Details of Virus RNA

Strain Information	Strain Name	Dengue virus 3 (strain D3/SG/05K863DK1/2005)
	Strain Family	Flaviviridae
	RNA Binding Site	3'UTR
Virus Information	Virus Name	Dengue virus 3 (DENV3)
Virus Information	Taxonomy ID	11069

Protein Name	Uniprot ID	Host Species	Pro Info	Detection Method	Infection Cell	Cell ID	Cell Originated Tissue	Infection Time	Interaction Score	Fold Change
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	.	.	.
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	.	.	.
Elongation factor 2	P13639	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	.	.	.
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	.	.	.
Protein lin-28 homolog B	Q6ZN17	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	.	.	.
Tropomyosin alpha-3 chain	P06753	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	.	.	.

GO Term	GO Category	GO ID	Adjusted P-value	Odds Ratio	Combined Score
RNA Binding	Molecular Function	GO:0003723	7.02E-06	19.88195435	313.3224021
mRNA Binding	Molecular Function	GO:0003729	0.025909446	17.65770609	120.0856346
Cadherin Binding	Molecular Function	GO:0045296	0.025909446	15.56091772	100.3112105
Four-Way Junction Helicase Activity	Molecular Function	GO:0009378	0.032088366	356.8035714	1993.609467
U4 snRNA Binding	Molecular Function	GO:0030621	0.032088366	356.8035714	1993.609467
MutLalpha Complex Binding	Molecular Function	GO:0032405	0.032088366	285.4285714	1542.867593
tRNA Methyltransferase Activity	Molecular Function	GO:0016427	0.032088366	237.8452381	1249.077685
Bubble DNA Binding	Molecular Function	GO:0000405	0.032088366	237.8452381	1249.077685
Oxidized Purine DNA Binding	Molecular Function	GO:0032357	0.032982128	178.3660714	892.01312
G-quadruplex DNA Binding	Molecular Function	GO:0051880	0.032982128	178.3660714	892.01312
mRNA Methyltransferase Activity	Molecular Function	GO:0008174	0.036582843	142.6785714	685.0073411
U6 snRNA Binding	Molecular Function	GO:0017070	0.036582843	118.8869048	551.0048325
3'-5' DNA Helicase Activity	Molecular Function	GO:0043138	0.036582843	109.7362637	500.5003914
Translation Elongation Factor Activity	Molecular Function	GO:0003746	0.036582843	109.7362637	500.5003914
Four-Way Junction DNA Binding	Molecular Function	GO:0000400	0.03899444	95.0952381	421.091823
Ubiquitin-Specific Protease Binding	Molecular Function	GO:1990381	0.045632793	75.06015038	315.7300333
