Details of Virus RNA

Strain Information	Strain Name	Dengue virus 1 (strain D1/SG/05K2402DK1/2005)
	Strain Family	Flaviviridae
	RNA Binding Site	3'UTR
Virus Information	Virus Name	Dengue virus 1 (DENV1)
Virus Information	Taxonomy ID	11053

Protein Name	Uniprot ID	Host Species	Pro Info	Detection Method	Infection Cell	Cell ID	Cell Originated Tissue	Infection Time	Interaction Score	Fold Change
ARC16-2	Q9BPX5	Homo sapiens	Pro Info	RNA chromatography and quantitative mass spectrometry	HuH-7 Cells (Human hepatocellular carcinoma cell)	.	Liver	.	.	.
ASC-1 complex subunit p100	Q9H1I8	Homo sapiens	Pro Info	RNA chromatography and quantitative mass spectrometry	HuH-7 Cells (Human hepatocellular carcinoma cell)	.	Liver	.	.	.
Ataxin-2-like protein	Q8WWM7	Homo sapiens	Pro Info	RNA chromatography and quantitative mass spectrometry	HuH-7 Cells (Human hepatocellular carcinoma cell)	.	Liver	.	.	.
Caprin-1	Q14444	Homo sapiens	Pro Info	RNA chromatography and quantitative mass spectrometry	HuH-7 Cells (Human hepatocellular carcinoma cell)	.	Liver	.	.	.
Chromodomain-helicase-DNA-binding protein 1	O14646	Homo sapiens	Pro Info	RNA chromatography and quantitative mass spectrometry	HuH-7 Cells (Human hepatocellular carcinoma cell)	.	Liver	.	.	.
Cold shock domain-containing protein E1	O75534	Homo sapiens	Pro Info	RNA chromatography and quantitative mass spectrometry	HuH-7 Cells (Human hepatocellular carcinoma cell)	.	Liver	.	.	.
Cytochrome b-c1 complex subunit 8	O14949	Homo sapiens	Pro Info	RNA chromatography and quantitative mass spectrometry	HuH-7 Cells (Human hepatocellular carcinoma cell)	.	Liver	.	.	.
E3 ubiquitin-protein ligase TRIM71	Q2Q1W2	Homo sapiens	Pro Info	RNA chromatography and quantitative mass spectrometry	HuH-7 Cells (Human hepatocellular carcinoma cell)	.	Liver	.	.	.
Enhancer of mRNA-decapping protein 3	Q96F86	Homo sapiens	Pro Info	RNA chromatography and quantitative mass spectrometry	HuH-7 Cells (Human hepatocellular carcinoma cell)	.	Liver	.	.	.
Eukaryotic translation initiation factor 2 subunit 3B	Q2VIR3	Homo sapiens	Pro Info	RNA chromatography and quantitative mass spectrometry	HuH-7 Cells (Human hepatocellular carcinoma cell)	.	Liver	.	.	.
Heterogeneous nuclear ribonucleoprotein L	P14866	Homo sapiens	Pro Info	RNA chromatography and quantitative mass spectrometry	HuH-7 Cells (Human hepatocellular carcinoma cell)	.	Liver	.	.	.
Heterogeneous nuclear ribonucleoprotein R	O43390	Homo sapiens	Pro Info	RNA chromatography and quantitative mass spectrometry	HuH-7 Cells (Human hepatocellular carcinoma cell)	.	Liver	.	.	.
IGF2 mRNA-binding protein 2	Q9Y6M1	Homo sapiens	Pro Info	RNA chromatography and quantitative mass spectrometry	HuH-7 Cells (Human hepatocellular carcinoma cell)	.	Liver	.	.	.
MAP activator with WD repeats	Q9Y3F4	Homo sapiens	Pro Info	RNA chromatography and quantitative mass spectrometry	HuH-7 Cells (Human hepatocellular carcinoma cell)	.	Liver	.	.	.
Probable ATP-dependent RNA helicase DDX6	P26196	Homo sapiens	Pro Info	RNA chromatography and quantitative mass spectrometry	HuH-7 Cells (Human hepatocellular carcinoma cell)	.	Liver	.	.	.
Probable global transcription activator SNF2L1	P28370	Homo sapiens	Pro Info	RNA chromatography and quantitative mass spectrometry	HuH-7 Cells (Human hepatocellular carcinoma cell)	.	Liver	.	.	.
