Details of Virus RNA

Virus RNA General Information
Strain Information	Strain Name	hCoV-HKU1/Hong Kong/2004
	Strain Family	Beta
	RNA Binding Site	3'-UTR
Virus Information	Virus Name	Human coronavirus HKU1 (HCoV-HKU1)
	Taxonomy ID	290028
	GeneBank ID	NC_006577

Virus RNA - Host Protein Network
Regulation Network
Regulation Network		Network Download

Full list of proteins interacting with the 3'-UTR of this Strain
*hnRNP A1 messenger RNA (HNRNPA1)*
Protein Details	Pro Info Click to show the detail information of this Protein	[1]
Infection Cells	HepG2 cells (hepatocellular carcinoma cell line) (CVCL_0027 )
Cell Originated Tissue	Liver
Interaction Type	Potential binding protein
Description of Detection Method	ENCODE project database; Pysster model; DeepRiPe (Section 3.6; 3.7; 3.8; 3.9); ClustalO (72) algorithm
*IGF2-binding protein 1 (IMP-1)*
Protein Details	Pro Info Click to show the detail information of this Protein	[1]
Infection Cells	HepG2 cells (hepatocellular carcinoma cell line) (CVCL_0027 )
Cell Originated Tissue	Liver
Interaction Type	Potential binding protein
Description of Detection Method	ENCODE project database; Pysster model; DeepRiPe (Section 3.6; 3.7; 3.8; 3.9); ClustalO (72) algorithm
*Polypyrimidine tract-binding protein (PTBP1)*
Protein Details	Pro Info Click to show the detail information of this Protein	[1]
Infection Cells	HepG2 cells (hepatocellular carcinoma cell line) (CVCL_0027 )
Cell Originated Tissue	Liver
Interaction Type	Potential binding protein
Description of Detection Method	ENCODE project database; Pysster model; DeepRiPe (Section 3.6; 3.7; 3.8; 3.9); ClustalO (72) algorithm
*Heterogeneous nuclear ribonucleoprotein L (LGALS4)*
Protein Details	Pro Info Click to show the detail information of this Protein	[1]
Infection Cells	HepG2 cells (hepatocellular carcinoma cell line) (CVCL_0027 )
Cell Originated Tissue	Liver
Interaction Type	Potential binding protein
Description of Detection Method	ENCODE project database; Pysster model; DeepRiPe (Section 3.6; 3.7; 3.8; 3.9); ClustalO (72) algorithm
*Heterogeneous nuclear ribonucleoprotein K (HNRNPK)*
Protein Details	Pro Info Click to show the detail information of this Protein	[1]
Infection Cells	HepG2 cells (hepatocellular carcinoma cell line) (CVCL_0027 )
Cell Originated Tissue	Liver
Interaction Type	Potential binding protein
Description of Detection Method	ENCODE project database; Pysster model; DeepRiPe (Section 3.6; 3.7; 3.8; 3.9); ClustalO (72) algorithm
*NonO protein (NONO)*
Protein Details	Pro Info Click to show the detail information of this Protein	[1]
Infection Cells	K562 cells (Human leukemic cell line) (CVCL_0004 )
Cell Originated Tissue	Bone marrow
Interaction Type	Potential binding protein
Description of Detection Method	ENCODE project database; Pysster model; DeepRiPe (Section 3.6; 3.7; 3.8; 3.9); ClustalO (72) algorithm
*40S ribosomal protein S3a (RPS3)*
Protein Details	Pro Info Click to show the detail information of this Protein	[1]
Infection Cells	HepG2 cells (hepatocellular carcinoma cell line) (CVCL_0027 )
Cell Originated Tissue	Liver
Interaction Type	Potential binding protein
Description of Detection Method	ENCODE project database; Pysster model; DeepRiPe (Section 3.6; 3.7; 3.8; 3.9); ClustalO (72) algorithm
*Cleavage factor Im complex 68 kDa subunit (CFIm68)*
Protein Details	Pro Info Click to show the detail information of this Protein	[1]
Infection Cells	K562 cells (Human leukemic cell line) (CVCL_0004 )
Cell Originated Tissue	Bone marrow
Interaction Type	Potential binding protein
Description of Detection Method	ENCODE project database; Pysster model; DeepRiPe (Section 3.6; 3.7; 3.8; 3.9); ClustalO (72) algorithm
