Details of Virus RNA

Strain Information	Strain Name	Zika virus (strain PRVABC59)
	Strain Family	Flaviviridae
	RNA Binding Site	3'UTR
Virus Information	Virus Name	Zika virus (ZIKV)
Virus Information	Taxonomy ID	64320

Protein Name	Uniprot ID	Host Species	Pro Info	Detection Method	Infection Cell	Cell ID	Cell Originated Tissue	Infection Time	Interaction Score	Fold Change
60S ribosomal protein L17	P18621	Homo sapiens	Pro Info	Protein-RNA reconstitution and a stringent RNA pulldown assay	HeLa Cells (Human cervical carcinoma cell)	.	Cervix	.	.	.
60S ribosomal protein L22	P35268	Homo sapiens	Pro Info	Protein-RNA reconstitution and a stringent RNA pulldown assay	HeLa Cells (Human cervical carcinoma cell)	.	Cervix	.	.	.
60S ribosomal protein L7a	P62424	Homo sapiens	Pro Info	Protein-RNA reconstitution and a stringent RNA pulldown assay	HeLa Cells (Human cervical carcinoma cell)	.	Cervix	.	.	.
DNA dC->dU-editing enzyme APOBEC-3C	Q9NRW3	Homo sapiens	Pro Info	Protein-RNA reconstitution and a stringent RNA pulldown assay	HeLa Cells (Human cervical carcinoma cell)	.	Cervix	.	.	.
Elongation factor 1-alpha 1	P68104	Homo sapiens	Pro Info	Protein-RNA reconstitution and a stringent RNA pulldown assay	HeLa Cells (Human cervical carcinoma cell)	.	Cervix	.	.	.
Enhancer of mRNA-decapping protein 3	Q96F86	Homo sapiens	Pro Info	Protein-RNA reconstitution and a stringent RNA pulldown assay	HeLa Cells (Human cervical carcinoma cell)	.	Cervix	.	.	.
Heterogeneous nuclear ribonucleoprotein F	P52597	Homo sapiens	Pro Info	Protein-RNA reconstitution and a stringent RNA pulldown assay	HeLa Cells (Human cervical carcinoma cell)	.	Cervix	.	.	.
Heterogeneous nuclear ribonucleoprotein H	P31943	Homo sapiens	Pro Info	Protein-RNA reconstitution and a stringent RNA pulldown assay	HeLa Cells (Human cervical carcinoma cell)	.	Cervix	.	.	.
Heterogeneous nuclear ribonucleoprotein K	P61978	Homo sapiens	Pro Info	Protein-RNA reconstitution and a stringent RNA pulldown assay	HeLa Cells (Human cervical carcinoma cell)	.	Cervix	.	.	.
Peptidyl-prolyl cis-trans isomerase H	O43447	Homo sapiens	Pro Info	Protein-RNA reconstitution and a stringent RNA pulldown assay	HeLa Cells (Human cervical carcinoma cell)	.	Cervix	.	.	.
Phosphorylated adapter RNA export protein	Q9H814	Homo sapiens	Pro Info	Protein-RNA reconstitution and a stringent RNA pulldown assay	HeLa Cells (Human cervical carcinoma cell)	.	Cervix	.	.	.
Poly(rC)-binding protein 2	Q15366	Homo sapiens	Pro Info	Protein-RNA reconstitution and a stringent RNA pulldown assay	HeLa Cells (Human cervical carcinoma cell)	.	Cervix	.	.	.
Pre-mRNA-processing factor 19	Q9UMS4	Homo sapiens	Pro Info	Protein-RNA reconstitution and a stringent RNA pulldown assay	HeLa Cells (Human cervical carcinoma cell)	.	Cervix	.	.	.
Probable ATP-dependent RNA helicase DDX6	P26196	Homo sapiens	Pro Info	Protein-RNA reconstitution and a stringent RNA pulldown assay	HeLa Cells (Human cervical carcinoma cell)	.	Cervix	.	.	.
Protein LSM14 homolog B	Q9BX40	Homo sapiens	Pro Info	Protein-RNA reconstitution and a stringent RNA pulldown assay	HeLa Cells (Human cervical carcinoma cell)	.	Cervix	.	.	.
Ribosome biogenesis protein BRX1 homolog	Q8TDN6	Homo sapiens	Pro Info	Protein-RNA reconstitution and a stringent RNA pulldown assay	HeLa Cells (Human cervical carcinoma cell)	.	Cervix	.	.	.
RNA-splicing ligase RtcB homolog	Q9Y3I0	Homo sapiens	Pro Info	Protein-RNA reconstitution and a stringent RNA pulldown assay	HeLa Cells (Human cervical carcinoma cell)	.	Cervix	.	.	.
