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Full list of proteins interacting with the 5'UTR - 40S ribosomal subunit 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 |
|---|---|---|---|---|---|---|---|---|---|---|
| E3 ubiquitin-protein ligase ZNF598 | Q86UK7 | Homo sapiens | Pro Info | RNA immunoprecipitation (IP) | HAP1 Cells (Nearly haploid human cell line) | . | Subhaploid cells | 72 h | . | . |
| PAI1 RNA-binding protein 1 | Q8NC51 | Homo sapiens | Pro Info | RNA immunoprecipitation (IP) | HAP1 Cells (Nearly haploid human cell line) | . | Subhaploid cells | 72 h | . | . |
| Receptor of activated protein C kinase 1 | P63244 | Homo sapiens | Pro Info | RNA immunoprecipitation (IP) | HAP1 Cells (Nearly haploid human cell line) | . | Subhaploid cells | 72 h | . | . |
| Vigilin | Q00341 | Homo sapiens | Pro Info | RNA immunoprecipitation (IP) | HAP1 Cells (Nearly haploid human cell line) | . | Subhaploid cells | 72 h | . | . |
Functional Go Enrichment analysis of those proteins interacting with the 5'UTR - 40S ribosomal subunit of this Strain
| GO Term | GO Category | GO ID | Adjusted P-value | Odds Ratio | Combined Score |
|---|---|---|---|---|---|
| Ribosome Binding | Molecular Function |
GO:0043022
|
7.68E-06 | 728.5609756 | 10953.83978 |
| Cadherin Binding | Molecular Function |
GO:0045296
|
0.000206563 | 186.835443 | 2064.504583 |
| RNA Binding | Molecular Function |
GO:0003723
|
0.000213845 | 74356 | 788898.1163 |
| BH Domain Binding | Molecular Function |
GO:0051400
|
0.004455375 | 1666 | 11508.8581 |
| BH3 Domain Binding | Molecular Function |
GO:0051434
|
0.004455375 | 1666 | 11508.8581 |
| mRNA Binding | Molecular Function |
GO:0003729
|
0.004455375 | 70.41428571 | 475.5549582 |
| Protein Tyrosine Kinase Inhibitor Activity | Molecular Function |
GO:0030292
|
0.004455375 | 1332.733333 | 8963.738321 |
| Death Domain Binding | Molecular Function |
GO:0070513
|
0.006495493 | 740.2592593 | 4600.934596 |
| SUMO Binding | Molecular Function |
GO:0032183
|
0.008080871 | 512.3846154 | 3012.374505 |
| Ubiquitin-Protein Transferase Activator Activity | Molecular Function |
GO:0097027
|
0.008310512 | 444.0222222 | 2551.238662 |