*Cleavage stimulation factor 64 kDa subunit (CstF-64)*
Protein Details	Pro Info Click to show the detail information of this Protein	[1]
Infection Cells	HepG2 cells (hepatocellular carcinoma cell line) (CVCL_0027 )
Cell Originated Tissue	Liver
Interaction Type	Potential binding protein
Description of Detection Method	ENCODE project database; Pysster model; DeepRiPe (Section 3.6; 3.7; 3.8; 3.9); ClustalO (72) algorithm
*CSTF 64 kDa subunit tau variant (TauCstF-64)*
Protein Details	Pro Info Click to show the detail information of this Protein	[1]
Infection Cells	HepG2 cells (hepatocellular carcinoma cell line) (CVCL_0027 )
Cell Originated Tissue	Liver
Interaction Type	Potential binding protein
Description of Detection Method	ENCODE project database; Pysster model; DeepRiPe (Section 3.6; 3.7; 3.8; 3.9); ClustalO (72) algorithm
*DEAD box protein 59 (DDX59)*
Protein Details	Pro Info Click to show the detail information of this Protein	[1]
Infection Cells	HepG2 cells (hepatocellular carcinoma cell line) (CVCL_0027 )
Cell Originated Tissue	Liver
Interaction Type	Potential binding protein
Description of Detection Method	ENCODE project database; Pysster model; DeepRiPe (Section 3.6; 3.7; 3.8; 3.9); ClustalO (72) algorithm
*EBNA2 coactivator p100 (SND1)*
Protein Details	Pro Info Click to show the detail information of this Protein	[1]
Infection Cells	HepG2 cells (hepatocellular carcinoma cell line) (CVCL_0027 )
Cell Originated Tissue	Liver
Interaction Type	Potential binding protein
Description of Detection Method	ENCODE project database; Pysster model; DeepRiPe (Section 3.6; 3.7; 3.8; 3.9); ClustalO (72) algorithm
*Far upstream element-binding protein 2 (KHSRP)*
Protein Details	Pro Info Click to show the detail information of this Protein	[1]
Infection Cells	HepG2 cells (hepatocellular carcinoma cell line) (CVCL_0027 )
Cell Originated Tissue	Liver
Interaction Type	Potential binding protein
Description of Detection Method	ENCODE project database; Pysster model; DeepRiPe (Section 3.6; 3.7; 3.8; 3.9); ClustalO (72) algorithm
*Far upstream element-binding protein 3 (FUBP3)*
Protein Details	Pro Info Click to show the detail information of this Protein	[1]
Infection Cells	HepG2 cells (hepatocellular carcinoma cell line) (CVCL_0027 )
Cell Originated Tissue	Liver
Interaction Type	Potential binding protein
Description of Detection Method	ENCODE project database; Pysster model; DeepRiPe (Section 3.6; 3.7; 3.8; 3.9); ClustalO (72) algorithm
*FK506-binding protein 4 (FKBP4)*
Protein Details	Pro Info Click to show the detail information of this Protein	[1]
Infection Cells	HepG2 cells (hepatocellular carcinoma cell line) (CVCL_0027 )
Cell Originated Tissue	Liver
Interaction Type	Potential binding protein
Description of Detection Method	ENCODE project database; Pysster model; DeepRiPe (Section 3.6; 3.7; 3.8; 3.9); ClustalO (72) algorithm
*G patch domain-containing protein 7 (VG5Q)*
Protein Details	Pro Info Click to show the detail information of this Protein	[1]
Infection Cells	HepG2 cells (hepatocellular carcinoma cell line) (CVCL_0027 )
Cell Originated Tissue	Liver
Interaction Type	Potential binding protein
Description of Detection Method	ENCODE project database; Pysster model; DeepRiPe (Section 3.6; 3.7; 3.8; 3.9); ClustalO (72) algorithm
*G-patch domain-containing protein 5 (GPKOW)*
Protein Details	Pro Info Click to show the detail information of this Protein	[1]
Infection Cells	K562 cells (Human leukemic cell line) (CVCL_0004 )
Cell Originated Tissue	Bone marrow
Interaction Type	Potential binding protein