GTPase Activity	Molecular Function	GO:0003924	0.046048752	11.53670664	47.42778563
Ribonucleoside Triphosphate Phosphatase Activity	Molecular Function	GO:0017111	0.046048752	11.31859931	46.13161906
Peptidase Activator Activity	Molecular Function	GO:0016504	0.046048752	61.99378882	249.5520252
miRNA Binding	Molecular Function	GO:0035198	0.052767913	50.91071429	195.3922669
P-body	Cellular Component	GO:0000932	0.000937683	62.203125	647.291076
Intracellular Non-Membrane-Bounded Organelle	Cellular Component	GO:0043232	0.021220162	7.897058824	52.07039086
Nuclear Lumen	Cellular Component	GO:0031981	0.022948416	9.001405811	54.99752089
Chromosome	Cellular Component	GO:0005694	0.042475622	18.82526116	94.68137786
Respiratory Chain Complex III	Cellular Component	GO:0045275	0.042475622	142.6785714	685.0073411
Mitochondrial Respiratory Chain Complex III	Cellular Component	GO:0005750	0.042475622	142.6785714	685.0073411
RISC Complex	Cellular Component	GO:0016442	0.042997196	118.8869048	551.0048325
Nucleolus	Cellular Component	GO:0005730	0.066581462	6.255533854	25.00777538
Endoplasmic Reticulum Tubular Network	Cellular Component	GO:0071782	0.066581462	57.02857143	225.0399736
Aggresome	Cellular Component	GO:0016235	0.080412942	41.91386555	153.0686933
Nucleus	Cellular Component	GO:0005634	0.092780926	3.028320313	10.33749278
Actin Filament	Cellular Component	GO:0005884	0.132383286	20.32142857	60.09446475
Cytoplasmic Stress Granule	Cellular Component	GO:0010494	0.132383286	18.96190476	54.81664896
Lipid Droplet	Cellular Component	GO:0005811	0.132383286	17.55202822	49.44377842
Intracellular Membrane-Bounded Organelle	Cellular Component	GO:0043231	0.133594653	2.508683243	6.790504464
Nuclear Chromosome	Cellular Component	GO:0000228	0.133594653	15.11474164	40.42201147
Cytoplasmic Vesicle Lumen	Cellular Component	GO:0060205	0.151154224	12.45050125	31.0045927
Ficolin-1-Rich Granule Lumen	Cellular Component	GO:1904813	0.152264892	11.6293911	28.20998397
Ficolin-1-Rich Granule	Cellular Component	GO:0101002	0.211288855	7.729117877	15.7989146
Polymeric Cytoskeletal Fiber	Cellular Component	GO:0099513	0.280567065	5.335768398	9.108697425
P-body Assembly	Biological Process	GO:0033962	0.002960036	341.4700855	3570.560667
miRNA-mediated Gene Silencing By Inhibition Of Translation	Biological Process	GO:0035278	0.002960036	256.0641026	2548.915005
miRNA Metabolic Process	Biological Process	GO:0010586	0.002960036	236.3550296	2319.006332
