Details of Virus RNA

  Strain Information Strain Name
Sendai virus
Strain Family
Paramyxoviridae
RNA Binding Site
5'UTR - 3'UTR
  Virus Information Virus Name
Sendai virus (SV)
Taxonomy ID 11191

Full list of proteins interacting with the 5'UTR - 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
Antiviral innate immune response receptor RIG-I O95786 Homo sapiens Pro Info . B95a Cells (Marmoset lymphoblastoid cell line) . . . . .
Antiviral innate immune response receptor RIG-I O95786 Homo sapiens Pro Info . B95a Cells (Marmoset lymphoblastoid cell line) . . . . .
Interferon-inducible protein 4 P55265 Homo sapiens Pro Info . B95a Cells (Marmoset lymphoblastoid cell line) . . . . .

Functional Go Enrichment analysis of those proteins interacting with the 5'UTR - 3'UTR of this Strain

GO Term GO Category GO ID Adjusted P-value Odds Ratio Combined Score
Double-Stranded RNA Binding Molecular Function GO:0003725 0.000135198 39870 457457.1177
tRNA-specific Adenosine Deaminase Activity Molecular Function GO:0008251 0.003899128 3332 24205.66527
Adenosine Deaminase Activity Molecular Function GO:0004000 0.003899128 2498.75 17524.58157
Ubiquitin-Protein Transferase Activator Activity Molecular Function GO:0097027 0.005197947 1332.2 8576.898814
Single-Stranded RNA Binding Molecular Function GO:0003727 0.010776907 475.1428571 2589.626019
RNA Binding Molecular Function GO:0003723 0.010776907 37178 197174.9945
GTP Binding Molecular Function GO:0005525 0.036518153 98.99 387.2543977
Guanyl Ribonucleotide Binding Molecular Function GO:0032561 0.036518153 87.88 333.5444626
Ubiquitin Protein Ligase Binding Molecular Function GO:0031625 0.03729925 73.06666667 264.1360897
Ubiquitin-Like Protein Ligase Binding Molecular Function GO:0044389 0.03729925 68.4375 243.0315772
Zinc Ion Binding Molecular Function GO:0008270 0.039957204 57.81764706 195.8283924
Transition Metal Ion Binding Molecular Function GO:0046914 0.047034498 42.95164835 133.1197518
Purine Ribonucleoside Triphosphate Binding Molecular Function GO:0035639 0.047034498 41.10105263 125.640737
Bicellular Tight Junction Cellular Component GO:0005923 0.035240227 248.975 1199.537771
Tight Junction Cellular Component GO:0070160 0.035240227 216.3695652 1012.621293
Apical Junction Complex Cellular Component GO:0043296 0.035240227 189.4571429 861.9428221
Actin Cytoskeleton Cellular Component GO:0015629 0.08108323 60.34355828 206.8921049
Cytoskeleton Cellular Component GO:0005856 0.109258005 32.44147157 91.81411946
Nucleolus Cellular Component GO:0005730 0.109258005 24.97142857 64.47858177
Nuclear Lumen Cellular Component GO:0031981 0.109258005 24.67137356 63.42314699