| Cysteine-Type Endopeptidase Activator Activity Involved In Apoptotic Process | Molecular Function |
GO:0008656
|
0.009440942 | 350.4736842 | 1935.631384 |
| Peptidase Activator Activity Involved In Apoptotic Process | Molecular Function |
GO:0016505
|
0.009518193 | 317.0634921 | 1720.938245 |
| SH2 Domain Binding | Molecular Function |
GO:0042169
|
0.012371972 | 221.8444444 | 1128.183024 |
| Ion Channel Inhibitor Activity | Molecular Function |
GO:0008200
|
0.012447129 | 195.7058824 | 971.5637664 |
| Protein Kinase C Binding | Molecular Function |
GO:0005080
|
0.012447129 | 190.1047619 | 938.416342 |
| Protein Kinase Inhibitor Activity | Molecular Function |
GO:0004860
|
0.014576648 | 151.1515152 | 712.50441 |
| Receptor Tyrosine Kinase Binding | Molecular Function |
GO:0030971
|
0.017968527 | 114.5862069 | 509.2230235 |
| Protein Tyrosine Kinase Binding | Molecular Function |
GO:1990782
|
0.024401076 | 79.01587302 | 322.4521485 |
| mRNA 3'-UTR Binding | Molecular Function |
GO:0003730
|
0.025277334 | 72.11594203 | 287.8511247 |
| Phosphatase Binding | Molecular Function |
GO:0019902
|
0.028233423 | 59.71471471 | 227.3357714 |
| Cytosolic Small Ribosomal Subunit | Cellular Component |
GO:0022627
|
0.025122332 | 166.3 | 799.3430733 |
| Small Ribosomal Subunit | Cellular Component |
GO:0015935
|
0.025122332 | 162.2357724 | 775.910493 |
| Nucleus | Cellular Component |
GO:0005634
|
0.066994599 | 10.37823372 | 34.06144411 |
| Dendrite | Cellular Component |
GO:0030425
|
0.066994599 | 24.4448575 | 71.84281945 |
| Intracellular Membrane-Bounded Organelle | Cellular Component |
GO:0043231
|
0.066994599 | 8.598607889 | 24.81098062 |
| Neuron Projection | Cellular Component |
GO:0043005
|
0.106839426 | 11.65467626 | 26.06484739 |
| Rescue Of Stalled Ribosome | Biological Process |
GO:0072344
|
0.000735188 | 951.1904762 | 11214.62696 |
| Translational Elongation | Biological Process |
GO:0006414
|
0.001249412 | 498.9 | 5271.69962 |
| Negative Regulation Of Amide Metabolic Process | Biological Process |
GO:0034249
|
0.003277506 | 218.7362637 | 1961.384362 |
| Negative Regulation Of Macromolecule Biosynthetic Process | Biological Process |
GO:0010558
|
0.003277506 | 207.2916667 | 1837.005192 |
| Negative Regulation Of Translation | Biological Process |