Protein lin-28 homolog B	Q6ZN17	Homo sapiens	Pro Info	RNA chromatography and quantitative mass spectrometry	HuH-7 Cells (Human hepatocellular carcinoma cell)	.	Liver	.	.	.
Protein LTV1 homolog	Q96GA3	Homo sapiens	Pro Info	RNA chromatography and quantitative mass spectrometry	HuH-7 Cells (Human hepatocellular carcinoma cell)	.	Liver	.	.	.
Ras GTPase-activating protein-binding protein 1	Q13283	Homo sapiens	Pro Info	RNA chromatography and quantitative mass spectrometry	HuH-7 Cells (Human hepatocellular carcinoma cell)	.	Liver	.	.	.
Ras GTPase-activating protein-binding protein 2	Q9UN86	Homo sapiens	Pro Info	RNA chromatography and quantitative mass spectrometry	HuH-7 Cells (Human hepatocellular carcinoma cell)	.	Liver	.	.	.
Ras-related protein Rab-18	Q9NP72	Homo sapiens	Pro Info	RNA chromatography and quantitative mass spectrometry	HuH-7 Cells (Human hepatocellular carcinoma cell)	.	Liver	.	.	.
RecQ protein-like 2	Q14191	Homo sapiens	Pro Info	RNA chromatography and quantitative mass spectrometry	HuH-7 Cells (Human hepatocellular carcinoma cell)	.	Liver	.	.	.
RNA cytosine C(5)-methyltransferase NSUN2	Q08J23	Homo sapiens	Pro Info	RNA chromatography and quantitative mass spectrometry	HuH-7 Cells (Human hepatocellular carcinoma cell)	.	Liver	.	.	.
RNA-binding protein RO60	P10155	Homo sapiens	Pro Info	RNA chromatography and quantitative mass spectrometry	HuH-7 Cells (Human hepatocellular carcinoma cell)	.	Liver	.	.	.
SART-3	Q15020	Homo sapiens	Pro Info	RNA chromatography and quantitative mass spectrometry	HuH-7 Cells (Human hepatocellular carcinoma cell)	.	Liver	.	.	.
Serine/arginine repetitive matrix protein 2	Q9UQ35	Homo sapiens	Pro Info	RNA chromatography and quantitative mass spectrometry	HuH-7 Cells (Human hepatocellular carcinoma cell)	.	Liver	.	.	.
Signal recognition particle 19 kDa protein	P09132	Homo sapiens	Pro Info	RNA chromatography and quantitative mass spectrometry	HuH-7 Cells (Human hepatocellular carcinoma cell)	.	Liver	.	.	.
Spermatogenesis associated serine rich 2 like	Q4ZFW0	Homo sapiens	Pro Info	RNA chromatography and quantitative mass spectrometry	HuH-7 Cells (Human hepatocellular carcinoma cell)	.	Liver	.	.	.
Surfeit locus protein 2	Q15527	Homo sapiens	Pro Info	RNA chromatography and quantitative mass spectrometry	HuH-7 Cells (Human hepatocellular carcinoma cell)	.	Liver	.	.	.
Transcriptional repressor CTCF	P49711	Homo sapiens	Pro Info	RNA chromatography and quantitative mass spectrometry	HuH-7 Cells (Human hepatocellular carcinoma cell)	.	Liver	.	.	.
Trip4 complex subunit p200	Q8N3C0	Homo sapiens	Pro Info	RNA chromatography and quantitative mass spectrometry	HuH-7 Cells (Human hepatocellular carcinoma cell)	.	Liver	.	.	.
Ubiquitin carboxyl-terminal hydrolase 10	Q14694	Homo sapiens	Pro Info	RNA chromatography and quantitative mass spectrometry	HuH-7 Cells (Human hepatocellular carcinoma cell)	.	Liver	.	.	.
Vigilin	Q00341	Homo sapiens	Pro Info	RNA chromatography and quantitative mass spectrometry	HuH-7 Cells (Human hepatocellular carcinoma cell)	.	Liver	.	.	.
Zinc finger RNA-binding protein	Q96KR1	Homo sapiens	Pro Info	RNA chromatography and quantitative mass spectrometry	HuH-7 Cells (Human hepatocellular carcinoma cell)	.	Liver	.	.	.