Intracellular Non-Membrane-Bounded Organelle Cellular Component GO:0043232 0.144915546 15.74874372 33.93456932
Nucleus Cellular Component GO:0005634 0.442639311 3.457868926 3.182486159
Intracellular Membrane-Bounded Organelle Cellular Component GO:0043231 0.450557627 2.865094704 2.28425203
Detection Of Virus Biological Process GO:0009597 0.007058577 4998.5 37993.74861
Adenosine To Inosine Editing Biological Process GO:0006382 0.007058577 3998.6 29664.54247
RIG-I Signaling Pathway Biological Process GO:0039529 0.007058577 3998.6 29664.54247
Positive Regulation Of Dendritic Cell Cytokine Production Biological Process GO:0002732 0.007058577 2855.857143 20365.3975
Positive Regulation Of Myeloid Leukocyte Mediated Immunity Biological Process GO:0002888 0.007058577 1817 12220.65208
Positive Regulation Of Granulocyte Macrophage Colony-Stimulating Factor Production Biological Process GO:0032725 0.007058577 1665.5 11068.4336
Cellular Response To Exogenous dsRNA Biological Process GO:0071360 0.007058577 1537.307692 10102.6154
Positive Regulation Of Response To Cytokine Stimulus Biological Process GO:0060760 0.007058577 1537.307692 10102.6154
Regulation Of Granulocyte Macrophage Colony-Stimulating Factor Production Biological Process GO:0032645 0.007058577 1427.428571 9282.083306
Positive Regulation Of Myeloid Leukocyte Cytokine Production Involved In Immune Response Biological Process GO:0061081 0.007058577 1332.2 8576.898814
Regulation Of Response To Cytokine Stimulus Biological Process GO:0060759 0.007058577 1332.2 8576.898814
Cellular Response To dsRNA Biological Process GO:0071359 0.007058577 1248.875 7964.758454
Base Conversion Or Substitution Editing Biological Process GO:0016553 0.007058577 1248.875 7964.758454
Positive Regulation Of Interferon-Alpha Production Biological Process GO:0032727 0.008095803 998.9 6159.553285
Cytosolic Pattern Recognition Receptor Signaling Pathway Biological Process GO:0002753 0.008253522 908 5516.475891
Response To dsRNA Biological Process GO:0043331 0.008253522 832.25 4986.91018
Regulation Of Interferon-Alpha Production Biological Process GO:0032647 0.008253522 798.92 4755.879686
Positive Regulation Of Defense Response To Virus By Host Biological Process GO:0002230 0.008394191 739.6666667 4348.372853
Response To Exogenous dsRNA Biological Process GO:0043330 0.00950558 587.1764706 3320.986753
Positive Regulation Of Interferon-Beta Production Biological Process GO:0032728 0.00950558 570.3714286 3209.886145

Functional KEGG Enrichment analysis of those proteins interacting with the 5'UTR - 3'UTR of this Strain

Pathways Category Adjusted P-value Odds Ratio Combined Score