GO:0017148
|
0.003277506 | 189.4380952 | 1645.448971 |
| Negative Regulation Of Cellular Biosynthetic Process | Biological Process |
GO:0031327
|
0.004418102 | 147.1185185 | 1205.133252 |
| Negative Regulation Of Protein Metabolic Process | Biological Process |
GO:0051248
|
0.004418102 | 136.9034483 | 1102.188571 |
| Regulation Of Translation | Biological Process |
GO:0006417
|
0.007286557 | 98.98 | 734.1340231 |
| PML Body Organization | Biological Process |
GO:0030578
|
0.009693275 | 1666 | 11508.8581 |
| Positive Regulation Of Gastrulation | Biological Process |
GO:2000543
|
0.009693275 | 1332.733333 | 8963.738321 |
| Positive Regulation Of Membrane Depolarization | Biological Process |
GO:1904181
|
0.009693275 | 1332.733333 | 8963.738321 |
| Ribosome-Associated Ubiquitin-Dependent Protein Catabolic Process | Biological Process |
GO:1990116
|
0.009693275 | 1332.733333 | 8963.738321 |
| Regulation Of Golgi To Plasma Membrane Protein Transport | Biological Process |
GO:0042996
|
0.009693275 | 1110.555556 | 7298.297606 |
| Regulation Of Cyclic-Nucleotide Phosphodiesterase Activity | Biological Process |
GO:0051342
|
0.009693275 | 1110.555556 | 7298.297606 |
| Negative Regulation Of Oxidative Stress-Induced Neuron Death | Biological Process |
GO:1903204
|
0.009693275 | 951.8571429 | 6128.338527 |
| Negative Regulation Of Gene Expression | Biological Process |
GO:0010629
|
0.009693275 | 58.86826347 | 377.1290732 |
| Regulation Of Endoplasmic Reticulum Unfolded Protein Response | Biological Process |
GO:1900101
|
0.009693275 | 832.8333333 | 5263.996189 |
| Protein Modification By Small Protein Conjugation | Biological Process |
GO:0032446
|
0.009693275 | 54.23756906 | 338.8704968 |
| Negative Regulation Of Hydrogen Peroxide-Induced Cell Death | Biological Process |
GO:1903206
|
0.009693275 | 740.2592593 | 4600.934596 |
| Regulation Of Mitochondrial Depolarization | Biological Process |
GO:0051900
|
0.009693275 | 740.2592593 | 4600.934596 |
Functional KEGG Enrichment analysis of those proteins interacting with the 5'UTR - 40S ribosomal subunit of this Strain
| Pathways | Category | Adjusted P-value | Odds Ratio | Combined Score |
|---|---|---|---|---|