Description of Detection Method	ENCODE project database; Pysster model; DeepRiPe (Section 3.6; 3.7; 3.8; 3.9); ClustalO (72) algorithm
*G-rich sequence factor 1 (GRSF1)*
Protein Details	Pro Info Click to show the detail information of this Protein	[1]
Infection Cells	HepG2 cells (hepatocellular carcinoma cell line) (CVCL_0027 )
Cell Originated Tissue	Liver
Interaction Type	Potential binding protein
Description of Detection Method	ENCODE project database; Pysster model; DeepRiPe (Section 3.6; 3.7; 3.8; 3.9); ClustalO (72) algorithm
*GAP SH3 domain-binding protein 1 (G3BP1)*
Protein Details	Pro Info Click to show the detail information of this Protein	[1]
Infection Cells	HepG2 cells (hepatocellular carcinoma cell line) (CVCL_0027 )
Cell Originated Tissue	Liver
Interaction Type	Potential binding protein
Description of Detection Method	ENCODE project database; Pysster model; DeepRiPe (Section 3.6; 3.7; 3.8; 3.9); ClustalO (72) algorithm
*GAP-associated tyrosine phosphoprotein p62 (KHDRBS1)*
Protein Details	Pro Info Click to show the detail information of this Protein	[1]
Infection Cells	K562 cells (Human leukemic cell line) (CVCL_0004 )
Cell Originated Tissue	Bone marrow
Interaction Type	Potential binding protein
Description of Detection Method	ENCODE project database; Pysster model; DeepRiPe (Section 3.6; 3.7; 3.8; 3.9); ClustalO (72) algorithm
*Helicase-like protein 2 (HLP2)*
Protein Details	Pro Info Click to show the detail information of this Protein	[1]
Infection Cells	HepG2 cells (hepatocellular carcinoma cell line) (CVCL_0027 )
Cell Originated Tissue	Liver
Interaction Type	Potential binding protein
Description of Detection Method	ENCODE project database; Pysster model; DeepRiPe (Section 3.6; 3.7; 3.8; 3.9); ClustalO (72) algorithm
*Heterogeneous nuclear ribonucleoprotein M (HNRNPM)*
Protein Details	Pro Info Click to show the detail information of this Protein	[1]
Infection Cells	HepG2 cells (hepatocellular carcinoma cell line) (CVCL_0027 )
Cell Originated Tissue	Liver
Interaction Type	Potential binding protein
Description of Detection Method	ENCODE project database; Pysster model; DeepRiPe (Section 3.6; 3.7; 3.8; 3.9); ClustalO (72) algorithm
*hFXR1p (FXR1)*
Protein Details	Pro Info Click to show the detail information of this Protein	[1]
Infection Cells	K562 cells (Human leukemic cell line) (CVCL_0004 )
Cell Originated Tissue	Bone marrow
Interaction Type	Potential binding protein
Description of Detection Method	ENCODE project database; Pysster model; DeepRiPe (Section 3.6; 3.7; 3.8; 3.9); ClustalO (72) algorithm
*IF-4-gamma 2 (EIF4G2)*
Protein Details	Pro Info Click to show the detail information of this Protein	[1]
Infection Cells	K562 cells (Human leukemic cell line) (CVCL_0004 )
Cell Originated Tissue	Bone marrow
Interaction Type	Potential binding protein
Description of Detection Method	ENCODE project database; Pysster model; DeepRiPe (Section 3.6; 3.7; 3.8; 3.9); ClustalO (72) algorithm
*IGF2-binding protein 2 (IMP-2)*
Protein Details	Pro Info Click to show the detail information of this Protein	[1]
Infection Cells	K562 cells (Human leukemic cell line) (CVCL_0004 )
Cell Originated Tissue	Bone marrow
Interaction Type	Potential binding protein
Description of Detection Method	ENCODE project database; Pysster model; DeepRiPe (Section 3.6; 3.7; 3.8; 3.9); ClustalO (72) algorithm
*Interleukin enhancer-binding factor 3 (ILF3)*
Protein Details	Pro Info Click to show the detail information of this Protein	[1]
Infection Cells	HepG2 cells (hepatocellular carcinoma cell line) (CVCL_0027 )
Cell Originated Tissue	Liver
Interaction Type	Potential binding protein