Cytosolic DNA-sensing pathway KEGG Pathway 0.022835104 321.5483871 1629.854581
Measles KEGG Pathway 0.022835104 143.9130435 615.8516139
Influenza A KEGG Pathway 0.022835104 115.9473684 471.5739863
Coronavirus disease KEGG Pathway 0.023065852 85.57142857 322.5531146

Virus RNA Sequence Information

>AB039658.1 Sendai virus genomic RNA, complete genome ACCAAACAAGAGAAGAAACTTGTTTGGAATATATAATGAAGTTAGACAGGATTTTAGGGTCAAAGTATCC ACCCTGAAGAGCAGGTTCCAGACCCTTAACTTTGCTGCCAAAGTTCACGATGGCTGGGTTGTTGAGCACC TTCGACACGTTTAGCTCTAGGAGGAGTGAGAGTATTAATAAGTCAGGAGGAGGTGCTGTTATCCCCGGCC AGAGGAGCACAGTCTCAGTGTTCGTACTAGGCCCAAGTGTGACTGATGATGCAGACAAGTTATTCATTGC AACCACCTTCTTAGCTCACTCATTAGACACAGATAAGCAGCACTCTCAGAGAGGAGGGTTCCTAGTCTCC CTACTTGCCATGGCTTACAGTAGTCCAGAATTATACTTGACAACAAATGGAGTAAATGCCGATGTTAAGT ACGTGATCTACAACATAGAGAAGGACCCTAAGAGGACGAAGACGGATGGATTCATTGTGAAGACAAGGGA CATGGAATATGAGAGGACCACAGAGTGGCTGTTTGGACCTATGGTCAACAAGAGTCCGCTTTTCCAGGGG CAACGAGATGCTGCAGACCCTGATACGCTCCTTCAAATCTATGGGTATCCGGCATGCCTAGGGGCAATTA TTGTCCAGGTCTGGATTGTGCTGGTGAAGGCAATCACGAGTAGTGCCGGCCTAAGGAAAGGATTTTTCAA TAGATTAGAGGCTTTCAGACAAGATGGCACTGTGAAAGGTGCCTTAGTTTTCACTGGGGAGACAGTTGAG GGGATAGGCTCGGTCATGCGATCCCAGCAAAGCTTGGTATCTCTCATGGTTGAGACCCTTGTGACTATGA ACACTGCGAGGTCCGATCTCACTACACTAGAGAAGAACATCCAGATCGTTGGGAACTACATCCGAGATGC AGGACTAGCCTCTTTCATGAATACCATCAAATATGGGGTAGAGACAAAGATGGCGGCCTTAACGCTGTCA AACCTGAGGCCCGACATCAACAAGCTGAGAAGCCTCATAGACACCTACCTGTCAAAAGGACCCAGGGCTC CTTTTATTTGTATCCTAAAGGACCCTGTCCATGGTGAGTTTGCACCAGGCAACTATCCAGCACTCTGGAG CTATGCAATGGGAGTCGCCGTTGTACAGAACAAGGCGATGCAGCAGTACGTCACAGGGAGAACATACCTT GATATGGAGATGTTCTTACTAGGACAAGCTGTAGCAAAGGACGCTGAGTCCAAGATCAGCAGTGCTCTGG AGGACGAGCTAGGAGTGACAGATACGGCTAAGGAGAGGCTCAGACATCATTTGGCAAATCTGTCCGGTGG GGATGGCGCGTACCACAAGCCAACAGGCGGCGGTGCAATCGAGGTAGCTCTAGACAATGCCGACATAGAC CTGGAGCCTGAAGCTCACACAGATCAGGACGCCAGAGGTTGGGGTGGGGATAGCGGTGACAGATGGGCTC GCTCGACGAGTAGTGGCCACTTTATCACACTACATGGGGCAGAACGGTTGGAGGAGGAGACCAATGATGA AGATGTCTCCGACATAGAGAGAAGAATAGCTAGGAGGCTTGCAGAGAGACGGCAAGAGGACGCTACAACC CACGAAGACGAAGGCCGTAATAACGGTGTTGATCATGACGAAGAGGATGATGCCGCGGCAGCAGCTGGGA TGGGAGGAATCTAAGATCACACGAGGATTTAGGATACATGACCCGTAGTAAGAAAAACTTAGGGTGAAAG CTCATCCACCGATCCGCCCAGACCAGGCCACATCCAACTCCATTGACTACGCCCAGCAGTCCAGACAACC ACGGCTTCGGCTACACTTCCCGCATGGATCAAGATGCCCTCATTTCTAAAGAAGATTCTGAAGTTGAGAG GGAGGCGTCAGGAGGACGAGAGTCGCTCTCGGATGTTATCGGATTCCTCGACGCAGTCCTATCAAGTGAA CCAACTGACATCGGAGGAGACAGAAGCTGGCTCCACAATACCATCAACACCCTCCAAAGGCCAGGCTCTA CCCACAGAGCCAAAGGTGAGGGCGAGGGAGAAGTCTCGACATCGTCGACCCAAGATAATCGATCAGGTGA GGAGAGTAGAGTCTCTGGGGGAACAAGCGAGCCAGAGGCAGAAGCACATGCTAGAAACGTTGATAAACAA AATATACACTGGGCCACTGGGAGAGGAGCTAGTACAGACTCTGTACCTCAGGATCTGGGCAATGGAAGAG ACTCCGGAATCCTTGAAGATCCTCCAAATGAGGGAGGATATCCGAGATCAGGTGCTGAAGATGAAAACCG