| Measles | KEGG Pathway | 0.02751339 | 47.96618357 | 172.3464544 |
Virus RNA Sequence Information
|
>NC_001477.1 Dengue virus 1, complete genome
AGTTGTTAGTCTACGTGGACCGACAAGAACAGTTTCGAATCGGAAGCTTGCTTAACGTAGTTCTAACAGT
TTTTTATTAGAGAGCAGATCTCTGATGAACAACCAACGGAAAAAGACGGGTCGACCGTCTTTCAATATGC
TGAAACGCGCGAGAAACCGCGTGTCAACTGTTTCACAGTTGGCGAAGAGATTCTCAAAAGGATTGCTTTC
AGGCCAAGGACCCATGAAATTGGTGATGGCTTTTATAGCATTCCTAAGATTTCTAGCCATACCTCCAACA
GCAGGAATTTTGGCTAGATGGGGCTCATTCAAGAAGAATGGAGCGATCAAAGTGTTACGGGGTTTCAAGA
AAGAAATCTCAAACATGTTGAACATAATGAACAGGAGGAAAAGATCTGTGACCATGCTCCTCATGCTGCT
GCCCACAGCCCTGGCGTTCCATCTGACCACCCGAGGGGGAGAGCCGCACATGATAGTTAGCAAGCAGGAA
AGAGGAAAATCACTTTTGTTTAAGACCTCTGCAGGTGTCAACATGTGCACCCTTATTGCAATGGATTTGG
GAGAGTTATGTGAGGACACAATGACCTACAAATGCCCCCGGATCACTGAGACGGAACCAGATGACGTTGA
CTGTTGGTGCAATGCCACGGAGACATGGGTGACCTATGGAACATGTTCTCAAACTGGTGAACACCGACGA
GACAAACGTTCCGTCGCACTGGCACCACACGTAGGGCTTGGTCTAGAAACAAGAACCGAAACGTGGATGT
CCTCTGAAGGCGCTTGGAAACAAATACAAAAAGTGGAGACCTGGGCTCTGAGACACCCAGGATTCACGGT
GATAGCCCTTTTTCTAGCACATGCCATAGGAACATCCATCACCCAGAAAGGGATCATTTTTATTTTGCTG
ATGCTGGTAACTCCATCCATGGCCATGCGGTGCGTGGGAATAGGCAACAGAGACTTCGTGGAAGGACTGT
CAGGAGCTACGTGGGTGGATGTGGTACTGGAGCATGGAAGTTGCGTCACTACCATGGCAAAAGACAAACC
AACACTGGACATTGAACTCTTGAAGACGGAGGTCACAAACCCTGCCGTCCTGCGCAAACTGTGCATTGAA
GCTAAAATATCAAACACCACCACCGATTCGAGATGTCCAACACAAGGAGAAGCCACGCTGGTGGAAGAAC
AGGACACGAACTTTGTGTGTCGACGAACGTTCGTGGACAGAGGCTGGGGCAATGGTTGTGGGCTATTCGG
AAAAGGTAGCTTAATAACGTGTGCTAAGTTTAAGTGTGTGACAAAACTGGAAGGAAAGATAGTCCAATAT
GAAAACTTAAAATATTCAGTGATAGTCACCGTACACACTGGAGACCAGCACCAAGTTGGAAATGAGACCA
CAGAACATGGAACAACTGCAACCATAACACCTCAAGCTCCCACGTCGGAAATACAGCTGACAGACTACGG
AGCTCTAACATTGGATTGTTCACCTAGAACAGGGCTAGACTTTAATGAGATGGTGTTGTTGACAATGAAA
AAAAAATCATGGCTCGTCCACAAACAATGGTTTCTAGACTTACCACTGCCTTGGACCTCGGGGGCTTCAA
CATCCCAAGAGACTTGGAATAGACAAGACTTGCTGGTCACATTTAAGACAGCTCATGCAAAAAAGCAGGA
AGTAGTCGTACTAGGATCACAAGAAGGAGCAATGCACACTGCGTTGACTGGAGCGACAGAAATCCAAACG
TCTGGAACGACAACAATTTTTGCAGGACACCTGAAATGCAGATTAAAAATGGATAAACTGATTTTAAAAG
GGATGTCATATGTAATGTGCACAGGGTCATTCAAGTTAGAGAAGGAAGTGGCTGAGACCCAGCATGGAAC
TGTTCTAGTGCAGGTTAAATACGAAGGAACAGATGCACCATGCAAGATCCCCTTCTCGTCCCAAGATGAG
AAGGGAGTAACCCAGAATGGGAGATTGATAACAGCCAACCCCATAGTCACTGACAAAGAAAAACCAGTCA