Description of Detection Method	ENCODE project database; Pysster model; DeepRiPe (Section 3.6; 3.7; 3.8; 3.9); ClustalO (72) algorithm
*m6A(m)-demethylase FTO (KIAA1752)*
Protein Details	Pro Info Click to show the detail information of this Protein	[1]
Infection Cells	HepG2 cells (hepatocellular carcinoma cell line) (CVCL_0027 )
Cell Originated Tissue	Liver
Interaction Type	Potential binding protein
Description of Detection Method	ENCODE project database; Pysster model; DeepRiPe (Section 3.6; 3.7; 3.8; 3.9); ClustalO (72) algorithm
*Matrin-3 (MATR3)*
Protein Details	Pro Info Click to show the detail information of this Protein	[1]
Infection Cells	HepG2 cells (hepatocellular carcinoma cell line) (CVCL_0027 )
Cell Originated Tissue	Liver
Interaction Type	Potential binding protein
Description of Detection Method	ENCODE project database; Pysster model; DeepRiPe (Section 3.6; 3.7; 3.8; 3.9); ClustalO (72) algorithm
*Nuclear cap-binding protein subunit 2 (NCBP2)*
Protein Details	Pro Info Click to show the detail information of this Protein	[1]
Infection Cells	HepG2 cells (hepatocellular carcinoma cell line) (CVCL_0027 )
Cell Originated Tissue	Liver
Interaction Type	Potential binding protein
Description of Detection Method	ENCODE project database; Pysster model; DeepRiPe (Section 3.6; 3.7; 3.8; 3.9); ClustalO (72) algorithm
*Nucleolar protein NAP57 (DKC1)*
Protein Details	Pro Info Click to show the detail information of this Protein	[1]
Infection Cells	HepG2 cells (hepatocellular carcinoma cell line) (CVCL_0027 )
Cell Originated Tissue	Liver
Interaction Type	Potential binding protein
Description of Detection Method	ENCODE project database; Pysster model; DeepRiPe (Section 3.6; 3.7; 3.8; 3.9); ClustalO (72) algorithm
*Nucleolysin TIAR (TIAL1)*
Protein Details	Pro Info Click to show the detail information of this Protein	[1]
Infection Cells	HepG2 cells (hepatocellular carcinoma cell line) (CVCL_0027 )
Cell Originated Tissue	Liver
Interaction Type	Potential binding protein
Description of Detection Method	ENCODE project database; Pysster model; DeepRiPe (Section 3.6; 3.7; 3.8; 3.9); ClustalO (72) algorithm
*Oxidative stress-associated Src activator (OSSA)*
Protein Details	Pro Info Click to show the detail information of this Protein	[1]
Infection Cells	HepG2 cells (hepatocellular carcinoma cell line) (CVCL_0027 )
Cell Originated Tissue	Liver
Interaction Type	Potential binding protein
Description of Detection Method	ENCODE project database; Pysster model; DeepRiPe (Section 3.6; 3.7; 3.8; 3.9); ClustalO (72) algorithm
*Poly(rC)-binding protein 1*
Protein Details	Pro Info Click to show the detail information of this Protein	[1]
Infection Cells	HepG2 cells (hepatocellular carcinoma cell line) (CVCL_0027 )
Cell Originated Tissue	Liver
Interaction Type	Potential binding protein
Description of Detection Method	ENCODE project database; Pysster model; DeepRiPe (Section 3.6; 3.7; 3.8; 3.9); ClustalO (72) algorithm
*Poly(rC)-binding protein 2*
Protein Details	Pro Info Click to show the detail information of this Protein	[1]
Infection Cells	HepG2 cells (hepatocellular carcinoma cell line) (CVCL_0027 )
Cell Originated Tissue	Liver
Interaction Type	Potential binding protein
Description of Detection Method	ENCODE project database; Pysster model; DeepRiPe (Section 3.6; 3.7; 3.8; 3.9); ClustalO (72) algorithm
*Protein AATF (RBFOX2)*
Protein Details	Pro Info Click to show the detail information of this Protein	[1]
Infection Cells	K562 cells (Human leukemic cell line) (CVCL_0004 )
Cell Originated Tissue	Bone marrow
Interaction Type	Potential binding protein