Splicing factor 3B subunit 1	O75533	Homo sapiens	Pro Info	Protein-RNA reconstitution and a stringent RNA pulldown assay	HeLa Cells (Human cervical carcinoma cell)	.	Cervix	.	.	.
Splicing factor 3B subunit 2	Q13435	Homo sapiens	Pro Info	Protein-RNA reconstitution and a stringent RNA pulldown assay	HeLa Cells (Human cervical carcinoma cell)	.	Cervix	.	.	.
Tudor domain-containing protein 3	Q9H7E2	Homo sapiens	Pro Info	Protein-RNA reconstitution and a stringent RNA pulldown assay	HeLa Cells (Human cervical carcinoma cell)	.	Cervix	.	.	.

GO Term	GO Category	GO ID	Adjusted P-value	Odds Ratio	Combined Score
RNA Binding	Molecular Function	GO:0003723	8.34E-16	75.55284553	2895.991896
mRNA Binding	Molecular Function	GO:0003729	4.53E-06	30.59627329	465.7870366
Cadherin Binding	Molecular Function	GO:0045296	0.042144884	10.98138496	61.3511014
Large Ribosomal Subunit rRNA Binding	Molecular Function	GO:0070180	0.042144884	262.8421053	1393.123889
Deoxycytidine Deaminase Activity	Molecular Function	GO:0047844	0.042144884	175.2105263	869.8689178
Ubiquitin Ligase Inhibitor Activity	Molecular Function	GO:1990948	0.042144884	175.2105263	869.8689178
Ubiquitin-Protein Transferase Inhibitor Activity	Molecular Function	GO:0055105	0.042144884	150.1729323	725.5830081
Vinculin Binding	Molecular Function	GO:0017166	0.045007539	116.7894737	538.3357754
Cytidine Deaminase Activity	Molecular Function	GO:0004126	0.045007539	105.1052632	474.5101771
Ubiquitin-Ubiquitin Ligase Activity	Molecular Function	GO:0034450	0.047826278	87.57894737	380.8381799
Hydrolase Activity, Acting On Carbon-Nitrogen Bonds, In Cyclic Amidines	Molecular Function	GO:0016814	0.056748699	65.67105263	268.0787716
Deaminase Activity	Molecular Function	GO:0019239	0.060154028	55.29362881	216.8089753
poly RNA Binding	Molecular Function	GO:0008266	0.060154028	50.02255639	191.4205906
Cyclosporin A Binding	Molecular Function	GO:0016018	0.060154028	47.74641148	180.6107069
Poly-Pyrimidine Tract Binding	Molecular Function	GO:0008187	0.060968042	43.76315789	161.9356388
Ubiquitin Protein Ligase Binding	Molecular Function	GO:0031625	0.068449972	8.141676993	28.65855096
Ubiquitin-Like Protein Ligase Binding	Molecular Function	GO:0044389	0.068803369	7.624080527	25.93573494
Transcription Coactivator Binding	Molecular Function	GO:0001223	0.068803369	31.81339713	108.0716599
Single-Stranded RNA Binding	Molecular Function	GO:0003727	0.082086156	24.98496241	79.11400474
rRNA Binding	Molecular Function	GO:0019843	0.083304272	23.31578947	72.28923154
Intracellular Membrane-Bounded Organelle	Cellular Component	GO:0043231	1.44E-06	16.28370169	273.5723449
