Details of Virus RNA

  Strain Information Strain Name
Dengue virus 2 (strain NGC)
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
Caprin-1 Q14444 Homo sapiens Pro Info Tobramycin RNA affinity chromatography and mass spectrometry HeLa Cells (Human cervical carcinoma cell) . Cervix 24 h . .
Interleukin enhancer-binding factor 3 Q12906 Homo sapiens Pro Info RNA affinity chromatography (RAC) K562 Cells (Human erythroleukemic cell line) . Bone 1 h 20 min . .
Interleukin enhancer-binding factor 3 Q12906 Homo sapiens Pro Info RNA affinity chromatography (RAC) K562 Cells (Human erythroleukemic cell line) . Bone 1 h 20 min . .
Interleukin enhancer-binding factor 3 Q12906 Homo sapiens Pro Info RNA affinity chromatography (RAC) K562 Cells (Human erythroleukemic cell line) . Bone . . .
Polyadenylate-binding protein 1 P11940 Homo sapiens Pro Info UV cross-linking followed by antisense-mediated affinity purification and mass spectrometry HuH-7 Cells (Human hepatocellular carcinoma cell) . Liver 30 h . .
Probable ATP-dependent RNA helicase DDX6 P26196 Homo sapiens Pro Info Tobramycin RNA affinity chromatography and mass spectrometry HeLa Cells (Human cervical carcinoma cell) . Cervix 24 h . .
Ras GTPase-activating protein-binding protein 1 Q13283 Homo sapiens Pro Info Tobramycin RNA affinity chromatography and mass spectrometry HeLa Cells (Human cervical carcinoma cell) . Cervix 24 h . .
Ras GTPase-activating protein-binding protein 2 Q9UN86 Homo sapiens Pro Info Tobramycin RNA affinity chromatography and mass spectrometry HeLa Cells (Human cervical carcinoma cell) . Cervix 24 h . .
Ubiquitin carboxyl-terminal hydrolase 10 Q14694 Homo sapiens Pro Info Tobramycin RNA affinity chromatography and mass spectrometry HeLa Cells (Human cervical carcinoma cell) . Cervix 24 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 1.27E-07 130123 2416911.832
mRNA Binding Molecular Function GO:0003729 1.27E-07 177.9422383 3260.241981
mRNA 3'-UTR Binding Molecular Function GO:0003730 0.003391977 87.48131868 675.6378419
Ribosomal Small Subunit Binding Molecular Function GO:0043024 0.025065584 221.9777778 1151.454594
poly RNA Binding Molecular Function GO:0008266 0.025065584 158.5079365 771.8855079
mRNA 3'-UTR AU-rich Region Binding Molecular Function GO:0035925 0.025065584 151.2954545 730.0602206
poly Binding Molecular Function GO:0008143 0.025065584 138.6736111 657.633561
Poly-Pyrimidine Tract Binding Molecular Function GO:0008187 0.025065584 138.6736111 657.633561
Poly-Purine Tract Binding Molecular Function GO:0070717 0.027603023 110.9055556 502.1914056
Single-Stranded RNA Binding Molecular Function GO:0003727 0.031992751 79.17063492 332.7292055
Signaling Receptor Complex Adaptor Activity Molecular Function GO:0030159 0.031992751 77.3255814 323.208935
Double-Stranded RNA Binding Molecular Function GO:0003725 0.043187428 51.8984375 196.840052
Ribosome Binding Molecular Function GO:0043022 0.051975629 39.50198413 139.3442448
Cysteine-Type Deubiquitinase Activity Molecular Function GO:0004843 0.055536271 34.18556701 115.7918426
Cysteine-Type Endopeptidase Activity Molecular Function GO:0004197 0.055906429 31.56825397 104.4871985
Deubiquitinase Activity Molecular Function GO:0101005 0.055906429 29.58482143 96.06136468
Cysteine-Type Peptidase Activity Molecular Function GO:0008234 0.066742395 23.13519814 69.61834103
ATP Binding Molecular Function GO:0005524 0.119689707 11.81954436 27.98838699
Adenyl Ribonucleotide Binding Molecular Function GO:0032559 0.122157934 10.65205628 24.18360917
Cadherin Binding Molecular Function GO:0045296 0.122157934 10.31184486 23.09817358
Cytoplasmic Stress Granule Cellular Component GO:0010494 2.31E-10 701.4788732 17508.37062
P-body Cellular Component GO:0000932 0.002820212 98.3308642 781.7682078