miRNA-mediated Gene Silencing	Biological Process	GO:0035195	0.006838902	127.9551282	1111.473264
miRNA Processing	Biological Process	GO:0035196	0.008328123	102.3333333	845.9155332
Spliceosomal snRNP Assembly	Biological Process	GO:0000387	0.009298623	87.69230769	699.2344145
Regulation Of Translation	Biological Process	GO:0006417	0.009772941	24.85678392	193.1328378
Nucleosome Organization	Biological Process	GO:0034728	0.028584177	41.96417281	275.4132478
Negative Regulation Of Amide Metabolic Process	Biological Process	GO:0034249	0.034286821	33.63313609	206.4405576
Negative Regulation Of Macromolecule Biosynthetic Process	Biological Process	GO:0010558	0.034286821	31.87339744	192.3522519
Negative Regulation Of Translation	Biological Process	GO:0017148	0.034286821	29.12820513	170.7550129
Regulation Of pre-miRNA Processing	Biological Process	GO:2000631	0.034286821	356.8035714	1993.609467
Regulation Of mRNA Export From Nucleus	Biological Process	GO:0010793	0.034286821	356.8035714	1993.609467
Regulation Of Ribonucleoprotein Complex Localization	Biological Process	GO:2000197	0.034286821	356.8035714	1993.609467
Regulation Of Post-Transcriptional Gene Silencing By RNA	Biological Process	GO:1900368	0.034286821	356.8035714	1993.609467
Non-Membrane-Bounded Organelle Assembly	Biological Process	GO:0140694	0.034286821	22.96356275	124.1743431
G-quadruplex DNA Unwinding	Biological Process	GO:0044806	0.034286821	285.4285714	1542.867593
Negative Regulation Of miRNA Processing	Biological Process	GO:1903799	0.034286821	285.4285714	1542.867593
Nuclear-Transcribed mRNA Catabolic Process, Deadenylation-Independent Decay	Biological Process	GO:0031086	0.034286821	285.4285714	1542.867593
Negative Regulation Of Cellular Biosynthetic Process	Biological Process	GO:0031327	0.034286821	22.62108262	121.6741585

Pathways	Category	Adjusted P-value	Odds Ratio	Combined Score
RNA degradation	KEGG Pathway	0.020823936	39.77622378	256.9617376
Cardiac muscle contraction	KEGG Pathway	0.020823936	36.01809955	225.8171841
Thyroid cancer	KEGG Pathway	0.20095381	39.58134921	142.3784815
Hypertrophic cardiomyopathy	KEGG Pathway	0.220373127	15.96789727	43.53924819
Dilated cardiomyopathy	KEGG Pathway	0.220373127	14.95488722	39.84310238
AMPK signaling pathway	KEGG Pathway	0.220373127	11.92436975	29.20757581
Oxidative phosphorylation	KEGG Pathway	0.220373127	10.74296537	25.2572222