Nucleus	Cellular Component	GO:0005634	1.44E-06	13.87519571	227.4464457
Cytosolic Large Ribosomal Subunit	Cellular Component	GO:0022625	0.000174	71.78031212	782.9612917
Large Ribosomal Subunit	Cellular Component	GO:0015934	0.000174	71.78031212	782.9612917
Spliceosomal snRNP Complex	Cellular Component	GO:0097525	0.000183713	65.11764706	692.2192287
Focal Adhesion	Cellular Component	GO:0005925	0.000193062	17.10122164	176.8601743
Cell-Substrate Junction	Cellular Component	GO:0030055	0.000193062	16.74358974	171.5243094
P-body	Cellular Component	GO:0000932	0.000354629	43.89705882	417.1354147
U2-type Spliceosomal Complex	Cellular Component	GO:0005684	0.000401257	40.35091278	373.7006911
U2 snRNP	Cellular Component	GO:0005686	0.001068176	96.41062802	788.3307568
U12-type Spliceosomal Complex	Cellular Component	GO:0005689	0.00122135	85.27350427	677.7102452
Nucleolus	Cellular Component	GO:0005730	0.002476151	8.361183638	59.58291053
Nuclear Lumen	Cellular Component	GO:0031981	0.002476151	8.260215054	58.43017397
U2-type Precatalytic Spliceosome	Cellular Component	GO:0071005	0.0029482	47.12293144	321.6182136
Precatalytic Spliceosome	Cellular Component	GO:0071011	0.00309706	44.28888889	297.0383992
Ribosome	Cellular Component	GO:0005840	0.003985548	37.51600753	239.7302132
Cytoplasmic Stress Granule	Cellular Component	GO:0010494	0.005789667	29.88888889	178.0198173
Intracellular Non-Membrane-Bounded Organelle	Cellular Component	GO:0043232	0.011626602	5.263305322	27.37799806
B-WICH Complex	Cellular Component	GO:0110016	0.011971382	210.2631579	1076.207481
U2-type Catalytic Step 1 Spliceosome	Cellular Component	GO:0071006	0.020800781	105.1052632	474.5101771
RNA Splicing, Via Transesterification Reactions With Bulged Adenosine As Nucleophile	Biological Process	GO:0000377	4.39E-08	61.64917741	1352.056347
mRNA Splicing, Via Spliceosome	Biological Process	GO:0000398	4.91E-08	52.19909502	1086.751439
mRNA Processing	Biological Process	GO:0006397	4.91E-08	51.43478261	1065.770993
Gene Expression	Biological Process	GO:0010467	3.50E-07	36.68804898	677.6101237
RNA Processing	Biological Process	GO:0006396	2.48E-05	37.082397	518.6864748
RNA Metabolic Process	Biological Process	GO:0016070	9.96E-05	46.43224299	576.3681661
Peptide Biosynthetic Process	Biological Process	GO:0043043	0.00034565	32.18506494	354.5058431
Macromolecule Biosynthetic Process	Biological Process	GO:0009059	0.000508702	27.65502793	288.6582958
Spliceosomal Complex Assembly	Biological Process	GO:0000245	0.000508702	59.58424726	618.2971285