Description of Detection Method	ENCODE project database; Pysster model; DeepRiPe (Section 3.6; 3.7; 3.8; 3.9); ClustalO (72) algorithm
*Pumilio homolog 2 (PUM2)*
Protein Details	Pro Info Click to show the detail information of this Protein	[1]
Infection Cells	K562 cells (Human leukemic cell line) (CVCL_0004 )
Cell Originated Tissue	Bone marrow
Interaction Type	Potential binding protein
Description of Detection Method	ENCODE project database; Pysster model; DeepRiPe (Section 3.6; 3.7; 3.8; 3.9); ClustalO (72) algorithm
*RNA-binding protein 56 (TAFII68)*
Protein Details	Pro Info Click to show the detail information of this Protein	[1]
Infection Cells	HepG2 cells (hepatocellular carcinoma cell line) (CVCL_0027 )
Cell Originated Tissue	Liver
Interaction Type	Potential binding protein
Description of Detection Method	ENCODE project database; Pysster model; DeepRiPe (Section 3.6; 3.7; 3.8; 3.9); ClustalO (72) algorithm
*RNA-binding protein EWS (EWSR1)*
Protein Details	Pro Info Click to show the detail information of this Protein	[1]
Infection Cells	K562 cells (Human leukemic cell line) (CVCL_0004 )
Cell Originated Tissue	Bone marrow
Interaction Type	Potential binding protein
Description of Detection Method	ENCODE project database; Pysster model; DeepRiPe (Section 3.6; 3.7; 3.8; 3.9); ClustalO (72) algorithm
*Scaffold attachment factor B2 (SAFB2)*
Protein Details	Pro Info Click to show the detail information of this Protein	[1]
Infection Cells	K562 cells (Human leukemic cell line) (CVCL_0004 )
Cell Originated Tissue	Bone marrow
Interaction Type	Potential binding protein
Description of Detection Method	ENCODE project database; Pysster model; DeepRiPe (Section 3.6; 3.7; 3.8; 3.9); ClustalO (72) algorithm
*Serine/arginine-rich splicing factor 1 (SRSF1)*
Protein Details	Pro Info Click to show the detail information of this Protein	[1]
Infection Cells	HepG2 cells (hepatocellular carcinoma cell line) (CVCL_0027 )
Cell Originated Tissue	Liver
Interaction Type	Potential binding protein
Description of Detection Method	ENCODE project database; Pysster model; DeepRiPe (Section 3.6; 3.7; 3.8; 3.9); ClustalO (72) algorithm
*Serine/arginine-rich splicing factor 9 (SRSF9)*
Protein Details	Pro Info Click to show the detail information of this Protein	[1]
Infection Cells	HepG2 cells (hepatocellular carcinoma cell line) (CVCL_0027 )
Cell Originated Tissue	Liver
Interaction Type	Potential binding protein
Description of Detection Method	ENCODE project database; Pysster model; DeepRiPe (Section 3.6; 3.7; 3.8; 3.9); ClustalO (72) algorithm
*Splicing factor 3A subunit 3 (SF3A3)*
Protein Details	Pro Info Click to show the detail information of this Protein	[1]
Infection Cells	HepG2 cells (hepatocellular carcinoma cell line) (CVCL_0027 )
Cell Originated Tissue	Liver
Interaction Type	Potential binding protein
Description of Detection Method	ENCODE project database; Pysster model; DeepRiPe (Section 3.6; 3.7; 3.8; 3.9); ClustalO (72) algorithm
*Splicing factor U2AF 65 kDa subunit (U2AF2)*
Protein Details	Pro Info Click to show the detail information of this Protein	[1]
Infection Cells	HepG2 cells (hepatocellular carcinoma cell line) (CVCL_0027 )
Cell Originated Tissue	Liver
Interaction Type	Potential binding protein
Description of Detection Method	ENCODE project database; Pysster model; DeepRiPe (Section 3.6; 3.7; 3.8; 3.9); ClustalO (72) algorithm
*SURP and G-patch domain-containing protein 2 (SUGP2)*
Protein Details	Pro Info Click to show the detail information of this Protein	[1]
Infection Cells	HepG2 cells (hepatocellular carcinoma cell line) (CVCL_0027 )
Cell Originated Tissue	Liver
Interaction Type	Potential binding protein