Systemic lupus erythematosus	KEGG Pathway	0.220373127	10.5815565	24.72713132
Adrenergic signaling in cardiomyocytes	KEGG Pathway	0.220373127	9.509108341	21.26847243
Oxytocin signaling pathway	KEGG Pathway	0.220373127	9.258636788	20.47739449
Non-alcoholic fatty liver disease	KEGG Pathway	0.220373127	9.198051948	20.28704233
RNA transport	KEGG Pathway	0.239831219	7.644787645	15.54915912
Diabetic cardiomyopathy	KEGG Pathway	0.240206322	6.995403112	13.65747629
Thermogenesis	KEGG Pathway	0.25135051	6.108225108	11.17062738
Parkinson disease	KEGG Pathway	0.25135051	5.684619816	10.02709585
Prion disease	KEGG Pathway	0.255391807	5.176733193	8.697408913
Huntington disease	KEGG Pathway	0.255391807	4.608899297	7.269389894
MicroRNAs in cancer	KEGG Pathway	0.255391807	4.548312529	7.12096141
Amyotrophic lateral sclerosis	KEGG Pathway	0.268166357	3.861078316	5.495879306
Alzheimer disease	KEGG Pathway	0.268166357	3.807647516	5.3743343

>MK506265.1 Dengue virus type 3 isolate h87-2007, complete genome TACGTGGACCGACAAGAACAGTTTCGACTCGGAAGCTTGCTTAACGTAGTGCTGACAGTTTTTTATTAGA GAGCAGATCTCTGATGAACAACCAACGGAAAAAGACGGGAAAACCGTCTATCAATATGCTGAAACGCGTG AGAAACCGTGTGTCAACTGGATCACAGTTGGCGAAGAGATTCTCAAGAGGATTGCTGAACGGCCAAGGAC CAATGAAATTGGTTATGGCGTTTATAGCTTTCCTCAGATTTCTAGCCATTCCACCGACAGCAGGAGTCTT GGCTAGATGGGGTACCTTTAAGAAGTCGGGGGCTATTAAGGTCTTAAAAGGCTTCAAGAAGGAGATCTCA AACATGCTGAGCATTATCAACAAACGGAAAAAGACATCGCTCTGTCTCATGATGATGTTACCAGCAACAC TTGCTTTCCACTTAACTTCACGAGATGGAGAGCCGCGCATGATTGTGGGGAAGAATGAAAGAGGAAAATC CCTACTTTTTAAGACAGCCTCTGGAATCAACATGTGCACACTCATAGCCATGGATTTGGGAGAGATGTGT GATGACACGGTCACTTACAAATGCCCCCACATTACCGAAGTGGAGCCTGAAGACATTGACTGCTGGTGCA ACCTTACATCGACATGGGTGACTTATGGAACATGCAATCAAGCTGGAGAGCATAGACGCGATAAGAGATC AGTGGCGTTAGCTCCCCATGTCGGCATGGGACTGGACACACGCACTCAAACCTGGATGTCGGCTGAAGGA GCTTGGAGACAAGTCGAGAAGGTAGAGACATGGGCCCTTAGGCACCCAGGGTTTACCATACTAGCCCTAT TTCTTGCCCATTACATAGGCACTTCCTTGACCCAGAAAGTGGTTATTTTTATACTATTAATGCTGGTTAC CCCATCCATGACAATGAGATGTGTGGGAGTAGGAAACAGAGATTTTGTGGAAGGCCTATCGGGAGCCACG TGGGTTGACGTGGTGCTCGAGCACGGTGGGTGTGTGACTACCATGGCTAAGAACAAGCCCACGCTGGACA TAGAGCTTCAGAAGACCGAGGCCACCCAACTGGCGACCCTAAGGAAGCTATGCATTGAGGGAAAAATTAC CAACATAACAACCGACTCAAGATGTCCCACCCAAGGGGAAGCGATTTTACCTGAGGAGCAGGACCAGAAC TACGTGTGTAAGCATACATACGTGGACAGAGGCTGGGGAAACGGTTGTGGTTTGTTTGGCAAGGGAAGCT TGGTGACATGCGCGAAATTTCAATGTTTAGAATCAATAGAGGGAAAAGTGGTGCAACATGAGAACCTCAA ATACACCGTCATCATCACAGTGCACACAGGAGACCAACACCAGGTGGGAAATGAAACGCAGGGAGTTACG