GO Term	GO Category	GO ID	Adjusted P-value	Odds Ratio	Combined Score
RNA Binding	Molecular Function	GO:0003723	2.90E-17	27.98624574	1187.659487
mRNA Binding	Molecular Function	GO:0003729	3.02E-11	34.75774106	969.3293586
tRNA Binding	Molecular Function	GO:0000049	0.088261301	25.40433673	144.4376286
Four-Way Junction Helicase Activity	Molecular Function	GO:0009378	0.090413261	151.2272727	721.5053863
U4 snRNA Binding	Molecular Function	GO:0030621	0.090413261	151.2272727	721.5053863
Ribosome Binding	Molecular Function	GO:0043022	0.090413261	14.97213855	70.24902579
MutLalpha Complex Binding	Molecular Function	GO:0032405	0.090413261	120.9757576	555.2185649
tRNA Methyltransferase Activity	Molecular Function	GO:0016427	0.090413261	100.8080808	447.2023641
Bubble DNA Binding	Molecular Function	GO:0000405	0.090413261	100.8080808	447.2023641
pre-mRNA Intronic Binding	Molecular Function	GO:0097157	0.090413261	86.4025974	371.8308142
Oxidized Purine DNA Binding	Molecular Function	GO:0032357	0.090413261	75.59848485	316.4936999
G-quadruplex DNA Binding	Molecular Function	GO:0051880	0.090413261	75.59848485	316.4936999
Cadherin Binding	Molecular Function	GO:0045296	0.090413261	6.017762352	24.62813649
N6-methyladenosine-containing RNA Binding	Molecular Function	GO:1990247	0.090413261	67.1952862	274.2892351
mRNA Methyltransferase Activity	Molecular Function	GO:0008174	0.090413261	60.47272727	241.1340588
C2H2 Zinc Finger Domain Binding	Molecular Function	GO:0070742	0.090413261	60.47272727	241.1340588
U6 snRNA Binding	Molecular Function	GO:0017070	0.100401227	50.38888889	192.5901796
3'-5' DNA Helicase Activity	Molecular Function	GO:0043138	0.102033507	46.51048951	174.3581088
Four-Way Junction DNA Binding	Molecular Function	GO:0000400	0.104776258	40.30505051	145.7795237
Ribosomal Small Subunit Binding	Molecular Function	GO:0043024	0.104776258	40.30505051	145.7795237
Cytoplasmic Stress Granule	Cellular Component	GO:0010494	1.06E-07	60.90612245	1194.403441
P-body	Cellular Component	GO:0000932	4.83E-06	43.96109637	663.9720125
Intracellular Non-Membrane-Bounded Organelle	Cellular Component	GO:0043232	3.08E-05	7.586736193	97.44106697
Nuclear Lumen	Cellular Component	GO:0031981	3.80E-05	8.962645914	110.6575685
Nucleolus	Cellular Component	GO:0005730	0.000245145	7.743925799	79.44936053
Nucleus	Cellular Component	GO:0005634	0.007668846	3.080593454	20.43720455
Chromosome	Cellular Component	GO:0005694	0.013439659	11.90442797	70.46210941
Intracellular Membrane-Bounded Organelle	Cellular Component	GO:0043231	0.027173682	2.551226551	12.96383543
Signal Recognition Particle, Endoplasmic Reticulum Targeting	Cellular Component	GO:0005786	0.032946279	151.2272727	721.5053863
NURF Complex	Cellular Component	GO:0016589	0.035552681	120.9757576	555.2185649
Preribosome, Small Subunit Precursor	Cellular Component	GO:0030688	0.049932373	67.1952862	274.2892351
Respiratory Chain Complex III	Cellular Component	GO:0045275	0.049932373	60.47272727	241.1340588