RISC Complex Cellular Component GO:0016442 0.024222686 277.5138889 1497.032601
Focal Adhesion Cellular Component GO:0005925 0.024483622 20.37194805 100.0778962
Cell-Substrate Junction Cellular Component GO:0030055 0.024483622 19.94910941 97.21004916
Cytoskeleton Cellular Component GO:0005856 0.045377742 12.99564489 52.93857577
Intermediate Filament Cytoskeleton Cellular Component GO:0045111 0.064027049 41.48541667 148.3156835
Nucleus Cellular Component GO:0005634 0.091272345 4.612982378 13.8890633
Adherens Junction Cellular Component GO:0005912 0.091272345 22.19686801 65.90852935
Intracellular Non-Membrane-Bounded Organelle Cellular Component GO:0043232 0.098056802 6.303436714 17.60053154
Intracellular Membrane-Bounded Organelle Cellular Component GO:0043231 0.114733221 3.821826855 9.706825319
Cell-Cell Junction Cellular Component GO:0005911 0.12457366 11.01510067 25.35377186
Early Endosome Cellular Component GO:0005769 0.12457366 10.72276688 24.41057379
Actin Cytoskeleton Cellular Component GO:0015629 0.12457366 10.05470348 22.28513906
Nucleolus Cellular Component GO:0005730 0.243087881 4.160822511 5.927537344
Nuclear Lumen Cellular Component GO:0031981 0.243087881 4.110825845 5.814073568
Regulation Of Stress Granule Assembly Biological Process GO:0062028 2.47E-08 7496.625 165384.1851
Stress Granule Assembly Biological Process GO:0034063 2.14E-06 713.2857143 11950.14616
Non-Membrane-Bounded Organelle Assembly Biological Process GO:0140694 2.14E-06 202.1577608 3335.18427
Positive Regulation Of Organelle Assembly Biological Process GO:1902117 2.20E-05 257.7801724 3578.249232
Negative Regulation Of Gene Expression Biological Process GO:0010629 4.95E-05 78.95983936 1014.472104
Negative Regulation Of Amide Metabolic Process Biological Process GO:0034249 5.27E-05 165.8583333 2090.364696
Negative Regulation Of Macromolecule Biosynthetic Process Biological Process GO:0010558 5.29E-05 157.0894737 1955.023357
Negative Regulation Of Translation Biological Process GO:0017148 6.03E-05 143.4302885 1747.043328
Negative Regulation Of Cellular Biosynthetic Process Biological Process GO:0031327 0.000112654 111.1511194 1271.264429
Negative Regulation Of Protein Metabolic Process Biological Process GO:0051248 0.000125251 103.3802083 1160.536249
Regulation Of Translation Biological Process GO:0006417 0.000294665 74.60050251 766.5254762
Regulation Of Viral Genome Replication Biological Process GO:0045069 0.001798968 122.6338462 1027.540438
Small GTPase Mediated Signal Transduction Biological Process GO:0007264 0.004633662 72.30181818 531.6174204
Ras Protein Signal Transduction Biological Process GO:0007265 0.007088873 55.91830986 383.2342564
Negative Regulation Of Nuclear-Transcribed mRNA Catabolic Process, Nonsense-Mediated Decay Biological Process GO:2000623 0.010959877 832.875 5287.7225
Cytoplasmic Sequestering Of NF-kappaB Biological Process GO:0007253 0.014380552 555.1944444 3338.153583
Positive Regulation Of Dendritic Spine Morphogenesis Biological Process GO:0061003 0.015465848 475.8571429 2797.6605
CRD-mediated mRNA Stabilization Biological Process GO:0070934 0.01641773 370.0740741 2093.271349
Regulation Of Nuclear-Transcribed mRNA Catabolic Process, Nonsense-Mediated Decay Biological Process GO:2000622 0.01641773 370.0740741 2093.271349
P-body Assembly Biological Process GO:0033962 0.01641773 333.05 1852.156675

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

Pathways Category Adjusted P-value Odds Ratio Combined Score
RNA degradation KEGG Pathway 0.000958148 103.4597403 832.7599738
mRNA surveillance pathway KEGG Pathway 0.05070703 34.18556701 115.7918426
RNA transport KEGG Pathway 0.063320574 17.84504505 49.24420449

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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