Description of Detection Method	ENCODE project database; Pysster model; DeepRiPe (Section 3.6; 3.7; 3.8; 3.9); ClustalO (72) algorithm
*Synaptic functional regulator FMR1 (FMR1)*
Protein Details	Pro Info Click to show the detail information of this Protein	[1]
Infection Cells	K562 cells (Human leukemic cell line) (CVCL_0004 )
Cell Originated Tissue	Bone marrow
Interaction Type	Potential binding protein
Description of Detection Method	ENCODE project database; Pysster model; DeepRiPe (Section 3.6; 3.7; 3.8; 3.9); ClustalO (72) algorithm
*TAR DNA binding protein 43 (TARDBP)*
Protein Details	Pro Info Click to show the detail information of this Protein	[1]
Infection Cells	K562 cells (Human leukemic cell line) (CVCL_0004 )
Cell Originated Tissue	Bone marrow
Interaction Type	Potential binding protein
Description of Detection Method	ENCODE project database; Pysster model; DeepRiPe (Section 3.6; 3.7; 3.8; 3.9); ClustalO (72) algorithm
*Y-box-binding protein 3 (YBX3)*
Protein Details	Pro Info Click to show the detail information of this Protein	[1]
Infection Cells	HepG2 cells (hepatocellular carcinoma cell line) (CVCL_0027 )
Cell Originated Tissue	Liver
Interaction Type	Potential binding protein
Description of Detection Method	ENCODE project database; Pysster model; DeepRiPe (Section 3.6; 3.7; 3.8; 3.9); ClustalO (72) algorithm
*Zinc finger protein 265 (ZRANB2)*
Protein Details	Pro Info Click to show the detail information of this Protein	[1]
Infection Cells	K562 cells (Human leukemic cell line) (CVCL_0004 )
Cell Originated Tissue	Bone marrow
Interaction Type	Potential binding protein
Description of Detection Method	ENCODE project database; Pysster model; DeepRiPe (Section 3.6; 3.7; 3.8; 3.9); ClustalO (72) algorithm
*Zinc finger protein 800 (ZNF800)*
Protein Details	Pro Info Click to show the detail information of this Protein	[1]
Infection Cells	HepG2 cells (hepatocellular carcinoma cell line) (CVCL_0027 )
Cell Originated Tissue	Liver
Interaction Type	Potential binding protein
Description of Detection Method	ENCODE project database; Pysster model; DeepRiPe (Section 3.6; 3.7; 3.8; 3.9); ClustalO (72) algorithm

Virus RNA Sequence Information (Source: GeneBank)
>NC_006577.2 Human coronavirus HKU1, complete genome GAGTTTGAGCGATTGACGTTCGTACCGTCTATCAGCTTACGATCTCTTGTCAGATCTCATTAAATCTAAA CTTTTTAAACAAGATTCCCTGTTATCCATGCTTGTGAGTGTGGTTTAATCATAATCTTGTATTTTACTTT CCACACTTTTCATCTCTCTGCCAGTGACGTGTTGGTTGTCCTCAGCGTCCCTCCCATAGGTCGCAATGAT TAAAACCAGCAAATACGGTCTCGGCTTCAAGTGGGCGCCAGAATTTCGTTGGCTGCTTCCGGATGCAGCG GAGGAGTTGGCTAGTCCTATGAAGTCAGATGAGGGTGGGTTATGCCCCTCTACTGGTCAAGCGATGGAAA GTGTTGGATTCGTTTATGATAATCATGTGAAGATAGATTGTCGCTGCATTCTTGGACAAGAATGGCATGT GCAGTCAAATCTTATCCGTGATATTTTTGTTCATGAAGATCTACATGTTGTAGAAGTTCTAACTAAAACA GCCGTAAAGTCCGGTACGGCAATTTTAATTAAATCACCTTTGCATAGCTTGGGTGGTTTTCCTAAAGGGT ATGTTATGGGCTTGTTCCGTTCATACAAGACTAAACGTTATGTTGTACATCATCTTTCTATGACTACATC TACTACTAATTTTGGTGAAGATTTTTTGGGTTGGATTGTACCTTTTGGTTTTATGCCATCTTATGTTCAC AAATGGTTTCAATTCTGTAGGTTGTATATTGAAGAGAGTGATTTAATAATTTCAAATTTTAAATTTGATG ATTATGATTTTAGTGTAGAAGATGCTTATGCTGAGGTTCATGCTGAGCCTAAAGGTAAATATTCACAAAA AGCTTATGCTTTACTTAGACAATATCGTGGTATTAAACCCGTACTTTTTGTAGACCAGTATGGTTGTGAC TATTCTGGTAAATTAGCAGATTGTCTTCAAGCTTATGGTCATTATTCTTTGCAAGATATGAGACAAAAGC AGTCTGTATGGCTTGCCAATTGTGACTTTGATATTGTAGTGGCTTGGCATGTAGTTCGTGATTCACGATT TGTTATGCGCCTGCAGACTATAGCTACTATTTGTGGTATTAAATATGTTGCACAACCTACAGAAGATGTA GTAGATGGAGATGTAGTTATACGTGAACCTGTACATTTATTATCTGCTGATGCAATAGTTTTAAAGCTTC CTAGTTTGATGAAAGTTATGACTCATATGGATGATTTTTCTATTAAATCTATATATAATGTTGATTTGTG TGATTGTGGTTTTGTTATGCAGTATGGTTATGTAGATTGTTTTAATGATAATTGTGATTTTTATGGTTGG