ACATTGAAGCGGAGCCACCTTTTGGTGAGAGCTACATTGTGGTAGGAGCAGGTGAAAAAGCTTTGAAACT
AAGCTGGTTCAAGAAGGGAAGCAGTATAGGGAAAATGTTTGAAGCAACTGCCCGTGGAGCACGAAGGATG
GCCATCCTGGGAGACACTGCATGGGACTTCGGTTCTATAGGAGGGGTGTTCACGTCTGTGGGAAAACTGA
TACACCAGATTTTTGGGACTGCGTATGGAGTTTTGTTCAGCGGTGTTTCTTGGACCATGAAGATAGGAAT
AGGGATTCTGCTGACATGGCTAGGATTAAACTCAAGGAGCACGTCCCTTTCAATGACGTGTATCGCAGTT
GGCATGGTCACACTGTACCTAGGAGTCATGGTTCAGGCGGACTCGGGATGTGTAATCAACTGGAAAGGCA
GAGAACTCAAATGTGGAAGCGGCATTTTTGTCACCAATGAAGTCCACACCTGGACAGAGCAATATAAATT
CCAGGCCGACTCCCCTAAGAGACTATCAGCGGCCATTGGGAAGGCATGGGAGGAGGGTGTGTGTGGAATT
CGATCAGCCACTCGTCTCGAGAACATCATGTGGAAGCAAATATCAAATGAATTAAACCACATCTTACTTG
AAAATGACATGAAATTTACAGTGGTCGTAGGAGACGTTAGTGGAATCTTGGCCCAAGGAAAGAAAATGAT
TAGGCCACAACCCATGGAACACAAATACTCGTGGAAAAGCTGGGGAAAAGCCAAAATCATAGGAGCAGAT
GTACAGAATACCACCTTCATCATCGACGGCCCAAACACCCCAGAATGCCCTGATAACCAAAGAGCATGGA
ACATTTGGGAAGTTGAAGACTATGGATTTGGAATTTTCACGACAAACATATGGTTGAAATTGCGTGACTC
CTACACTCAAGTGTGTGACCACCGGCTAATGTCAGCTGCCATCAAGGATAGCAAAGCAGTCCATGCTGAC
ATGGGGTACTGGATAGAAAGTGAAAAGAACGAGACTTGGAAGTTGGCAAGAGCCTCCTTCATAGAAGTTA
AGACATGCATCTGGCCAAAATCCCACACTCTATGGAGCAATGGAGTCCTGGAAAGTGAGATGATAATCCC
AAAGATATATGGAGGACCAATATCTCAGCACAACTACAGACCAGGATATTTCACACAAACAGCAGGGCCG
TGGCACTTGGGCAAGTTAGAACTAGATTTTGATTTATGTGAAGGTACCACTGTTGTTGTGGATGAACATT
GTGGAAATCGAGGACCATCTCTTAGAACCACAACAGTCACAGGAAAGACAATCCATGAATGGTGCTGTAG
ATCTTGCACGTTACCCCCCCTACGTTTCAAAGGAGAAGACGGGTGCTGGTACGGCATGGAAATCAGACCA
GTCAAGGAGAAGGAAGAGAACCTAGTTAAGTCAATGGTCTCTGCAGGGTCAGGAGAAGTGGACAGTTTTT
CACTAGGACTGCTATGCATATCAATAATGATCGAAGAGGTAATGAGATCCAGATGGAGCAGAAAAATGCT
GATGACTGGAACATTGGCTGTGTTCCTCCTTCTCACAATGGGACAATTGACATGGAATGATCTGATCAGG
CTATGTATCATGGTTGGAGCCAACGCTTCAGACAAGATGGGGATGGGAACAACGTACCTAGCTTTGATGG
CCACTTTCAGAATGAGACCAATGTTCGCAGTCGGGCTACTGTTTCGCAGATTAACATCTAGAGAAGTTCT
TCTTCTTACAGTTGGATTGAGTCTGGTGGCATCTGTAGAACTACCAAATTCCTTAGAGGAGCTAGGGGAT
GGACTTGCAATGGGCATCATGATGTTGAAATTACTGACTGATTTTCAGTCACATCAGCTATGGGCTACCT
TGCTGTCTTTAACATTTGTCAAAACAACTTTTTCATTGCACTATGCATGGAAGACAATGGCTATGATACT
GTCAATTGTATCTCTCTTCCCTTTATGCCTGTCCACGACTTCTCAAAAAACAACATGGCTTCCGGTGTTG
CTGGGATCTCTTGGATGCAAACCACTAACCATGTTTCTTATAACAGAAAACAAAATCTGGGGAAGGAAAA
GCTGGCCTCTCAATGAAGGAATTATGGCTGTTGGAATAGTTAGCATTCTTCTAAGTTCACTTCTCAAGAA