AGAGATGGCTGCGAACCCTGATAAGAGGGGAGAAGACCAAGCTGAAGGACTTCCAGAAGAGATACGAAGA AGTGCACCCCTACCTGATGAAGGAGAAGGTAGAGCAGATAATAATGGAAGAGGCGTGGAGTCTGGCAGCC CACATAGTGCAAGAGTGACTGGAGTCTTGGTGATCCCCAGTCCTGAGCTCGAAGAGGCCGTGCTACAAAG GAACAAGAGACGACCCGCCAACAGCGGGTCCAGATCTCTCACCCCAGTGGTCGTGCCTAGCACTCGGTCT CCACCACCGGACCATGACAATAGTACAAGGTCACCACCAAGGAAACCCCCAACCACGCAGGATGAGCACA CCAACCCCAGGAACACCCCCGCCGTCAGGATCAAGGATCGGAGACCCCCAACAGGGACTCGCTCCGCCCC AGACCGCCCGACCGACGGCTATCCAACCCACCCAGGTCCAGAGACCGACGCAACAAAAAAGGGCATAGGA GAGAACACATCATCTATGAAAGAGATGGCTACATTGTTAACGAGTCTTGGTGTAATCCAGTCTGCTCAAG AATTCGAGTCATCTCGAGACGCGAGTTATGTGTTTGCAAGGCGTGCCCTAAAATCTGCAAACTATGCAGA GATGACATTTAATGTATGCGGCTTGATCCTTTCTGCTGAGAAATCTTTCGCCAATAGAGTAGACGAGAAT AAACAGCTGCTTAAACAGATCCAAGAAAGTGTAGAGTCATTTCGGGACATATACAAGAGATTCTCTGAGT ATCAGAAGGAACAGAACTCACTGCTGATGTCTAACCTATCTACACTTCATATTATCACAGACAGAGGTGG CAAGACTGACAATCCAGATTCTCCCACAAGGTCCCCCTCTGTTTTTGCAAAAACAAAAGAGAACAAGACC AAAGCAACTAGGTTTGACCCGTCTATGGAGACCATGGGGGATATGAAGTATAAACCAGACCTACTCCGAG AGGATGAATTTAGAGATGAGATCCGCAACCCGGTGTACCAGGAAAGAGATACCGAACCCAGAGCATCCAA TGCATCACGTCTGCTTCCATCAAGAGAGAAGCCTACAATACACTCCCTCAGGCTCGTCATAGAGAGCAGT CCCCTAAGCAGAGCTGAAAAGGCAGCATATGTGAAATCATTATCCAAATGCAAGACAGACCAAGAGGTTA AGGCAGTCATGGAGCTTGTAGAAGAAGACATAGAATCACTGACTAATTAAGAACTAGGTGAGGCATCTAA TCATCCTCAGTAGTGGAGCGACCTAATTCATCATTAGCATCAGCCAGTAGAGATTAAGAAAAACTTAGGG TGAAAGAAATTTCACCTAATAAGATACAATGGCCGACATCTATAGATTCCCCAAGTTCTCATATGAGGAT AACGGTACTGTAGAGCCTCTGCCTCTGAGAACTGGTCCGGATAAGAAGGCCATCCCTCATATCAGGATTG TCAAGGTAGGAGACCCTCCAAAGCATGGAGTGAGATACCTAGATTTATTGCTCTTAGGCTTCTTTGAGAC GCCGAAGCAAACGGCCAGCTTAGGGAGTGTGTCCGACCTGACAGAGCACACCGGCTACTCAATCTGTGGC TCCGGATCGTTACCCATAGGTGTAGCTAAATACCACGGGTCTGATCAGGAACTCTTAAAGGCCTGCACTG ATCTCAGAATTACAGTGAGGAGGACTGTTCGAGCAGGGGAGATGATAGTATACATGGTGGATTCGATCGG TGCTCCACTCCTACCATGGTCGGGCAGGCTGAGACAGGGAATGATATTTAATGCCAACAAGGTCGCGCTT GCCCCCCAGTGCCTCCCGGTGGACAAGGACATAAGATTCAGAGTGGTGTTTGTCAATGGGACATCCCTGG GGGCGATCACTATAGCCAAGATCCCAAAGACTCTTGCAGACCTTGCATTGCCTAATTCTATCTCTGTTAA CCTACTAGTGACACTCAAGACCGGGATCCCCACGGAGCAAAAGGGGGTACTCCCAGTACTCGATGATCAA GGAGAGAAGAAGCTCAATTTTATGGTGCATCTTGGGTTGATCAGAAGAAAAGTCGGGAAGATATACTCCG TTGAGTACTGCAAGAGCAAGATCGAGAGGATGCGGCTGATCTTCTCACTTGGGTTAATTGGCGGCATAAG CTTCCATGTCCAGGTCACTGGGACCCTATCTAAGACATTCATGAGCCAGCTCGCATGGAAAAGAGCGGTC TGCTTCCCATTGATGGACGTGAATCCTCATATGAACCTGGTGATTTGGGCGGCGTCTGTTGAGATCACAG ACGTTGATGCGGTTTTCCAGCCGGCCATCCCTCGTGATTTCCGCTACTACCCTAATGTCGTGGCAAAGAA CATAGGGAGGATCAGGAAGCTGTAAATGTGCATCCATCAGGGACCTACGACAATGCCTAGAGCAGACACC ACTTGGCAGCCGGAGCCATAGCATTGCTCTTTGTATTAAGTAAGAAAAACTTAGGGATAAAGTCCCTTGC GCGTGCCCTGTCGTAGAACTTTCCTTTTGGGGAAAATGGCGACTTATATCCAGAGGGTACAGTGCATATC TGCATTATTGTCAGTTGTGCTCACAACACTGGTCTCGTGTCAAATTCCTAGAGATAGGCTCTCTAATATA