GCTGAGATAACATCCCAGGCATCAACCGCTGAAGCCATTTTACCTGGATATGGAACCCTCGGGCTAGAAT GCTCACCACGGACAGGTTTGGATTTCAATGAAATGATTTTATTGACAATGAAGAACAAAGCATGGATGGT ACATAGACAATGGTTCTTTGACTTACCCCTACCATGGACATCAGGAGCTACAACAGAAACACCAACTTGG AACAGGAGAGAGCTTCTTGTGACATTTAAAAATGCACATGCAAAAAAGCAAGAAGTAGTTGTCCTTGGAT CACAAGAGGGAGCAATGCATACAGCACTGACAGGAGCTACAGAGATCCAAACCTCAGGAGGCACAAGTAT TTTTGCGGGGCACTTAAAATGTAGACTCAAGATGGACAAATTGGAACTCAAGGGGATGAGCTATGCAATG TGCTTGAATACCTTTGTGTTGAAGAAAGAAGTCTCCGAAACGCAGCATGGGACAATACTCATTAAGGTTG AGTACAAAGGGGAAGATGCACCCTGCAAGATTCCTTTCTCCACGGAGGATGGACAAGGGAAAGCTCACAA TGGCAGACTGATCACAGCCAATCCAGTGGTGACCAAGAAGGAGGAGCCTGTCAACATTGAGGCTGAACCT CCTTTTGGGGAAAGTAATATAGTAATTGGAATTGGAGACAAAGCCCTGAAAATCAACTGGTACAGGAAGG GAAGCTCGATTGGGAAGATGTTCGAGGCCACTGCCAGAGGTGCAAGGCGCATGGCCATCTTGGGAGACAC AGCCTGGGACTTTGGATCAGTGGGTGGTGTTTTGAATTCATTAGGGAAAATGGTCCACCAAATATTTGGG AGTGCTTACACAGCCCTATTTAGTGGAGTCTCCTGGATAATGAAAATTGGAATAGGTGTCCTCTTAACCT GGATAGGGTTGAATTCAAAAAACACTTCTATGTCATTTTCATGCATTGCGATAGGAATCATTACACTCTA TCTGGGAGTCGTGGTGCAAGCTGACATGGGGTGTGTCATAAACTGGAAAGGCAAAGAACTCAAATGTGGA AGTGGAATTTTCGTCACTAATGAGGTCCACACCTGGACAGAGCAATACAAATTTCAAGCAGACTCCCCCA AAAGACTGGCAACAGCCATTGCAGGCGCTTGGGAGAATGGAGTGTGCGGAATTAGGTCAACAACCAGAAT GGAGAACCTCTTGTGGAAGCAAATAGCCAATGAACTGAACTACATATTATGGGAAAACAACATCAAATTA ACGGTAGTTGTAGGCGACATAACTGGGGTCTTAGAGCAAGGGAAAAGAACACTAACACCACAACCCATGG AGCTAAAATATTCTTGGAAAACATGGGGAAAGGCAAAAATAGTGACAGCTGAAACACAAAATTCCTCTTT CATAATAGATGGGCCAAGCACACCGGAGTGTCCAAGTGCCTCAAGAGCATGGAATGTGTGGGAGGTGGAA GATTACGGGTTCGGAGTTTTCACAACCAACATATGGCTGAAACTCCGAGAGGTGTACACCCAACTATGTG ACCATAGGCTAATGTCGGCAGCCGTCAAGGATGAGAGGGCCGTACACGCCGACATGGGCTATTGGATAGA AAGCCAAAAGAATGGAAGTTGGAAGCTAGAAAAAGCATCCCTCATAGAGGTGAAAACCTGCACATGGCCA AAATCACACACTCTTTGGAGCAATGATGTGCTAGAGAGTGACATGATTATCCCAAAGAGTCTAGCTGGTC CCATTTCGCAACACAACCACAGGCCCGGGTACCACACCCAAACGGCAGGACCCTGGCACTTAGGAAAATT GGAGCTGGACTTCAACTATTGTGAAGGAACAACAGTTGTCATCTCAGAAAACTGTGGGACAAGAGGCCCA TCATTGAGAACAACAACAGTGTCAGGGAAGTTGATACACGAATGGTGTTGCCGCTCGTGCACACTTCCTC CCCTGCGATACATGGGAGAAGACGGCTGCTGGTATGGCATGGAAATCAGACCCATTAATGAGAAAGAAGA GAACATGGTAAAGTCTCTAGCCTCAGCAGGGAGTGGAAAGGTGGACAACTTCACAATGGGTGTCTTGTGT TTGGCAATCCTCTTTGAAGAGGTGATGAGAGGAAAATTTGGGAAAAAACACATGATTGCAGGGGTTCTCT TCACGTTTGTGCTCCTCCTCTCAGGGCAAATAACATGGAGAGACATGGCGCACACACTCATAATGATTGG GTCCAACGCCTCTGACAGAATGGGGATGGGCGTCACTTACCTAGCTCTAATTGCAACATTTAAAATTCAG CCATTCTTGGCTTTGGGATTCTTCCTGAGGAAACTGACATCTAGAGAAAATTTATTGCTGGGAGTTGGGT