TGATGTGCCACTAGCTGGCCCACTAATAGCTGGAGGCATGCTAATAGCATGTTATGTCATATCTGGAAGC
TCGGCCGATTTATCACTGGAGAAAGCGGCTGAGGTCTCCTGGGAAGAAGAAGCAGAACACTCTGGTGCCT
CACACAACATACTAGTGGAGGTCCAAGATGATGGAACCATGAAGATAAAGGATGAAGAGAGAGATGACAC
ACTCACCATTCTCCTCAAAGCAACTCTGCTAGCAATCTCAGGGGTATACCCAATGTCAATACCGGCGACC
CTCTTTGTGTGGTATTTTTGGCAGAAAAAGAAACAGAGATCAGGAGTGCTATGGGACACACCCAGCCCTC
CAGAAGTGGAAAGAGCAGTCCTTGATGATGGCATTTATAGAATTCTCCAAAGAGGATTGTTGGGCAGGTC
TCAAGTAGGAGTAGGAGTTTTTCAAGAAGGCGTGTTCCACACAATGTGGCACGTCACCAGGGGAGCTGTC
CTCATGTACCAAGGGAAGAGACTGGAACCAAGTTGGGCCAGTGTCAAAAAAGACTTGATCTCATATGGAG
GAGGTTGGAGGTTTCAAGGATCCTGGAACGCGGGAGAAGAAGTGCAGGTGATTGCTGTTGAACCGGGGAA
GAACCCCAAAAATGTACAGACAGCGCCGGGTACCTTCAAGACCCCTGAAGGCGAAGTTGGAGCCATAGCT
CTAGACTTTAAACCCGGCACATCTGGATCTCCTATCGTGAACAGAGAGGGAAAAATAGTAGGTCTTTATG
GAAATGGAGTGGTGACAACAAGTGGTACCTACGTCAGTGCCATAGCTCAAGCTAAAGCATCACAAGAAGG
GCCTCTACCAGAGATTGAGGACGAGGTGTTTAGGAAAAGAAACTTAACAATAATGGACCTACATCCAGGA
TCGGGAAAAACAAGAAGATACCTTCCAGCCATAGTCCGTGAGGCCATAAAAAGAAAGCTGCGCACGCTAG
TCTTAGCTCCCACAAGAGTTGTCGCTTCTGAAATGGCAGAGGCGCTCAAGGGAATGCCAATAAGGTATCA
GACAACAGCAGTGAAGAGTGAACACACGGGAAAGGAGATAGTTGACCTTATGTGTCACGCCACTTTCACT
ATGCGTCTCCTGTCTCCTGTGAGAGTTCCCAATTATAATATGATTATCATGGATGAAGCACATTTTACCG
ATCCAGCCAGCATAGCAGCCAGAGGGTATATCTCAACCCGAGTGGGTATGGGTGAAGCAGCTGCGATTTT
CATGACAGCCACTCCCCCCGGATCGGTGGAGGCCTTTCCACAGAGCAATGCAGTTATCCAAGATGAGGAA
AGAGACATTCCTGAAAGATCATGGAACTCAGGCTATGACTGGATCACTGATTTCCCAGGTAAAACAGTCT
GGTTTGTTCCAAGCATCAAATCAGGAAATGACATTGCCAACTGTTTAAGAAAGAATGGGAAACGGGTGGT
CCAATTGAGCAGAAAAACTTTTGACACTGAGTACCAGAAAACAAAAAATAACGACTGGGACTATGTTGTC
ACAACAGACATATCCGAAATGGGAGCAAACTTCCGAGCCGACAGGGTAATAGACCCGAGGCGGTGCCTGA
AACCGGTAATACTAAAAGATGGCCCAGAGCGTGTCATTCTAGCCGGACCGATGCCAGTGACTGTGGCTAG
CGCCGCCCAGAGGAGAGGAAGAATTGGAAGGAACCAAAATAAGGAAGGCGATCAGTATATTTACATGGGA
CAGCCTCTAAACAATGATGAGGACCACGCCCATTGGACAGAAGCAAAAATGCTCCTTGACAACATAAACA
CACCAGAAGGGATTATCCCAGCCCTCTTTGAGCCGGAGAGAGAAAAGAGTGCAGCAATAGACGGGGAATA
CAGACTACGGGGTGAAGCGAGGAAAACGTTCGTGGAGCTCATGAGAAGAGGAGATCTACCTGTCTGGCTA
TCCTACAAAGTTGCCTCAGAAGGCTTCCAGTACTCCGACAGAAGGTGGTGCTTTGATGGGGAAAGGAACA
ACCAGGTGTTGGAGGAGAACATGGACGTGGAGATCTGGACAAAAGAAGGAGAAAGAAAGAAACTACGACC
CCGCTGGCTGGATGCCAGAACATACTCTGACCCACTGGCTCTGCGCGAATTCAAAGAGTTCGCAGCAGGA
AGAAGAAGCGTCTCAGGTGACCTAATATTAGAAATAGGGAAACTTCCACAACATTTAACGCAAAGGGCCC