GGGGTCATAGTCGACGAAGGGAAATCACTGAAGATTGCCGGGTCCCACGAATCTAGGTACATCGTATTAA GTCTGGTCCCAGGGGTAGACCTCGAAAATGGGTGCGGAACAGCTCAGGTTATCCAGTATAAGAGCCTACT GAACCGGTTGTTAATCCCATTGAGAGATGCCTTAGATCTTCAGGAGGCTCTGATAACTGTCACTAATGAC ACGATGACCAGTGCTGATGTCCCACAGTCAAGATTCTTCGGCGCCGTGATTGGGACCATAGCACTTGGAG TGGCAACATCAGCACAGATAACCGCAGGGATCGCGCTAGCTGAGGCGAGGGAGGCCAAGAGAGACATAGC ACTCATAAAAGAATCAATGACAAAGACACACAAATCTATAGAACTGCTGCAAAACGCTGTGGGGGAACAA ATTCTTGCTCTAAAGACGCTCCAGGATTTCGTGAATGATGAGATCAAACCCGCGATAAGCGAATTGGGTT GTGAGACTGCCGCTTTAAGACTGGGGATAAAACTGACACAACATTACTCCGAGCTGCTGACTGCATTTGG CTCTAACTTTGGAACCATCGGAGAGAAGAGCCTCACACTGCAGGCACTGTCTTCACTCTACTCTGCTAAC ATCACTGAGATTATGACCACGATCAGGACAGGGCAGTCCAACATCTATGACGTCATTTATACGGAGCAGA TCAAGGGAACTGTGATTGATGTAGATCTAGAGAGATACATGGTTACCCTGTCTGTGAAAATCCCCATTCT TTCTGAAGTTCCAGGTGTGCTTATACACAAGGCATCGTCTATTTCTTACAATATAGACGGGGAGGAGTGG TATGTGACTGTCCCCAGTCACATACTCAGTCGTGCCTCCTTCCTGGGGGGTGCAAACATAGCTGATTGTG TAGAGTCCAGATTGACCTACATATGCCCTAGGGATCCTGCACAATTGATACCTGACAGCCAGCAAAAATG TATCTTGGGGGACACAACAAGGTGTCCTGTCACAAAGGTTGTGGATAACCTCATCCCCAAATTTGCCTTT GTAAATGGAGGTGTCGTCGCGAACTGCATAGCATCCACATGTACCTGCGGGACAGGCCGAAGGCCAATCA GTCAGGATCGCTCTAAAGGTGTAGTATTCTTAACTCATGATAACTGTGGACTCATAGGAGTCAATGGGAT AGAATTGTATGCTAATAGGAAAGGGCATGATGCCACTTGGGGGGTCCAGAATTTGACAGTCGGTCCTGCA ATCGCTATCAGACCCGTGGACATTTCTCTCAACCTTGCCGCTGCTACTGACTTCCTGCAAGACTCTAGAG CTGAACTTGAGAAGGCACGAAAAATCCTCTCTGAAGTAGGTAGATGGTACAATTCAGGGGCGACTTTGAT TACGATCATAGTAGTCATGATTGTAGTATTGGTGGTCATTATAGTGATTGTCATTGTGCTCTACAGACTC AGGAGATCAATGCTAATGAGTAATCCAGCCGGTCGGATATCAAGAGACACATATACATTAGAGCCGAAGA TAAGGCATATGTATACTAACGGTGGGTTCGATGCTATGACTGAGAAAAGATGACCATAACTCTTGTTAGA TATTTGGTAAAGCAGGTATGGTATTTGCTGAGGTCTGTACATAATAAGAAAAACTTAGGGTGAAAGTTAG GTTGCTCACCACTATAGCTTTCACCTCAAATAAGTACAGATCATGGATGGTGACAGAAGCAAGCGGGACT CGTACTGGTCTACCTCCCCTGGTGGTAGCACTACAAAATTGGTGTCAGACTCAGAGAGGTCAGGTAAAGT TGATACCTGGCTATTGATTCTCGCATTCACCCAATGGGCTTTGTCAATTGCCACGGTTATCATTTGCATC GTAATCGCTGCTAGGCAAGGGTATAGTATGGAAAGATATTCAATGACCGTGGAGGCACTAAACACAAGCA ACAAAGAAGTGAAGGAGTCACTCACTAGTCTAATAAGGCAAGAGGTTATCACTAGAGCCGTTAACATTCA GAGTTCTGTGCAAACCGGGATCCCAGTCTTGTTGAACAAGAACAGCAGAGATGTCATCCAGCTGATTGAA AAGTCGTGCAATAGACAGGAGCTCACGCAACTTTGCGATAGCACAATTGCAGTCCATCATGCTGAGGGAA TTGCCCCACTTGAACCGCATAGCTTCTGGAGATGCCCTGCAGGAGAACCGTATCTAAGTTCAGACCCTGA AGTCTCATTGCTGCCTGGCCCAAGCCTGTTGTCTGGTTCGACAACGATCTCTGGATGTGTTAGGCTCCCT TCACTCTCAATTGGTGAGGCGATCTATGCCTATTCGTCAAATCTCATTACACAAGGCTGTGCTGACATAG GGAAGTCATATCAGGTCCTGCAGCTAGGGTATATATCACTAAATTCAGATATGTTTCCTGACCTTAACCC CGTAGTGTCCCACACTTATGACATCAACGACAACCGGAAATCGTGCTCGGTAGTGGCAACCGGGACCAGG GGTTATCAGCTCTGCTCCATGCCGACTGTAGACGAAAGAACTGACTACTCGAGTGATGGTATCGAAGATT