Mitochondrial Respiratory Chain Complex III	Cellular Component	GO:0005750	0.049932373	60.47272727	241.1340588
RISC Complex	Cellular Component	GO:0016442	0.051058744	50.38888889	192.5901796
ISWI-type Complex	Cellular Component	GO:0031010	0.051058744	50.38888889	192.5901796
Endoplasmic Reticulum Tubular Network	Cellular Component	GO:0071782	0.094718035	24.17090909	75.88723252
U2-type Catalytic Step 2 Spliceosome	Cellular Component	GO:0071007	0.09918818	21.57792208	65.44305725
U2-type Precatalytic Spliceosome	Cellular Component	GO:0071005	0.155715206	12.57449495	31.74686317
Precatalytic Spliceosome	Cellular Component	GO:0071011	0.156168942	11.83303624	29.20069091
Condensed Chromosome	Cellular Component	GO:0000793	0.170073486	10.22444787	23.83462406
Stress Granule Assembly	Biological Process	GO:0034063	1.06E-07	181.0072595	3902.335081
Non-Membrane-Bounded Organelle Assembly	Biological Process	GO:0140694	3.08E-07	40.18113426	795.5142111
Regulation Of Stress Granule Assembly	Biological Process	GO:0062028	3.64E-06	966	16346.25293
Rescue Of Stalled Ribosome	Biological Process	GO:0072344	0.000473736	96.51290323	1135.545175
DNA Geometric Change	Biological Process	GO:0032392	0.000684801	71.46594982	782.1393088
Negative Regulation Of Amide Metabolic Process	Biological Process	GO:0034249	0.000684801	29.77827715	324.9095029
Regulation Of Translation	Biological Process	GO:0006417	0.000684801	17.3017679	185.6074089
Negative Regulation Of Macromolecule Biosynthetic Process	Biological Process	GO:0010558	0.000684801	28.18723404	301.7192078
Negative Regulation Of Translation	Biological Process	GO:0017148	0.000860287	25.71262136	266.3361664
DNA Duplex Unwinding	Biological Process	GO:0032508	0.001092311	50.75042445	507.0819846
Translational Elongation	Biological Process	GO:0006414	0.001092311	49.44665012	490.4481048
DNA Dealkylation	Biological Process	GO:0035510	0.001099723	249.5125	2431.478295
DNA Dealkylation Involved In DNA Repair	Biological Process	GO:0006307	0.001099723	249.5125	2431.478295
Negative Regulation Of Cellular Biosynthetic Process	Biological Process	GO:0031327	0.001451838	19.88270677	186.7589816
Negative Regulation Of Protein Metabolic Process	Biological Process	GO:0051248	0.001780122	18.48298368	168.5683462
Positive Regulation Of Organelle Assembly	Biological Process	GO:1902117	0.002193167	33.21690768	292.2473719
P-body Assembly	Biological Process	GO:0033962	0.002193167	138.5902778	1217.704538
Ribosome Disassembly	Biological Process	GO:0032790	0.002482944	124.725	1073.271938
miRNA-mediated Gene Silencing By Inhibition Of Translation	Biological Process	GO:0035278	0.003236371	103.9270833	861.1431352
miRNA Metabolic Process	Biological Process	GO:0010586	0.003543784	95.92788462	781.2363224

>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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Details of Virus RNA

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

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

Virus RNA Sequence Information