AGAACGCCTTGGACAATCTGGTTATGTTGCACAACTCTGAACAAGGAGGAAAAGCCTATAGACACGCCAT
GGAAGAACTACCAGACACCATAGAAACGTTAATGCTCCTAGCTTTGATAGCTGTGCTGACTGGTGGAGTG
ACGTTGTTCTTCCTATCAGGAAGGGGTCTAGGAAAAACATCCATTGGCCTACTCTGCGTGATTGCCTCAA
GTGCACTGTTATGGATGGCCAGTGTGGAACCCCATTGGATAGCGGCCTCTATCATACTGGAGTTCTTTCT
GATGGTGTTGCTTATTCCAGAGCCGGACAGACAGCGCACTCCACAAGACAACCAGCTAGCATACGTGGTG
ATAGGTCTGTTATTCATGATATTGACAGTGGCAGCCAATGAGATGGGATTACTGGAAACCACAAAGAAGG
ACCTGGGGATTGGTCATGCAGCTGCTGAAAACCACCATCATGCTGCAATGCTGGACGTAGACCTACATCC
AGCTTCAGCCTGGACTCTCTATGCAGTGGCCACAACAATTATCACTCCCATGATGAGACACACAATTGAA
AACACAACGGCAAATATTTCCCTGACAGCTATTGCAAACCAGGCAGCTATATTGATGGGACTTGACAAGG
GATGGCCAATATCAAAGATGGACATAGGAGTTCCACTTCTCGCCTTGGGGTGCTATTCTCAGGTGAACCC
GCTGACGCTGACAGCGGCGGTATTGATGCTAGTGGCTCATTATGCCATAATTGGACCCGGACTGCAAGCA
AAAGCTACTAGAGAAGCTCAAAAAAGGACAGCAGCCGGAATAATGAAAAACCCAACTGTCGACGGGATCG
TTGCAATAGATTTGGACCCTGTGGTTTACGATGCAAAATTTGAAAAACAGCTAGGCCAAATAATGTTGTT
GATACTTTGCACATCACAGATCCTCCTGATGCGGACCACATGGGCCTTGTGTGAATCCATCACACTAGCC
ACTGGACCTCTGACTACGCTTTGGGAGGGATCTCCAGGAAAATTCTGGAACACCACGATAGCGGTGTCCA
TGGCAAACATTTTTAGGGGAAGTTATCTAGCAGGAGCAGGTCTGGCCTTTTCATTAATGAAATCTCTAGG
AGGAGGTAGGAGAGGCACGGGAGCCCAAGGGGAAACACTGGGAGAAAAATGGAAAAGACAGCTAAACCAA
TTGAGCAAGTCAGAATTCAACACTTACAAAAGGAGTGGGATTATAGAGGTGGATAGATCTGAAGCCAAAG
AGGGGTTAAAAAGAGGAGAAACGACTAAACACGCAGTGTCGAGAGGAACGGCCAAACTGAGGTGGTTTGT
GGAGAGGAACCTTGTGAAACCAGAAGGGAAAGTCATAGACCTCGGTTGTGGAAGAGGTGGCTGGTCATAT
TATTGCGCTGGGCTGAAGAAAGTCACAGAAGTGAAAGGATACACGAAAGGAGGACCTGGACATGAGGAAC
CAATCCCAATGGCAACCTATGGATGGAACCTAGTAAAGCTATACTCCGGGAAAGATGTATTCTTTACACC
ACCTGAGAAATGTGACACCCTCTTGTGTGATATTGGTGAGTCCTCTCCGAACCCAACTATAGAAGAAGGA
AGAACGTTACGTGTTCTAAAGATGGTGGAACCATGGCTCAGAGGAAACCAATTTTGCATAAAAATTCTAA
ATCCCTATATGCCGAGTGTGGTAGAAACTTTGGAGCAAATGCAAAGAAAACATGGAGGAATGCTAGTGCG
AAATCCACTCTCAAGAAACTCCACTCATGAAATGTACTGGGTTTCATGTGGAACAGGAAACATTGTGTCA
GCAGTAAACATGACATCTAGAATGCTGCTAAATCGATTCACAATGGCTCACAGGAAGCCAACATATGAAA
GAGACGTGGACTTAGGCGCTGGAACAAGACATGTGGCAGTAGAACCAGAGGTGGCCAACCTAGATATCAT
TGGCCAGAGGATAGAGAATATAAAAAATGAACACAAATCAACATGGCATTATGATGAGGACAATCCATAC
AAAACATGGGCCTATCATGGATCATATGAGGTCAAGCCATCAGGATCAGCCTCATCCATGGTCAATGGTG
TGGTGAGACTGCTAACCAAACCATGGGATGTCATTCCCATGGTCACACAAATAGCCATGACTGACACCAC