TGGTCCTTGACATTCTGGATCTTAAAGGGAGGACTAAATCTCATCGGTATAGCAACAGTGAGATAGATCT TGACCACCCGTTTTCTGCATTATACCCTAGTGTGGGCAGCGGCATTGCAACAGAGGGTTCACTGATATTC CTTGGGTATGGTGGGCTAACCACCCCGCTACAAGGTGATACGAAATGTAGGATCCAAGGATGCCAACAGG TGTCGCAAGACACATGCAATGAAGCTCTGAAGATTACATGGCTGGGCGGGAAACAGGTAGTCAGTGTGCT CATCCAGGTTAATGATTATCTTTCAGAGAGACCAAGAATAAGAGTCACAACCGTTCCAATCACTCAGAAC TACCTCGGAGCAGAAGGCAGATTACTAAAATTGGGTGATCAAGTGTACATCTACACGAGATCATCAGGTT GGCATTCCCAACTGCAGATAGGGGTACTTGATGTCAGCCACCCTCTGACTATCAGCTGGACACCCCATGA AGCCTTGTCTAGGCCAGGAAACGAAGACTGCAATTGGTACAATACTTGTCCGAAGGAATGCATATCAGGT GTATATACCGACGCTTATCCCCTGTCTCCTGATGCAGCTAATGTAGCCACCGTTACGTTGTATGCCAACA CTTCACGCGTCAATCCAACAATCATGTATTCCAACACCACTAACATTATAAATATGTTAAGGATAAAAGA TGTCAAATTAGAGGCTGCATATACCACGACATCATGTATCACGCACTTTGGCAAAGGCTACTGTTTCCAC ATCATCGAGATCAACCAAAAGAGCTTGAACACCCTGCAACCTATGCTCTTTAAGACCAGCATTCCGAAGT TATGCAAGGCCGAGTCGTGAATTTCACCGATCAACAGGCTAGTCGGCTCTGCCGACACAGGGGTCATCAC TGGATACCCACAACATCTCCTAGTCTCTCACATTCTCCACAGTATTAAGAAAAACCCAGGGTGAATGGGA AGCCTGTCATTGGCTATGGACGGGCAAGAGTCCTCCCAAAACCCTTCTGACATACTCTATCCAGAATGTC ACCTGAACTCCCCTATAGTGAGGGGAAAGATAGCACAATTACACGTTTTGTTAGATGTTAACCAGCCCTA CATTCTGAAAGACGACAGTATAATTAATATCACAAAGCACAAAATCAGGAATGGGGGTTTGTCCCCTCGT CAGATTAAGATCAGATCTCTAGGCAAGGCTCTTCAACGCACAATAAAGGATCTAGACCGGTACACGTTTG AACCGTACCCAACCTACTCCCAGGAGTTACTTAGGCTCGATATACCAGAGATATGTGACAAGATCCGATC TGTTTTCGCGGTCTCGGATCGGCTGACTAAGGAGCTGTCTAATGGGTTCCAGGATCTCTGGTTGAATATC TTTAAGCAACTAGGTAACATAGAAGGGAGAGAGGGGTACGACCCATTGCAGGATATTAGCACCATCCCAG AGATAACTGAGAGGTATAGCAGGAACAAATGGTATAGGCCATTCCTAACTTGGTTCAGTATCAAATATGA TATGCGGTGGATGCAGAAAACTAGACCAGGGGGACCTCTAGATACCTCTAACTCACATAACCTTCTAGAA TGCAAATCATACACTCTAGTAACATATGGAGACCTTGTCATGATACTGAACAAGTTGACATTGACAGGGT ATATCCTAACACCTGAGCTGGTTCTGATGTATTGTGATGTTGTGGAAGGGAGGTGGAATATGTCTGCTGC AGGGCAGTTAGATAAAAGGTCTACTGGGATAACAAGCAAAGGAGAGGAGTTATGGGAGTTAGTGGATTCC CTCTTTTCGAGTCTCGGGGAGGAAATATACAATGTCATCGCATTACTCGAGCCTCTATCACTTGCTCTCA TACAATTAAGTGATCCTGTTATACCTCTACGTGGAGCATTTATGAGGCATGTGTTGACAGAGCTACAGAC TGTTTTGACGAGTAAAGACGTGTATACGGACCCGGAGGCAGATGCTATTGTGGAGTCGTTACTAGCTATA TTTCATGGGACTTCTATTGATGAGAAAGCAGAGATCTTTTCATTCTTTCGGACATTCGGTCATCCTAGCT TGGAAGCTGTCACCGCTGCCGACAAGGTGAGAGCTCATATGTATGCACAAAAGGCAATAAAGCTTAAGAC CCTACACGAGTGTCATGCAGTGTTCTGCACAATCATCATAAATGGATATAGAGAGAGGCATGGCGGGCAG TGGCCCCCTTGCGACTTCCCTGATCACGTGTGCCTGGAACTTAGAAATGCTCAAGGGTCCAATACGGCCA TCTCTTACGAGTGTGCAGTAGACAACTATACAAGTTTCATAGGCTTCAAGTTTCGGAAGTTTATAGAACC ACAACTGGATGAAGATCTCACGATATATATGAAGGACAAAGCATTATCGCCCAGGAAGGAAGCGTGGGAC TCTGTGTATCCAGACAGTAACCTGTACTATAAAGTTCCAGAGTCTGAAGAGACCAGGAGGCTCATCGAAG TGTTCATAAATGATGAGAATTTCAACCCAGAAGACATCATCGATTACGTGGAGTCAGGAGACTGGTTAAA AGATGAGAAGTTCAACATCTCGTATAGTTTGAAAGAGAAAGAGATCAAGCAAGAGGGCCGTCTGTTCGCA