GTTTCAGGTAATATGATGGATGGTTTTTCTTGTCCATTGTGTTGTACAGTTTATGACTCTAGCGAAGTTA AAGCCCAATCATCTGGTGTTATTCCTGAAAATCCTGTGTTATTTACTAATAGTACTGATACTGTTAACCA TGATTCTTTTAATTTGTATGGTTATTCTGTCACACCATTTGGTTCTTGTATATATTGGTCGCCGCGTCCT GGATTGTGGATTCCTATAATTAAATCTTCAGTCAAGTCTTATGATGATTTGGTTTATTCAGGTGTAGTAG GTTGTAAATCTATTGTTAAAGAAACTGCTCTTATTACTCATGCACTTTACTTAGATTATGTTCAATGTAA GTGTGGTAATCTTGAACAAAATCATATTCTTGGCGTTAATAATTCTTGGTGTAGGCAACTGTTGCTTAAT AGAGGTGATTATAATATGCTTCTAAAAAATATTGACTTGTTTGTTAAGCGTCGTGCTGATTTTGCTTGCA AGTTTGCAGTTTGTGGAGATGGTTTTGTACCTTTTTTACTAGATGGTTTAATTCCCCGTAGTTATTATCT AATTCAGAGTGGTATTTTCTTTACATCTTTGATGTCTCAATTTTCACAAGAAGTTTCTGATATGTGTTTA AAAATGTGTATTTTGTTTATGGACAGAGTTTCAGTTGCTACATTTTATATAGAGCATTATGTTAATAGGT TGGTTACTCAATTTAAGTTATTGGGTACTACACTTGTTAATAAAATGGTTAATTGGTTTAATACCATGTT AGATGCTAGTGCACCTGCTACAGGCTGGCTTCTTTACCAATTATTGAATGGTCTTTTTGTAGTATCTCAA GCCAACTTTAATTTTGTTGCTTTAATACCTGATTATGCTAAAATTTTAGTTAATAAATTTTACACTTTTT TTAAGTTATTATTAGAGTGTGTTACAGTTGATGTTTTAAAAGATATGCCTGTTCTTAAAACTATTAATGG TTTAGTTTGTATTGTAGGCAATAAGTTTTATAACGTTAGTACAGGGTTAATTCCTGGTTTTGTTTTACCA TGTAATGCACAGGAACAACAAATTTATTTTTTTGAAGGCGTTGCAGAATCTGTTATAGTAGAAGATGATG TTATTGAGAATGTCAAATCTTCTTTATCATCTTATGAGTATTGTCAACCACCTAAATCTGTAGAAAAAAT TTGTATTATAGATAATATGTACATGGGTAAGTGTGGTGATAAATTTTTCCCTATTGTCATGAATGATAAA AATATTTGTCTTTTAGATCAGGCTTGGCGTTTTCCATGTGCAGGTAGAAAAGTTAATTTTAACGAGAAAC CTGTTGTTATGGAGATTCCGTCTTTGATGACAGTTAAGGTTATGTTTGATTTAGATTCTACTTTTGATGA TATTTTAGGTAAAGTTTGTTCAGAATTTGAAGTAGAAAAGGGTGTTACTGTAGATGATTTTGTTGCTGTT GTTTGTGATGCTATAGAGAATGCTTTAAACTCTTGTAAAGAGCATCCAGTGGTTGGTTATCAAGTTCGTG CATTTTTAAATAAACTTAATGAGAATGTTGTTTATTTATTTGATGAGGCTGGTGATGAAGCAATGGCCTC TCGTATGTATTGTACTTTTGCTATTGAGGATGTTGAAGACGTTATCAGTAGTGAAGCTGTCGAAGATACT ATTGATGGTGTCGTTGAAGACACTATTAATGACGATGAAGATGTTGTTACTGGTGACAATGACGATGAAG ATGTTGTTACTGGTGACAATGACGATGAAGATGTTGTTACTGGTGACAATGACGATGAAGATGTTGTTAC TGGTGACAATGACGATGAAGATGTTGTTACTGGTGACAATGACGATGAAGATGTTGTTACTGGTGACAAT GACGATGAAGATGTTGTTACTGGTGACAATGACGATGAAGATGTTGTTACTGGTGACAATGACGATGAAG ATGTTGTTACTGGTGACAATGACGATGAAGATGTTGTTACTGGTGACAATGACGATGAAGATGTTGTTAC TGGTGACAATGACGATGAAGATGTTGTTACTGGTGACAATGACGATGAAGATGTTGTTACTGGTGACAAT GACGATGAAGATGTTGTTACTGGTGACAATAACGATGAAGAGATTGTTACTGGTGACAATGATGACCAAA TTGTTGTTACTGGTGATGATGTAGATGATATTGAAAGTATTTATGACTTTGATACTTATAAAGCTCTTTT AGTTTTTAATGATGTCTATAATGATGCTTTGTTTGTTAGTTATGGTTCTAGTGTTGAAACAGAAACATAT TTTAAAGTTAATGGTTTATGGTCACCTACTATTACACATACTAATTGTTGGTTGCGTTCTGTGTTACTTG TAATGCAGAAATTACCTTTTAAGTTTAAGGATTTAGCTATTGAAAATATGTGGTTATCTTATAAGGTGGG TTATAATCAAAGTTTTGTTGATTATTTACTGACCACTATTCCTAAAGCTATTGTTTTGCCTCAAGGTGGT TTTGTAGCTGATTTTGCTTATTGGTTTTTAAACCAGTTTGATATTAATGCGTATGCTAATTGGTGTTGTT TAAAATGTGGTTTTTCTTTTGATTTAAATGGTTTGGATGCTTTGTTTTTTTATGGAGATATTGTGTCTCA TGTTTGTAAGTGTGGACATAATATGACTCTAATAGCAGCGGACTTACCTTGTACATTACATTTTTCATTA TTTGATGACAATTTTTGTGCTTTTTGCACCCCTAAAAAAATTTTTATTGCTGCATGTGCTGTGGATGTAA ACGTTTGTCATTCTGTAGCTGTTATAGGTGATGAACAAATAGATGGTAAGTTTGTTACTAAATTTAGTGG TGATAAATTTGATTTTATAGTAGGTTATGGAATGTCATTTAGTATGTCTTCTTTTGAGTTACCTCAATTG TATGGTTTGTGTATAACACCTAATGTATGTTTTGTTAAAGGTGATATTATAAATGTTGCTAGACTTGTTA AAGCTGATGTTATTGTTAATCCTGCTAATGGGCATATGCTCCATGGTGGTGGAGTTGCAAAAGCTATAGC TGTAGCTGCAGGTAAAAAATTTTCTAAAGAAACTGCTGCTATGGTTAAATCTAAAGGTGTTTGCCAAGTA GGAGATTGTTATGTTTCTACCGGTGGTAAATTATGTAAAACAATTCTTAATATTGTAGGCCCTGATGCTA GACAAGATGGAAGACAATCTTATGTTTTGTTAGCACGTGCTTATAAGCATCTTAATAATTATGATTGTTG TTTGTCTACTCTCATATCGGCTGGTATATTTAGTGTTCCTGCTGATGTGTCATTAACTTACCTTCTAGGT GTTGTTGATAAACAAGTTATCCTTGTTAGTAATAATAAAGAAGATTTTGATATTATTCAAAAATGTCAAA TTACTTCAGTTGTTGGTACTAAAGCATTGGCTGTTAGATTAACTGCTAATGTAGGCCGTGTTATTAAATT TGAGACAGATGCATACAAACTTTTTTTGAGTGGTGATGATTGTTTTGTTTCAAATTCTTCTGTTATACAA