ACCCTTTGGACAACAGAGGGTGTTTAAAGAGAAAGTTGACACGCGTACACCAAAAGCGAAACGAGGCACA
GCACAAATTATGGAGGTGACAGCCAGGTGGTTATGGGGTTTTCTCTCTAGAAACAAAAAACCCAGAATCT
GCACAAGAGAGGAGTTCACAAGAAAAGTCAGGTCAAACGCAGCTATTGGAGCAGTGTTCGTTGATGAAAA
TCAATGGAACTCAGCAAAAGAGGCAGTGGAAGATGAACGGTTCTGGGACCTTGTGCACAGAGAGAGGGAG
CTTCATAAACAAGGAAAATGTGCCACGTGTGTCTACAACATGATGGGAAAGAGAGAGAAAAAATTAGGAG
AGTTCGGAAAGGCAAAAGGAAGTCGCGCAATATGGTACATGTGGTTGGGAGCGCGCTTTTTAGAGTTTGA
AGCCCTTGGTTTCATGAATGAAGATCACTGGTTCAGCAGAGAGAATTCACTCAGTGGAGTGGAAGGAGAA
GGACTCCACAAACTTGGATACATACTCAGAGACATATCAAAGATTCCAGGGGGAAATATGTATGCAGATG
ACACAGCCGGATGGGACACAAGAATAACAGAGGATGATCTTCAGAATGAGGCCAAAATCACTGACATCAT
GGAACCTGAACATGCCCTATTGGCCACGTCAATCTTTAAGCTAACCTACCAAAACAAGGTAGTAAGGGTG
CAGAGACCAGCGAAAAATGGAACCGTGATGGATGTCATATCCAGACGTGACCAGAGAGGAAGTGGACAGG
TTGGAACCTATGGCTTAAACACCTTCACCAACATGGAGGCCCAACTAATAAGACAAATGGAGTCTGAGGG
AATCTTTTCACCCAGCGAATTGGAAACCCCAAATCTAGCCGAAAGAGTCCTCGACTGGTTGAAAAAACAT
GGCACCGAGAGGCTGAAAAGAATGGCAATCAGTGGAGATGACTGTGTGGTGAAACCAATCGATGACAGAT
TTGCAACAGCCTTAACAGCTTTGAATGACATGGGAAAGGTAAGAAAAGACATACCGCAATGGGAACCTTC
AAAAGGATGGAATGATTGGCAACAAGTGCCTTTCTGTTCACACCATTTCCACCAGCTGATTATGAAGGAT
GGGAGGGAGATAGTGGTGCCATGCCGCAACCAAGATGAACTTGTAGGTAGGGCCAGAGTATCACAAGGCG
CCGGATGGAGCTTGAGAGAAACTGCATGCCTAGGCAAGTCATATGCACAAATGTGGCAGCTGATGTACTT
CCACAGGAGAGACTTGAGATTAGCGGCTAATGCTATCTGTTCAGCCGTTCCAGTTGATTGGGTCCCAACC
AGCCGCACCACCTGGTCGATCCATGCCCACCATCAATGGATGACAACAGAAGACATGTTGTCAGTGTGGA
ATAGGGTTTGGATAGAGGAAAACCCATGGATGGAGGACAAGACTCATGTGTCCAGTTGGGAAGACGTTCC
ATACCTAGGAAAAAGGGAAGATCAATGGTGTGGTTCCCTAATAGGCTTAACAGCACGAGCCACCTGGGCC
ACCAACATACAAGTGGCCATAAACCAAGTGAGAAGGCTCATTGGGAATGAGAATTATCTAGACTTCATGA
CATCAATGAAGAGATTCAAAAACGAGAGTGATCCCGAAGGGGCACTCTGGTAAGCCAACTCATTCACAAA
ATAAAGGAAAATAAAAAATCAAACAAGGCAAGAAGTCAGGCCGGATTAAGCCATAGCACGGTAAGAGCTA
TGCTGCCTGTGAGCCCCGTCCAAGGACGTAAAATGAAGTCAGGCCGAAAGCCACGGTTCGAGCAAGCCGT
GCTGCCTGTAGCTCCATCGTGGGGATGTAAAAACCCGGGAGGCTGCAAACCATGGAAGCTGTACGCATGG
GGTAGCAGACTAGTGGTTAGAGGAGACCCCTCCCAAGACACAACGCAGCAGCGGGGCCCAACACCAGGGG
AAGCTGTACCCTGGTGGTAAGGACTAGAGGTTAGAGGAGACCCCCCGCACAACAACAAACAGCATATTGA
CGCTGGGAGAGACCAGAGATCCTGCTGTCTCTACAGCATCATTCCAGGCACAGAACGCCAAAAAATGGAA
TGGTGCTGTTGAATCAACAGGTTCT
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