P-body Assembly	Biological Process	GO:0033962	0.00076394	246.5555556	2432.238168
Translation	Biological Process	GO:0006412	0.001020501	21.4673913	203.5108531
Regulation Of RNA Metabolic Process	Biological Process	GO:0051252	0.001184738	39.89037433	368.1237116
Cytoplasmic Translation	Biological Process	GO:0002181	0.001184738	39	357.384969
Regulation Of RNA Splicing	Biological Process	GO:0043484	0.00144729	35.43850267	315.0283525
U2-type Prespliceosome Assembly	Biological Process	GO:1903241	0.002325975	105.6031746	881.3639106
protein-RNA Complex Assembly	Biological Process	GO:0022618	0.003943618	23.80912365	184.6040523
Regulation Of Viral Genome Replication	Biological Process	GO:0045069	0.0174691	34.04273504	211.2195434
mRNA Metabolic Process	Biological Process	GO:0016071	0.026354117	26.63587684	152.7884929
RNA Splicing	Biological Process	GO:0008380	0.032983014	23.01388889	125.6041947
Nuclear-Transcribed mRNA Catabolic Process, Deadenylation-Independent Decay	Biological Process	GO:0031086	0.043994828	210.2631579	1076.207481

Pathways	Category	Adjusted P-value	Odds Ratio	Combined Score
Spliceosome	KEGG Pathway	3.77E-06	45.59770115	682.7434124
Ribosome	KEGG Pathway	0.00299762	22.5711575	171.5790832
Coronavirus disease	KEGG Pathway	0.006072279	15.22039558	98.7851725
RNA degradation	KEGG Pathway	0.008385083	28.72005772	168.8714487
RNA transport	KEGG Pathway	0.035140817	11.95410628	50.49247947
Ferroptosis	KEGG Pathway	0.080459576	26.23684211	84.30284541
Legionellosis	KEGG Pathway	0.095156932	18.72556391	54.13980607
Leishmaniasis	KEGG Pathway	0.111422186	13.78393352	35.83676501
Ubiquitin mediated proteolysis	KEGG Pathway	0.174836683	7.512684589	15.26265774
Viral carcinogenesis	KEGG Pathway	0.209489549	5.153204794	8.705355125
Human immunodeficiency virus 1 infection	KEGG Pathway	0.209489549	4.931154901	8.136863222
MicroRNAs in cancer	KEGG Pathway	0.26844043	3.350536536	4.406378559

>KU501215.1 Zika virus strain PRVABC59, complete genome GTTGTTGATCTGTGTGAATCAGACTGCGACAGTTCGAGTTTGAAGCGAAAGCTAGCAACAGTATCAACAG GTTTTATTTTGGATTTGGAAACGAGAGTTTCTGGTCATGAAAAACCCAAAAAAGAAATCCGGAGGATTCC GGATTGTCAATATGCTAAAACGCGGAGTAGCCCGTGTGAGCCCCTTTGGGGGCTTGAAGAGGCTGCCAGC CGGACTTCTGCTGGGTCATGGGCCCATCAGGATGGTCTTGGCGATTCTAGCCTTTTTGAGATTCACGGCA ATCAAGCCATCACTGGGTCTCATCAATAGATGGGGTTCAGTGGGGAAAAAAGAGGCTATGGAAACAATAA AGAAGTTCAAGAAAGATCTGGCTGCCATGCTGAGAATAATCAATGCTAGGAAGGAGAAGAAGAGACGAGG CGCAGATACTAGTGTCGGAATTGTTGGCCTCCTGCTGACCACAGCTATGGCAGCGGAGGTCACTAGACGT GGGAGTGCATACTATATGTACTTGGACAGAAACGATGCTGGGGAGGCCATATCTTTTCCAACCACATTGG GGATGAATAAGTGTTATATACAGATCATGGATCTTGGACACATGTGTGATGCCACCATGAGCTATGAATG