AAGATGACTTACAAAATGCGAGCTGTACAGGTCCTAGCAGAGACACTGTTGGCGAAAGGAATAGGAGAGT TGTTCAGCGAAAATGGAATGGTGAAAGGAGAGATAGACTTACTTAAAAGACTAACTACTCTCTCTGTCTC AGGAGTTCCTAGGACTGATTCAGTGTACAATAATCCTAGATCATCAGAGAAGAGAAATGAAGGCATGAAG AAGAGAAACTCAAAAGGGTACTGGGACGAAAAGAAGAGGTCGAGACATGAATTTAAAGCAACAGATTCAT CCACAGACGGTTATGAGACGTTAAGTTGCTTCCTAACAACAGACCTCAAGAAGTACTGCTTAAATTGGAG ATTTGAGAGCACTGCACTTTTCGGGCAGAGGTGCAACGAGATATTTGGCTTCAAGACCTTTTTCAATTGG ATGCATCCAGTCCTTGAAAAGTGTACAATATATGTTGGAGACCCTTACTGTCCGGTCGCCGACAGGATGC ATCGACAACTGCAAGATCATGCAGACTCTGGTATTTTCATACACAATCCTAGGGGAGGAATAGAAGGTTA TTGCCAGAAACTATGGACCTTAATCTCAATCAGTGCGATCCACCTAGCAGCTGTGAGGGTAGGTGTCAGG GTCTCTGCAATGGTTCAAGGCGACAATCAAGCTATAGCAGTAACATCAAGAGTACCCGTAGCCCAGACTT ACAAGCAGAAGAAAAATCATGTCTATGAAGAGATCACTCGTTATTTCGGTGCTCTAAGACATGTCATGTT TGATATAGGACATGAGCTAAAATTGAACGAGACCATCATTAGTAGTAAAATGTTTGTCTATAGTAAAAGG ATATATTATGATGGAAAGATCCTACCGCAATGTCTGAAGGCCTTGACTAGATGTGTATTCTGGTCCGAGA CATTGGTTGATGAGAACAGATCTGCTTGTTCCAATATCTCAACATCCATAGCAAAGGCCATCGAGAATGG GTATTCTCCTATACTAGGCTACTGCATTGCGTTGTACAAGACCTGTCAGCAAGTGTGTATATCATTAGGG ATGACTATAAATCCAACAATCAGCCCGACCGTAAGAGATCAATACTTTAAGGGTAAAAATTGGCTGAGAT GTGCAGTGTTAATTCCGGCCAATGTTGGGGGATTCAACTACATGTCTACATCTAGGTGCTTTGTCAGGAA TATTGGGGATCCGGCAGTCGCAGCCCTAGCTGATCTCAAGAGATTCATCAGAGCAGATCTTCTAGATAAA CAGGTGTTGTATAGGGTCATGAATCAAGAGCCTGGTGATTCTAGTTTTCTAGATTGGGCTTCAGATCCTT ATTCATGCAACCTTCCGCACTCTCAGAGTATAACTACAATTATAAAGAATATCACTGCTAGGTCTGTGCT GCAGGAATCTCCGAATCCTCTACTGTCTGGTCTTTTTACAGAGACCAGTGGCGAAGAGGATCTCAACCTG GCCTCGTTTCTTATGGACCGGAAAGTCATCCTACCTAGAGTGGCTCATGAGATCTTGGGTAATTCCTTAA CAGGGGTTAGAGAAGCAATTGCAGGGATGCTTGATACAACCAAGTCTCTAGTGAGAGCGAGTGTTAAGAG GGGAGGATTGTCATATGGGATATTGAGGAGACTTGTCAATTATGATCTGTTGCAGTACGAGACACTGACT AGGACTCTCAGGAAGCCGGTGAAAGACAACATTGAGTATGAGTATATGTGCTCAGTTGAGCTGGCTGTCG GTTTAAGGCAGAAGATGTGGATCCACCTGACGTATGGGAGACCTATACACGGGCTAGAAACACCAGACCC TTTAGAGCTCTTGAGGGGAACATTTATTGAAGGCTCAGAGGTGTGTAAGCTTTGCAGGTCTGAGGGAGCG GACCCCATCTATACATGGTTTTACCTCCCAGACAATATAGACCTGGATACACTTACAAACGGGAGTCCAG CTATACGGATTCCCTATTTTGGATCAGCAACTGATGAAAGATCAGAAGCTCAACTCGGATATGTAAGGAA TCTGAGTAAACCAGCAAAGGCGGCTATACGGATAGCTATGGTGTACACGTGGGCTTACGGGACCGATGAG ATATCGTGGATGGAAGCTGCTCTCATAGCCCAGACAAGGGCTAATCTGAGCTTAGAAAATCTAAAGCTGC TGACTCCTGTTTCAACATCAACTAATCTCTCTCATAGGTTAAAAGACACGGCAACCCAGATGAAGTTCTC CAGTGCAACACTAGTCCGTGCAAGTCGGTTCATAACAATATCAAATGACAACATGGCACTCAAAGAAGCA GGGGAGTCGAAGGACACTAATCTCGTATATCAGCAGATTATGCTCACTGGGCTAAGCTTGTTTGAGTTCA ATATGAGGTATAAGAAAGGTTCCTTAGAGAAGCCACTGATATTACACCTACATCTTAATAACGGGTGCTG TATAATGGAATCTCCACAGGAAGCAAATATCCCCCCAAGATCCACTTTGGATTTGGAAATCACACAAGAA AACAACAAATTGATCTATGATCCCGATCCACTCAGGGATGTAGACCTAGAGCTATTTAGCAAGGTCAGAG