TGGCCATGGCAGCAACGTTACGACTGCCAGAGGACATTGAACAAATGGCGAATGGAATTGCTTTGGGGCT CATGGCTCTTAAACTGATAACACAATTTGAAACATACCAACTATGGACGGCATTAGTTTCCCTAACGTGT TCAAATACAATTTTCACGTTGACTGTTGCCTGGAGAACAGCCACTCTGATTTTAGCCGGAATTTCGCTTT TGCCAGTGTGCCAGTCTTCGAGCATGAGGAAAACAGATTGGCTCCCAATGACTGTGGCAGCTATGGGAGT TCCACCCCTACCACTTTTTATTTTCAGTCTGAAAGATACACTCAAAAGGAGAAGCTGGCCACTGAATGAG GGGGTGATGGCAGTTGGACTTGTGAGCATTCTGGCTAGTTCTCTCCTTAGGAATGATGTGCCCATGGCTG GACCATTAGTGGCTGGGGGCTTGCTGATAGCGTGCTACGTCATAACTGGCACGTCAGCAGACCTCACTGT AGAAAAAGCAGCAGATGTAACATGGGAGGAAGAGGCCGAGCAAACAGGAGTGTCCCACAATTTAATGATC ACAGTTGATGATGATGGAACAATGAGAATAAAAGATGACGAGACTGAGAACATCTTAACAGTGCTTTTAA AAACAGCACTACTAATAGTATCAGGCATCTTTCCATACTCCATACCCGCAACACTGTTGGTCTGGCATAC TTGGCAAAAGCAAACCCAAAGATCCGGCGTCCTATGGGACGTACCCAGCCCCCCAGAGACACAGAAAGCG GAACTGGAAGAAGGGGTCTATAGGATCAAACAGCAAGGAATTTTTGGGAAAACCCAAGTGGGGGTTGGAG TACAGAAAGAAGGAGTTTTCCACACCATGTGGCACGTCACAAGAGGGGCAGTGTTGACACACAATGGGAA AAGACTGGAACCAAACTGGGCTAGCGTGAAAAAAGATCTGATTTCATACGGAGGAGGATGGAGATTGAGT GCACAATGGCAAAAGGGGGAGGAGGTGCAGGTTATTGCCGTAGAGCCTGGGAAGAACCCAAAGAACTTTC AAACCATGCCAGGCATTTTTCAGACAACAACAGGGGAAATAGGAGCAATTGCACTGGATTTCAAGCCTGG AACTTCAGGATCTCCCATCATAAACAGAGAGGGAAAGGTAGTGGGACTGTATGGCAATGGAGTGGTTACA AAGAATGGAGGCTATGTCAGTGGAATAGCGCAAACAAATGCAGAACCAGATGGACCGACACCAGAGTTGG AAGAAGAGATGTTCAAAAAGCGAAATCTAACCATAATGGATCTTCATCCTGGGTCAGGAAAGACGCGGAA ATATCTTCCAGCTATTGTTAGAGAGGCAATCAAGAGACGCTTAAGGACTCTAATTTTGGCACCAACAAGG GTAGTTGCAGCTGAGATGGAAGAAGCATTGAAAGGGCTCCCAATAAGGTATCAAACAACTGCAACAAAAT CTGAACACACAGGAAGAGAGATTGTTGATCTAATGTGTCACGCAACGTTCACAATGCGCTTGCTGTCACC AGTCAGGGTTCCAAACTACAACTTGATAATAATGGATGAGGCTCATTTCACAGACCCAGCCAGTATAGCG GCTAGAGGGTACATATCAACTCGTGTAGGAATGGGAGAGGCAGCCGCAATTTTCATGACAGCAACACCCC CTGGAACAGCTGATGCCTTTCCTCAGAGCAACGCTCCAATTCAAGATGAAGAGAGAGACATACCGGAACG CTCATGGAATTCAGGCAATGAATGGATTACTGACTTTGTTGGGAAGACAGTGTGGTTTGTCCCTAGCATC AAAGCCGGAAATGACATAGCAAACTGCTTGCGGAAAAATGGAAAAAAGGTCATTCAACTCAGCAGGAAGA CCTTTGACACAGAATATCAAAAGACCAAACTGAATGATTGGGACTTTGTGGTGACAACAGACATTTCAGA AATGGGAGCCAATTTCAAAGCAGATAGAGTGATCGACCCAAGAAGATGTCTCAAGCCGGTGATTTTGACA AATGGACCCGAGCGGGTGATCCTGGCTGGACCAATGCCAGTCACCGTAGCGAGCGCTGCGCAAAGGAGAG GGAGAGTTGGCAGGAACCCACAAAAAGAAAATGACCAGTACATATTCATGGGCCAGCCTCTCAACAATGA TGAAGACCATGCTCACTGGACAGAAGCAAAAATGCTGCTGGACAACATCAACACACCAGAAGGGATTATA CCAGCTCTCTTTGAACCAGAAAGGGAGAAGTCAGCCGCCATAGACGGCGAATACCGCCTGAAGGGTGAGT