGTGGCTTGGAGCACGCTTCTTAGAGTTTGAA GCCCTAGGATTCTTAAATGAAGATCACTGGTTCTCCAGAGAGAACTCCCTGAGTGGAGTGGAAGGAGAAG GGCTGCACAAGCTAGGTTACATTCTAAGAGACGTGAGCAAGAAAGAGGGAGGAGCAATGTATGCCGATGA CACCGCAGGATGGGATACAAGAATCACACTAGAAGACCTAAAAAATGAAGAAATGGTAACAAACCACATG GAAGGAGAACACAAGAAACTAGCCGAGGCCATTTTCAAACTAACGTACCAAAACAAGGTGGTGCGTGTGC AAAGACCAACACCAAGAGGCACAGTAATGGACATCATATCGAGAAGAGACCAAAGAGGTAGTGGACAAGT TGGCACCTATGGACTCAATACTTTCACCAATATGGAAGCCCAACTAATCAGACAGATGGAGGGAGAAGGA GTCTTTAAAAGCATTCAGCACCTAACAATCACAGAAGAAATCGCTGTGCAAAACTGGTTAGCAAGAGTGG GGCGCGAAAGGTTATCAAGAATGGCCATCAGTGGAGATGATTGTGTTGTGAAACCTTTAGATGACAGGTT CGCAAGCGCTTTAACAGCTCTAAATGACATGGGAAAGATTAGGAAAGACATACAACAATGGGAACCTTCA AGAGGATGGAATGATTGGACACAAGTGCCCTTCTGTTCACACCATTTCCATGAGTTAATCATGAAAGACG GTCGCGTACTCGTTGTTCCATGTAGAAACCAAGATGAACTGATTGGCAGAGCCCGAATCTCCCAAGGAGC AGGGTGGTCTTTGCGGGAGACGGCCTGTTTGGGGAAGTCTTACGCCCAAATGTGGAGCTTGATGTACTTC CACAGACGCGACCTCAGGCTGGCGGCAAATGCTATTTGCTCGGCAGTACCATCACATTGGGTTCCAACAA GTCGAACAACCTGGTCCATACATGCTAAACATGAATGGATGACAACGGAAGACATGCTGACAGTCTGGAA CAGGGTGTGGATTCAAGAAAACCCATGGATGGAAGACAAAACTCCAGTGGAATCATGGGAGGAAATCCCA TACTTGGGGAAAAGAGAAGACCAATGGTGCGGCTCATTGATTGGGTTAACAAGCAGGGCCACCTGGGCAA AGAACATCCAAGCAGCAATAAATCAAGTTAGATCCCTTATAGGCAATGAAGAATACACAGATTACATGCC ATCCATGAAAAGATTCAGAAGAGAAGAGGAAGAAGCAGGAGTTCTGTGGTAGAAAGCAAAACTAACATGA AACAAGGCTAGAAGTCAGGTCGGATTAAGCCATAGTACGGAAAAAACTATGCTACCTGTGAGCCCCGTCC AAGGACGTTAAAAGAAGTCAGGCCATCATAAATGCCATAGCTTGAGTAAACTATGCAGCCTGTAGCTCCA CCTGAGAAGGTGTAAAAAATCCGGGAGGCCACAAACCATGGAAGCTGTACGCATGGCGTAGTGGACTAGC GGTTAGAGGAGACCCCTCCCTTACAAATCGCAGCAACAATGGGGGCCCAAGGCGAGATGAAGCTGTAGTC TCGCTGGAAGGACTAGAGGTTAGAGGAGACCCCCCCGAAACAAAAAACAGCATATTGACGCTGGGAAAGA CCAGAGATCCTGCTGTCTCCTCAGCATCATTCCAGGCACAGAACGCCAGAAAATGGAATGGTGCTGTTGA ATCAACAGGTTCT
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