ATGTCGTACATACAGTTGACATGACCTATTGGTCAGACGATGAAGTTATCAGGGCTACTAGTATATGTAC TGCAATGACAATAGCTGATACAATGTCTCAATTAGATAGAGACAACTTAAAGGAGATGATAGCACTGGTA AATGATGATGATGTCAACAGCCTGATTACTGAGTTTATGGTGATTGATGTTCCTCTATTTTGCTCAACAT TCGGAGGTATCCTAGTCAATCAGTTTGCATACTCACTCTACGGCTTGAATATCAGAGGAAGGGAAGAAAT ATGGGGACACGTAGTCCGGATTCTGAAAGATACCTCCCACGCAGTCTTGAAAGTCTTATCCAATGCTCTG TCCCATCCCAAGATCTTCAAACGATTCTGGAATGCAGGTGTTGTAGAACCTGTGTATGGGCCTAACCTTT CAAATCAGGATAAGACACTACTAGCCCTCTCTGTATGTGAGTATTCTGTGGACCTATTCATGCACGACTG GCAAGGAGGTGTACCGCTTGAGGTCTTTATCTGTGATAATGACCCAGATGTGGCTGACATGAGGAGGTCC TCTTTCTTGGCTAGACACCTTGCATACCTGTGCAGCTTGGCAGAGATATCTAGGGATGGGCCAAGACTAG AGTCAATGAACTCTCTTGAGAGGCTAGAGACATTAAAGAGTTATCTGGAACTCACGTTCCTTGATGACCC TGTACTGAGGTACAGTCAATTGACTGGCTTAGTCATCAAAGTATTCCCGTCAACTTTGACCTACATCCGG AAGTCATCTATAAAGGTATTAAGAACAAGAGGAATAGGAGTCCCCGAAGTTTTAGAAGATTGGGACCCCG AGGCGGATAATGCACTGCTAGACGGCATCGCAGCAGAAATACAACAGAATATTCCCTTAGGACATCAGAC TAGAGCCCCTTTTTGGGGGCTGAGGGTATCCAAGTCACAGGTACTGCGTCTCCGGGGGTACGAGGAGATC ACAAGAGGTGAGGTAGGCAGATCAGGTGTTGGTCTGACGTTACCATTCGATGGAAGGTATCTATCTCACC AGCTGAGGCTCTTTGGTGTTAACAGTACTAGCTGCTTAAAAGCACTTGAACTTACCTACTTATTAAGCCC CTTGGTTGACAAGGATAAGGATAGGCTGTTTTTAGGGGAAGGAGCTGGGGCTATGCTCTCCTGTTATGAC GCTACTCTTGGCCCATGCATCAACTATTATAACTCGGGGGTATACTCTTGTGATGTCAATGGGCAGAGAG AGTTAAATATATATCCTGCTGAAGTGGCATTAGTGGGAAAGAAATTAAATAATGTTACCAGTCTAGGTCA GAGGGTTAAGGTGTTGTTCAACGGGAATCCTGGCTCGACATGGATCGGGAATGATGAATGTGAGGCTTTG ATTTGGAATGAACTACAGAATAGTTCGATAGGCCTAGTCCACTGTGACATGGAAGGAGGAGATCATAAGG ATGATCAAGTTGTACTGCATGAGCATTACAGTGTGATCAGGATTGCGTATCTGGTGGGGGATAGAGACGT TGTGCTGATAAGTAAGATTGCTCCCAGGCTGGGCACAGATTGGACCAGGCAGCTTAGCCTTTACCTGAGG TACTGGGATGAGGTCAACCTGGTAGTGCTTAAAACATCTAATCCTGCTTCTACAGAGATGTATCTCCTCT CAAGGCATCCCAAATCTGACATCATAGAAGATAGCAAGACAGTGCTGGCCAGTCTTCACCCTCTGTCAAA GGAAGACAGCATCAAGATAGAAAAGTGGATCTTGATAGAGAAAGCAAAGGCTCACGAATGGGTTACCCGG GAGTTGAGAGAAGGAAGCTCGTCGTCAGGGATGCTTAGACCTTACCACCAGGCACTGCAGACGTTTGGTT TTGAACCCAATTTATATAAACTGAGCAGGGATTTCCTGTCCACTATGAACATAGCTGACACTCACAACTG CATGACAGCCTTCAACAGAGTTTTAAAGGATACAATCTTTGAGTGGGCTAGAATAACCGAGTCAGACAAA AGGCTCAAACTAACTGGTAAGTATGACCTGTACCCTGTTAGAGACTCAGGCAAGTTGAAGACAATTTCTA GAAGACTTGTACTGTCTTGGGTATCATTATCTATGTCTACAAGACTGGTAACTGGGTCTTTCCCCGACCA AAAGTTTGAGGCAAGACTCCAATTAGGGATAGTTTCACTGTCATCTCGTGAAATCAGGAACCTGAGGGTT ATCACAAAAACTATATTAGATAGGTTTGAGAATACTATACATAGTATAACATATAGATTTCTCACCAAAG AAATAAAGATTTTGATGAAGATTTTAGGAGCTGTCAAGATGTTCGGGGCTAGGCAGAATGAATACACAAC CGTGGTTGATGATGGATCATTAGATGACATCGAGCCATATGACAGCTTGTGATAAGTAATCATTATCATG CAGGGTTATTTAAAATTCACGGTGTCTAGAAGTCTTGGACTTATCCATATGGCAATAGTAAGAAAAACTT ACAAGGAGACAAGAAAATTTGAAAGAATAAATATCTCTTAAACTCTTGTCTGGT
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