CCCTATGCTGGATGAGGGGGTGGAACCAGATGACGTCGATTGTTGGTGCAACACGACGTCAACTTGGGTT GTGTACGGAACCTGCCATCACAAAAAAGGTGAAGCACGGAGATCTAGAAGAGCTGTGACGCTCCCCTCCC ATTCCACCAGGAAGCTGCAAACGCGGTCGCAAACCTGGTTGGAATCAAGAGAATACACAAAGCACTTGAT TAGAGTCGAAAATTGGATATTCAGGAACCCTGGCTTCGCGTTAGCAGCAGCTGCCATCGCTTGGCTTTTG GGAAGCTCAACGAGCCAAAAAGTCATATACTTGGTCATGATACTGCTGATTGCCCCGGCATACAGCATCA GGTGCATAGGAGTCAGCAATAGGGACTTTGTGGAAGGTATGTCAGGTGGGACTTGGGTTGATGTTGTCTT GGAACATGGAGGTTGTGTCACCGTAATGGCACAGGACAAACCGACTGTCGACATAGAGCTGGTTACAACA ACAGTCAGCAACATGGCGGAGGTAAGATCCTACTGCTATGAGGCATCAATATCAGACATGGCTTCTGACA GCCGCTGCCCAACACAAGGTGAAGCCTACCTTGACAAGCAATCAGACACTCAATATGTCTGCAAAAGAAC GTTAGTGGACAGAGGCTGGGGAAATGGATGTGGACTTTTTGGCAAAGGGAGCCTGGTGACATGCGCTAAG TTTGCATGCTCCAAGAAAATGACCGGGAAGAGCATCCAGCCAGAGAATCTGGAGTACCGGATAATGCTGT CAGTTCATGGCTCCCAGCACAGTGGGATGATCGTTAATGACACAGGACATGAAACTGATGAGAATAGAGC GAAAGTTGAGATAACGCCCAATTCACCGAGAGCCGAAGCCACCCTGGGGGGTTTTGGAAGCCTAGGACTT GATTGTGAACCGAGGACAGGCCTTGACTTTTCAGATTTGTATTACTTGACTATGAATAACAAGCACTGGT TGGTTCACAAGGAGTGGTTCCACGACATTCCATTACCTTGGCACGCTGGGGCAGACACCGGAACTCCACA CTGGAACAACAAAGAAGCACTGGTAGAGTTCAAGGACGCACATGCCAAAAGGCAAACTGTCGTGGTTCTA GGGAGTCAAGAAGGAGCAGTTCACACGGCCCTTGCTGGAGCTCTGGAGGCTGAGATGGATGGTGCAAAGG GAAGGCTGTCCTCTGGCCACTTGAAATGTCGCCTGAAAATGGATAAACTTAGATTGAAGGGCGTGTCATA CTCCTTGTGTACTGCAGCGTTCACATTCACCAAGATCCCGGCTGAAACACTGCACGGGACAGTCACAGTG GAGGTACAGTACGCAGGGACAGATGGACCTTGCAAGGTTCCAGCTCAGATGGCGGTGGACATGCAAACTC TGACCCCAGTTGGGAGGTTGATAACCGCTAACCCCGTAATCACTGAAAGCACTGAGAACTCTAAGATGAT GCTGGAACTTGATCCACCATTTGGGGACTCTTACATTGTCATAGGAGTCGGGGAGAAGAAGATCACCCAC CACTGGCACAGGAGTGGCAGCACCATTGGAAAAGCATTTGAAGCCACTGTGAGAGGTGCCAAGAGAATGG CAGTCTTGGGAGACACAGCCTGGGACTTTGGATCAGTTGGAGGCGCTCTCAACTCATTGGGCAAGGGCAT CCATCAAATTTTTGGAGCAGCTTTCAAATCATTGTTTGGAGGAATGTCCTGGTTCTCACAAATTCTCATT GGAACGTTGCTGATGTGGTTGGGTCTGAACACAAAGAATGGATCTATTTCCCTTATGTGCTTGGCCTTAG GGGGAGTGTTGATCTTCTTATCCACAGCCGTCTCTGCTGATGTGGGGTGCTCGGTGGACTTCTCAAAGAA GGAGACGAGATGCGGTACAGGGGTGTTCGTCTATAACGACGTTGAAGCCTGGAGGGACAGGTACAAGTAC CATCCTGACTCCCCCCGTAGATTGGCAGCAGCAGTCAAGCAAGCCTGGGAAGATGGTATCTGCGGGATCT CCTCTGTTTCAAGAATGGAAAACATCATGTGGAGATCAGTAGAAGGGGAGCTCAACGCAATCCTGGAAGA GAATGGAGTTCAACTGACGGTCGTTGTGGGATCTGTAAAAAACCCCATGTGGAGAGGTCCACAGAGATTG CCCGTGCCTGTGAACGAGCTGCCCCACGGCTGGAAGGCTTGGGGGAAATCGTATTTCGTCAGAGCAGCAA AGACAAATAACAGCTTTGTCGTGGATGGTGACACACTGAAGGAATGCCCACTCAAACATAGAGCATGGAA CAGCTTTCTTGTGGAGGATCATGGGTTCGGGGTATTTCACACTAGTGTCTGGCTCAAGGTTAGAGAAGAT TATTCATTAGAGTGTGATCCAGCCGTTATTGGAACAGCTGTTAAGGGAAAGGAGGCTGTACACAGTGATC TAGGCTACTGGATTGAGAGTGAGAAGAATGACACATGGAGGCTGAAGAGGGCCCATCTGATCGAGATGAA