CCAGGAAGACTTTCGTGGAACTCATGAGGAGGGGTGACCTCCCAGTTTGGCTAGCCCATAAAGTAGCATC AGAAGGGATCAAATATACAGATAGAAAATGGTGCTTTGATGGAGAACGTAATAATCAAATTTTAGAGGAG AATATGGATGTGGAAATCTGGACAAAGGAAGGAGAAAAGAAAAAACTGAGACCTAGGTGGCTTGATGCCC GCACTTATTCAGATCCTTTAGCACTCAAGGAATTCAAGGATTTTGCAGCTGGCAGAAAGTCAATCGCCCT TGATCTTGTGACAGAAATAGGAAGAGTGCCTTCACACTTAGCCCACAGAACGAGAAACGCCCTGGACAAT TTGGTGATGCTGCACACGTCAGAACATGGCGGTAGGGCCTACAGGCATGCAGTGGAGGAACTACCAGAAA CGATGGAAACACTCTTACTCCTGGGACTGATGATCTTGTTAACAGGTGGAGCAATGCTCTTCTTGATATC AGGTAAAGGGATTGGAAAGACTTCAATAGGACTCATTTGTGTAATTGCTTCCAGCGGCATGTTATGGATG GCTGATGTCCCACTCCAATGGATCGCGTCGGCTATAGTCCTGGAGTTTTTTATGATGGTGTTGCTCATAC CAGAACCAGAAAAGCAGAGAACTCCCCAAGACAACCAACTCGCATATGTCGTGATAGGCATACTTACATT GGCTGCAATAGTAGCGGCCAATGAAATGGGACTGTTGGAAACTACAAAGAGAGATTTAGGAATGTCTAAA GAACCAGGTGTTGTTTCTTCAACCAGCTATTTGGACGTGGACTTGCACCCAGCATCAGCCTGGACATTGT ACGCCGTGGCCACAACAGTAATAACACCAATGTTGAGACACACCATAGAGAATTCCACAGCAAATGTGTC CCTGGCAGCCATAGCTAACCAGGCAGTGGTCCTGATGGGTTTAGACAAAGGATGGCCGATATCGAAAATG GACTTGGGCGTACCACTATTGGCACTGGGTTGCTATTCACAAGTGAACCCACTAACTCTTGCAGCGGCAG TACTTTTGCTAGTCACACATTATGCAATTATAGGTCCAGGATTGCAGGCAAAAGCCACTCGTGAAGCTCA GAAAAGGACAGCTGCTGGAATAATGAAGAATCCAACGGTGGATGGAATAATGACAATAGACCTAGATCCT GTAATATATGATTCAAAATTTGAAAAGCAACTAGGACAGGTTATGCTCCTGGTTCTGTGTGCAGTTCAAC TTTTGTTAATGAGAACATCATGGGCCTTGTGTGAAGTTCTAACCCTAGCCACAGGACCAATAACAACACT CTGGGAAGGATCACCTGGGAAGTTCTGGAACACCACGATAGCTGTTTCCATGGCGAACATCTTTAGAGGG AGCTATTTAGCAGGAGCTGGGCTTGCTTTTTCTATCATGAAATCAGTTGGAACAGGAAAGAGAGGAACAG GGTCACAAGGTGAAACCTTAGGAGAAAAGTGGAAAAAGAAATTAAATCAGTTATCCCGGAAAGAGTTTGA CCTTTACAAGAAATCCGGAATCACCGAAGTGGATAGAACAGAAGCCAAAGAAGGGTTAAAAAGAGGAGAA ATAACACACCATGCCGTGTCCAGAGGCAGCGCAAAACTTCAATGGTTCGTGGAGAGAAACATGGTCATTC CTGAAGGAAGAGTCATAGACTTAGGCTGTGGAAGAGGAGGCTGGTCATATTACTGTGCAGGACTGAAAAA AGTTACAGAAGTGCGAGGATACACAAAAGGCGGCCCAGGACACGAAGAACCAGTACCTATGTCTACATAC GGATGGAACATAGTCAAGTTAATGAGTGGAAAGGATGTTTTTTATCTGCCACCTGAAAAGTGTGATACCC TATTGTGTGACATTGGAGAATCTTCACCAAGCCCAACAGTGGAAGAAAGCAGAACCATAAGAGTCTTGAA GATGGTTGAACCATGGCTAAAAAACAACCAGTTTTGCATTAAAGTATTGAACCCATACATGCCAACTGTG ATTGAGCACTTAGAAAGACTACAAAGGAAACATGGAGGAATGCTTGTGAGAAATCCACTCTCACGAAACT CCACGCACGAAATGTATTGGATATCCAATGGTACAGGCAACATCGTCTCTTCAGTCAACATGGTATCCAG ATTGCTACTGAACAGATTCACAATGACACACAGGAGACCCACCATAGAGAAAGATGTGGATTTAGGAGCA GGAACCCGACATGTCAATGCGGAACCAGAAACACCCAACATGGATGTCATTGGGGAAAGAATAAAAAGGA TCAAAGAGGAGCATAGTTCAACATGGCACTATGATGATGAAAATCCTTACAAAACGTGGGCTTACCATGG