AACATGTGAATGGCCAAAGTCCCACACATTGTGGACAGATGGAATAGAAGAGAGTGATCTGATCATACCC AAGTCTTTAGCTGGGCCACTCAGCCATCACAATACCAGAGAGGGCTACAGGACCCAAATGAAAGGGCCAT GGCACAGTGAAGAGCTTGAAATTCGGTTTGAGGAATGCCCAGGCACTAAGGTCCACGTGGAGGAAACATG TGGAACAAGAGGACCATCTCTGAGATCAACCACTGCAAGCGGAAGGGTGATCGAGGAATGGTGCTGCAGG GAGTGCACAATGCCCCCACTGTCGTTCCGGGCTAAAGATGGCTGTTGGTATGGAATGGAGATAAGGCCCA GGAAAGAACCAGAAAGCAACTTAGTAAGGTCAATGGTGACTGCAGGATCAACTGATCACATGGACCACTT CTCCCTTGGAGTGCTTGTGATCCTGCTCATGGTGCAGGAAGGGCTGAAGAAGAGAATGACCACAAAGATC ATCATAAGCACATCAATGGCAGTGCTGGTAGCTATGATCCTGGGAGGATTTTCAATGAGTGACCTGGCTA AGCTTGCAATTTTGATGGGTGCCACCTTCGCGGAAATGAACACTGGAGGAGATGTAGCTCATCTGGCGCT GATAGCGGCATTCAAAGTCAGACCAGCGTTGCTGGTATCTTTCATCTTCAGAGCTAATTGGACACCCCGT GAAAGCATGCTGCTGGCCTTGGCCTCGTGTCTTTTGCAAACTGCGATCTCCGCCTTGGAAGGCGACCTGA TGGTTCTCATCAATGGTTTTGCTTTGGCCTGGTTGGCAATACGAGCGATGGTTGTTCCACGCACTGATAA CATCACCTTGGCAATCCTGGCTGCTCTGACACCACTGGCCCGGGGCACACTGCTTGTGGCGTGGAGAGCA GGCCTTGCTACTTGCGGGGGGTTTATGCTCCTCTCTCTGAAGGGAAAAGGCAGTGTGAAGAAGAACTTAC CATTTGTCATGGCCCTGGGACTAACCGCTGTGAGGCTGGTCGACCCCATCAACGTGGTGGGACTGCTGTT GCTCACAAGGAGTGGGAAGCGGAGCTGGCCCCCTAGCGAAGTACTCACAGCTGTTGGCCTGATATGCGCA TTGGCTGGAGGGTTCGCCAAGGCAGATATAGAGATGGCTGGGCCCATGGCCGCGGTCGGTCTGCTAATTG TCAGTTACGTGGTCTCAGGAAAGAGTGTGGACATGTACATTGAAAGAGCAGGTGACATCACATGGGAAAA AGATGCGGAAGTCACTGGAAACAGTCCCCGGCTCGATGTGGCGCTAGATGAGAGTGGTGATTTCTCCCTG GTGGAGGATGACGGTCCCCCCATGAGAGAGATCATACTCAAGGTGGTCCTGATGACCATCTGTGGCATGA ACCCAATAGCCATACCCTTTGCAGCTGGAGCGTGGTACGTATACGTGAAGACTGGAAAAAGGAGTGGTGC TCTATGGGATGTGCCTGCTCCCAAGGAAGTAAAAAAGGGGGAGACCACAGATGGAGTGTACAGAGTAATG ACTCGTAGACTGCTAGGTTCAACACAAGTTGGAGTGGGAGTTATGCAAGAGGGGGTCTTTCACACTATGT GGCACGTCACAAAAGGATCCGCGCTGAGAAGCGGTGAAGGGAGACTTGATCCATACTGGGGAGATGTCAA GCAGGATCTGGTGTCATACTGTGGTCCATGGAAGCTAGATGCCGCCTGGGATGGGCACAGCGAGGTGCAG CTCTTGGCCGTGCCCCCCGGAGAGAGAGCGAGGAACATCCAGACTCTGCCCGGAATATTTAAGACAAAGG ATGGGGACATTGGAGCGGTTGCGCTGGATTACCCAGCAGGAACTTCAGGATCTCCAATCCTAGACAAGTG TGGGAGAGTGATAGGACTTTATGGCAATGGGGTCGTGATCAAAAACGGGAGTTATGTTAGTGCCATCACC CAAGGGAGGAGGGAGGAAGAGACTCCTGTTGAGTGCTTCGAGCCCTCGATGCTGAAGAAGAAGCAGCTAA CTGTCTTAGACTTGCATCCTGGAGCTGGGAAAACCAGGAGAGTTCTTCCTGAAATAGTCCGTGAAGCCAT AAAAACAAGACTCCGTACTGTGATCTTAGCTCCAACCAGGGTTGTCGCTGCTGAAATGGAGGAGGCCCTT AGAGGGCTTCCAGTGCGTTATATGACAACAGCAGTCAATGTCACCCACTCTGGAACAGAAATCGTCGACT TAATGTGCCATGCCACCTTCACTTCACGTCTACTACAGCCAATCAGAGTCCCCAACTATAATCTGTATAT TATGGATGAGGCCCACTTCACAGATCCCTCAAGTATAGCAGCAAGAGGATACATTTCAACAAGGGTTGAG ATGGGCGAGGCGGCTGCCATCTTCATGACCGCCACGCCACCAGGAACCCGTGACGCATTTCCGGACTCCA ACTCACCAATTATGGACACCGAAGTGGAAGTCCCAGAGAGAGCCTGGAGCTCAGGCTTTGATTGGGTGAC GGATCATTCTGGAAAAACAGTTTGGTTTGTTCCAAGCGTGAGGAACGGCAATGAGATCGCAGCTTGTCTG ACAAAGGCTGGAAAACGGGTCATACAGCTCAGCAGAAAGACTTTTGAGACAGAGTTCCAGAAAACAAAAC ATCAAGAGTGGGACTTTGTCGTGACAACTGACATTTCAGAGATGGGCGCCAACTTTAAAGCTGACCGTGT CATAGATTCCAGGAGATGCCTAAAGCCGGTCATACTTGATGGCGAGAGAGTCATTCTGGCTGGACCCATG CCTGTCACACATGCCAGCGCTGCCCAGAGGAGGGGGCGCATAGGCAGGAATCCCAACAAACCTGGAGATG AGTATCTGTATGGAGGTGGGTGCGCAGAGACTGACGAAGACCATGCACACTGGCTTGAAGCAAGAATGCT CCTTGACAATATTTACCTCCAAGATGGCCTCATAGCCTCGCTCTATCGACCTGAGGCCGACAAAGTAGCA GCCATTGAGGGAGAGTTCAAGCTTAGGACGGAGCAAAGGAAGACCTTTGTGGAACTCATGAAAAGAGGAG ATCTTCCTGTTTGGCTGGCCTATCAGGTTGCATCTGCCGGAATAACCTACACAGATAGAAGATGGTGCTT TGATGGCACGACCAACAACACCATAATGGAAGACAGTGTGCCGGCAGAGGTGTGGACCAGACACGGAGAG AAAAGAGTGCTCAAACCGAGGTGGATGGACGCCAGAGTTTGTTCAGATCATGCGGCCCTGAAGTCATTCA AGGAGTTTGCCGCTGGGAAAAGAGGAGCGGCTTTTGGAGTGATGGAAGCCCTGGGAACACTGCCAGGACA CATGACAGAGAGATTCCAGGAAGCCATTGACAACCTCGCTGTGCTCATGCGGGCAGAGACTGGAAGCAGG CCTTACAAAGCCGCGGCGGCCCAATTGCCGGAGACCCTAGAGACCATAATGCTTTTGGGGTTGCTGGGAA CAGTCTCGCTGGGAATCTTCTTCGTCTTGATGAGGAACAAGGGCATAGGGAAGATGGGCTTTGGAATGGT GACTCTTGGGGCCAGCGCATGGCTCATGTGGCTCTCGGAAATTGAGCCAGCCAGAATTGCATGTGTCCTC ATTGTTGTGTTCCTATTGCTGGTGGTGCTCATACCTGAGCCAGAAAAGCAAAGATCTCCCCAGGACAACC AAATGGCAATCATCATCATGGTAGCAGTAGGTCTTCTGGGCTTGATTACCGCCAATGAACTCGGATGGTT GGAGAGAACAAAGAGTGACCTAAGCCATCTAATGGGAAGGAGAGAGGAGGGGGCAACCATAGGATTCTCA ATGGACATTGACCTGCGGCCAGCCTCAGCTTGGGCCATCTATGCTGCCTTGACAACTTTCATTACCCCAG CCGTCCAACATGCAGTGACCACCTCATACAACAACTACTCCTTAATGGCGATGGCCACGCAAGCTGGAGT GTTGTTTGGCATGGGCAAAGGGATGCCATTCTACGCATGGGACTTTGGAGTCCCGCTGCTAATGATAGGT TGCTACTCACAATTAACACCCCTGACCCTAATAGTGGCCATCATTTTGCTCGTGGCGCACTACATGTACT TGATCCCAGGGCTGCAGGCAGCAGCTGCGCGTGCTGCCCAGAAGAGAACGGCAGCTGGCATCATGAAGAA CCCTGTTGTGGATGGAATAGTGGTGACTGACATTGACACAATGACAATTGACCCCCAAGTGGAGAAAAAG ATGGGACAGGTGCTACTCATAGCAGTAGCCGTCTCCAGCGCCATACTGTCGCGGACCGCCTGGGGGTGGG GGGAGGCTGGGGCTCTGATCACAGCCGCAACTTCCACTTTGTGGGAAGGCTCTCCGAACAAGTACTGGAA CTCCTCTACAGCCACTTCACTGTGTAACATTTTTAGGGGAAGTTACTTGGCTGGAGCTTCTCTAATCTAC ACAGTAACAAGAAACGCTGGCTTGGTCAAGAGACGTGGGGGTGGAACAGGAGAGACCCTGGGAGAGAAAT GGAAGGCCCGCTTGAACCAGATGTCGGCCCTGGAGTTCTACTCCTACAAAAAGTCAGGCATCACCGAGGT GTGCAGAGAAGAGGCCCGCCGCGCCCTCAAGGACGGTGTGGCAACGGGAGGCCATGCTGTGTCCCGAGGA AGTGCAAAGCTGAGATGGTTGGTGGAGCGGGGATACCTGCAGCCCTATGGAAAGGTCATTGATCTTGGAT GTGGCAGAGGGGGCTGGAGTTACTACGTCGCCACCATCCGCAAAGTTCAAGAAGTGAAAGGATACACAAA AGGAGGCCCTGGTCATGAAGAACCCGTGTTGGTGCAAAGCTATGGGTGGAACATAGTCCGTCTTAAGAGT GGGGTGGACGTCTTTCATATGGCGGCTGAGCCGTGTGACACGTTGCTGTGTGACATAGGTGAGTCATCAT CTAGTCCTGAAGTGGAAGAAGCACGGACGCTCAGAGTCCTCTCCATGGTGGGGGATTGGCTTGAAAAAAG ACCAGGAGCCTTTTGTATAAAAGTGTTGTGCCCATACACCAGCACTATGATGGAAACCCTGGAGCGACTG