ATCCTATGAAGTAAAAGCCACAGGCTCAGCCTCCTCCATGATAAATGGAGTCGTGAAACTCCTCACAAAA CCATGGGATGTGGTGCCCATGGTGACACAGATGGCAATGACAGATACAACTCCATTTGGCCAGCAAAGAG TTTTTAAAGAGAAAGTGGACACCAGGACACCTAGGCCCATGCCAGGAACAAGAAAGGTTATGGAGATCAC AGCGGAGTGGCTTTGGAGGACCCTGGGAAGGAACAAAAGACCCAGATTATGCACAAGGGAGGAGTTCACA AAGAAGGTCAGAACCAACGCAGCTATGGGCGCTGTCTTCACAGAAGAGAACCAATGGGACAGTGCGAGAG CTGCTGTTGAGGACGAAGAATTTTGGAAACTTGTGGACAGAGAACGTGAACTCCACAAACTGGGCAAGTG TGGAAGCTGCGTTTACAACATGATGGGCAAGAGAGAGAAAAAACTTGGAGAGTTTGGTAAAGCAAAAGGC AGTAGGGCTATATGGTACATGTGGTTGGGAGCCAGGTACCTTGAGTTCGAGGCGCTCGGATTCCTCAATG AAGACCACTGGTTCTCGCGTGAAAACTCTTACAGTGGAGTAGAAGGAGAAGGACTGCACAAGCTGGGATA CATCTTGAGAGATATTTCCAAGATACCCGGAGGAGCCATGTATGCTGATGACACAGCCGGTTGGGACACA AGAATAACAGAAGATGACCTGCACAATGAGGAAAAAATCACACAGCAGATGGACCCTGAACACAGGCAGC TAGCGAACGCTATATTCAAGCTCACATACCAAAACAAAGTGGTCAAAGTCCAACGACCAACTCCAAAGGG CACGGTAATGGACATCATATCTAGGAAAGACCAAAGAGGCAGTGGACAGGTGGGAACTTATGGTCTGAAC ACATTCACCAACATGGAAGCCCAGCTAATCAGACAAATGGAAGGAGAAGGCGTGTTGTCAAAGGCAGACC TCGAGAACCCCCATCCGCTAGAGAAGAAAATTACACAATGGTTGGAAACTAAAGGAGTGGAGAGGTTAAA AAGAATGGCCATCAGCGGGGATGATTGCGTAGTGAAACCAATCGACGACAGATTCGCCAATGCCCTGCTT GCCCTGAACGATATGGGAAAGGTTAGGAAGGACATACCTCAATGGCAGCCATCAAAGGGATGGCATGATT GGCAACAGGTCCCTTTCTGCTCCCACCACTTTCATGAATTGATCATGAAAGATGGAAGAAAGTTGGTAGT TCCCTGCAGACCCCAGGACGAACTAATAGGAAGAGCGAGAATCTCTCAAGGAGCAGGATGGAGCCTTAGA GAAACTGCATGTCTAGGGAAAGCCTACGCTCAAATGTGGACTCTCATGTATTTTCACAGAAGAGATCTTA GACTAGCATCCAACGCCATATGTTCAGCAGTACCAGTCCATTGGGTCCCCACGAGCAGAACGACATGGTC TATTCATGCTCACCATCAGTGGATGACTACAGAAGACATGCTTACTGTCTGGAACAGGGTGTGGATAGAG GACAATCCATGGATGGAAGACAAAACTCCAGTCACAACGTGGGAAGATGTTCCATATCTAGGGAAGAGAG AAGACCAATGGTGCGGATCATTCATAGGTCTCACTTCCAGAGCAACCTGGGCCCAGAACATACTCACAGC AATCCAACAGGTGAGAAGCCTCATAGGCAATGAAGAGTTTCTGGACTACATGCCTTCGATGAAGAGATTC AGGAAGGAGGAGGAGTCAGAGGGAGCCATTTGGTAAAAGCAGGAGGCAAACTGTCAGGCCACCTTAAGCC ACAGTACGGAAGAAGCTGTGCAGCCTGTGAGCCCCGTCCAAGGACGTTAAAAGAAGAAGTCAGGCCCAAA AGCCACGGTTTGAGCAAACCGTGCTGCCTGTAGCTCCGTCGTGGGGACGTAAAGCCTGGGAGGCTGCAAA CCGTGGAAGCTGTACGCACGGTGTAGCAGACTAGTGGTTAGAGGAGACCCCTCCCATGACACAACGCAGC AGCGGGGCCCGAGCACTGAGGGAAGCTGTACCTCCTTGCAAAGGACTAGAGGTTATAGGAGACCCCCCGC AAACAAAAACAGCATATTGACGCTGGGAGAGACCAGAGATCCTGCTGTCTCCTCAGCATCATTCCAGGCA CAGAACGCCA

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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

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

Virus RNA Sequence Information