CAGCGTAGGTATGGGGGAGGACTGGTCAGAGTGCCACTCTCCCGCAACTCTACACATGAGATGTACTGGG TCTCTGGAGCGAAAAGCAACACCATAAAAAGTGTGTCCACCACGAGCCAGCTCCTCTTGGGGCGCATGGA CGGGCCTAGGAGGCCAGTGAAATATGAGGAGGATGTGAATCTCGGCTCTGGCACGCGGGCTGTGGTAAGC TGCGCTGAAGCTCCCAACATGAAGATCATTGGTAACCGCATTGAAAGGATCCGCAGTGAGCACGCGGAAA CGTGGTTCTTTGACGAGAACCACCCATATAGGACATGGGCTTACCATGGAAGCTATGAGGCCCCCACACA AGGGTCAGCGTCCTCTCTAATAAACGGGGTTGTCAGGCTCCTGTCAAAACCCTGGGATGTGGTGACTGGA GTCACAGGAATAGCCATGACCGACACCACACCGTATGGTCAGCAAAGAGTTTTCAAGGAAAAAGTGGACA CTAGGGTGCCAGACCCCCAAGAAGGCACTCGTCAGGTTATGAGCATGGTCTCTTCCTGGTTGTGGAAAGA GCTAGGCAAACACAAACGGCCACGAGTCTGCACCAAAGAAGAGTTCATCAACAAGGTTCGTAGCAATGCA GCATTAGGGGCAATATTTGAAGAGGAAAAAGAGTGGAAGACTGCAGTGGAAGCTGTGAACGATCCAAGGT TCTGGGCTCTAGTGGACAAGGAAAGAGAGCACCACCTGAGAGGAGAGTGCCAGAGCTGTGTGTACAACAT GATGGGAAAAAGAGAAAAGAAACAAGGGGAATTTGGAAAGGCCAAGGGCAGCCGCGCCATCTGGTATATG TGGCTAGGGGCTAGATTTCTAGAGTTCGAAGCCCTTGGATTCTTGAACGAGGATCACTGGATGGGGAGAG AGAACTCAGGAGGTGGTGTTGAAGGGCTGGGATTACAAAGACTCGGATATGTCCTAGAAGAGATGAGTCG TATACCAGGAGGAAGGATGTATGCAGATGACACTGCTGGCTGGGACACCCGCATTAGCAGGTTTGATCTG GAGAATGAAGCTCTAATCACCAACCAAATGGAGAAAGGGCACAGGGCCTTGGCATTGGCCATAATCAAGT ACACATACCAAAACAAAGTGGTAAAGGTCCTTAGACCAGCTGAAAAAGGGAAAACAGTTATGGACATTAT TTCGAGACAAGACCAAAGGGGGAGCGGACAAGTTGTCACTTACGCTCTTAACACATTTACCAACCTAGTG GTGCAACTCATTCGGAATATGGAGGCTGAGGAAGTTCTAGAGATGCAAGACTTGTGGCTGCTGCGGAGGT CAGAGAAAGTGACCAACTGGTTGCAGAGCAACGGATGGGATAGGCTCAAACGAATGGCAGTCAGTGGAGA TGATTGCGTTGTGAAGCCAATTGATGATAGGTTTGCACATGCCCTCAGGTTCTTGAATGATATGGGAAAA GTTAGGAAGGACACACAAGAGTGGAAACCCTCAACTGGATGGGACAACTGGGAAGAAGTTCCGTTTTGCT CCCACCACTTCAACAAGCTCCATCTCAAGGACGGGAGGTCCATTGTGGTTCCCTGCCGCCACCAAGATGA ACTGATTGGCCGGGCCCGCGTCTCTCCAGGGGCGGGATGGAGCATCCGGGAGACTGCTTGCCTAGCAAAA TCATATGCGCAAATGTGGCAGCTCCTTTATTTCCACAGAAGGGACCTCCGACTGATGGCCAATGCCATTT GTTCATCTGTGCCAGTTGACTGGGTTCCAACTGGGAGAACTACCTGGTCAATCCATGGAAAGGGAGAATG GATGACCACTGAAGACATGCTTGTGGTGTGGAACAGAGTGTGGATTGAGGAGAACGACCACATGGAAGAC AAGACCCCAGTTACGAAATGGACAGACATTCCCTATTTGGGAAAAAGGGAAGACTTGTGGTGTGGATCTC TCATAGGGCACAGACCGCGCACCACCTGGGCTGAGAACATTAAAAACACAGTCAACATGGTGCGCAGGAT CATAGGTGATGAAGAAAAGTACATGGACTACCTATCCACCCAAGTTCGCTACTTGGGTGAAGAAGGGTCT ACACCTGGAGTGCTGTAAGCACCAATCTTAATGTTGTCAGGCCTGCTAGTCAGCCACAGCTTGGGGAAAG CTGTGCAGCCTGTGACCCCCCCAGGAGAAGCTGGGAAACCAAGCCTATAGTCAGGCCGAGAACGCCATGG CACGGAAGAAGCCATGCTGCCTGTGAGCCCCTCAGAGGACACTGAGTCAAAAAACCCCACGCGCTTGGAG GCGCAGGATGGGAAAAGAAGGTGGCGACCTTCCCCACCCTTCAATCTGGGGCCTGAACTGGAGATCAGCT GTGGATCTCCAGAAGAGGGACTAGTGGTTAGAGGA

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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