GAAGTTTTATTGCTTCGTCATGATATACAATTGAATAATGACGTTCGTGATTATTTGTTGTCTAAGATGA CTAGTCTTCCTAAAGATTGGCGTCTTATCAATAAATTTGATGTTATTAACGGTGTTAAAACTGTTAAGTA TTTTGAGTGTCCTAATTCTATTTATATATGTAGTCAGGGTAAAGACTTTGGTTATGTATGTGATGGTTCT TTTTATAAAGCAACTGTTAATCAAGTTTGTGTTTTATTAGCTAAGAAGATAGATGTTTTGCTTACTGTAG ATGGTGTTAATTTTAAATCTATTTCTCTTACTGTAGGTGAAGTTTTTGGTAAAATACTTGGTAATGTTTT CTGTGATGGCATTGATGTTACTAAGTTAAAGTGTAGTGATTTTTATGCCGATAAAATTTTATATCAGTAT GAAAATTTGTCTTTAGCTGATATTTCTGCTGTACAAAGTTCATTTGGGTTTGATCAGCAACAATTGCTTG CTTATTATAATTTTTTAACAGTATGTAAATGGTCTGTAGTTGTTAACGGTCCATTTTTTTCTTTTGAACA GTCTCATAATAATTGTTATGTGAATGTAGCTTGTCTTATGTTGCAGCATATTAATCTTAAATTTAATAAA TGGCAGTGGCAGGAAGCATGGTATGAATTTCGTGCTGGCAGACCACATAGGTTAGTTGCTCTTGTTTTAG CTAAAGGTCATTTTAAATTTGATGAACCATCAGATGCTACTGATTTTATTCGTGTTGTTTTGAAACAAGC TGATTTATCAGGTGCAATTTGTGAATTAGAACTTATTTGTGATTGTGGTATTAAACAAGAAAGTCGTGTT GGTGTTGATGCTGTTATGCATTTTGGTACATTAGCAAAGACTGATCTTTTTAATGGTTATAAGATTGGCT GTAATTGTGCAGGTAGAATTGTCCATTGTACTAAATTGAATGTACCATTTTTGATTTGTTCTAATACTCC TCTGAGTAAGGATTTACCTGATGATGTTGTTGCAGCTAACATGTTTATGGGTGTAGGTGTAGGCCATTAT ACACATTTGAAATGTGGTTCACCTTACCAACATTATGATGCTTGTAGTGTTAAAAAATATACAGGTGTTA GTGGTTGTTTAACTGACTGCTTGTATCTTAAAAATTTAACCCAGACTTTTACATCTATGTTGACTAATTA TTTTTTGGATGATGTTGAAATGGTTGCTTATAACCCTGATCTTTCACAATATTATTGTGATAATGGTAAG TATTATACAAAACCTATTATAAAGGCTCAGTTTAAACCATTTGCTAAAGTTGACGGTGTTTATACTAACT TTAAGTTAGTTGGACATGATATTTGTGCTCAATTGAATGATAAGTTAGGTTTTAATGTAGATTTGCCGTT TGTTGAGTACAAAGTAACAGTCTGGCCTGTAGCTACTGGTGATGTTGTTTTGGCATCTGATGATTTATAT GTGAAACGTTATTTTAAAGGATGTGAAACTTTTGGTAAGCCTGTTATTTGGTTTTGTCATGATGAAGCAT CATTGAATTCTCTTACTTATTTTAATAAACCTAGTTTTAAATCTGAAAATAGATATAGTGTTTTGTCTGT TGATTCTGTATCTGAGGAGTCACAAGGTAATGTGGTTACTTCTGTTATGGAATCGCAGATTAGTACTAAA GAGGTTAAGTTAAAGGGTGTTAGAAAGACTGTTAAAATAGAAGATGCTATTATTGTTAATGATGAAAATA GTTCTATTAAGGTTGTTAAAAGTTTATCTTTAGTTGATGTTTGGGATATGTATTTGACAGGTTGTGATTA TGTTGTTTGGGTTGCTAATGAATTGTCACGCCTAGTTAAATCACCAACAGTTAGGGAATATATACGATAT GGTATTAAACCTATTACTATACCTATAGATTTGTTATGTTTAAGAGATGATAATCAAACTCTTTTAGTTC CTAAAATTTTTAAAGCAAGAGCTATAGAATTTTATGGTTTTTTGAAGTGGTTGTTTATTTATGTTTTTAG TTTATTACATTTTACAAATGATAAAACCATTTTTTATACTACAGAAATAGCTTCTAAGTTTACTTTTAAT TTGTTTTGTTTGGCTCTTAAAAATGCTTTTCAGACATTTAGATGGAGTATATTTATAAAAGGTTTTCTTG TTGTAGCCACTGTGTTTTTGTTTTGGTTTAATTTTTTGTATATAAATGTTATTTTTAGTGACTTTTATCT TCCTAATATTAGTGTTTTTCCTATTTTTGTGGGAAGAATTGTTATGTGGATAAAGGCTACTTTTGGTTTG GTTACAATTTGTGATTTTTATTCTAAGTTAGGTGTAGGTTTTACAAGTCATTTTTGTAATGGTAGTTTTA TATGTGAATTGTGTCATTCTGGTTTTGATATGTTGGATACATATGCAGCTATAGATTTTGTTCAGTATGA AGTAGATAGACGTGTTTTATTTGATTATGTTAGTTTAGTCAAATTAATTGTTGAACTCGTTATTGGTTAT TCATTATACACAGTATGGTTTTATCCATTATTTTGTCTTATTGGTTTACAATTATTTACTACATGGTTGC CTGATTTGTTTATGTTAGAAACTATGCATTGGTTGATTAGATTTATTGTATTTGTAGCTAATATGTTACC TGCTTTTGTCTTGTTGCGGTTTTATATAGTTGTTACTGCTATGTATAAAGTAGTTGGTTTTATTAGGCAT ATTGTCTATGGTTGTAATAAAGCTGGTTGTTTATTTTGTTATAAACGAAATTGTAGTGTTCGTGTTAAGT GTAGTACTATTGTTGGTGGTGTAATTCGTTATTATGATATTACTGCTAATGGTGGTACTGGTTTTTGTGT TAAACATCAATGGAATTGTTTTAATTGCCATTCTTTTAAACCAGGTAACACTTTTATAACTGTAGAAGCT GCTATAGAACTTTCTAAAGAGCTTAAACGACCTGTAAATCCAACTGATGCTTCACATTATGTAGTTACTG ATATTAAGCAAGTTGGTTGTATGATGCGTTTGTTCTATGATAGAGATGGACAGCGTGTTTACGATGATGT TGATGCTAGTTTATTTGTAGATATTAATAATCTGTTACATTCTAAAGTTAAAGTTGTTCCTAATTTGTAT GTAGTTGTAGTAGAGAGTGATGCTGATAGAGCTAATTTTCTGAATGCTGTTGTGTTTTATGCACAATCAT TGTATAGGCCTATATTACTTGTAGACAAAAAGTTAATTACTACAGCTTGTAATGGTATCTCTGTAACCCA GACTATGTTTGATGTTTATGTTGATACTTTTATGTCTCATTTTGATGTTGATAGAAAGAGTTTTAATAAT TTTGTTAACATTGCTCATGCTTCTCTTAGAGAGGGTGTGCAATTAGAAAAGGTTTTAGATACTTTTGTGG GATGTGTACGTAAATGTTGTTCCATTGATTCAGATGTTGAAACAAGATTTATTACTAAATCTATGATATC TGCAGTAGCTGCTGGTTTGGAATTTACTGATGAAAATTATAACAATTTGGTACCTACATATTTAAAGAGT GATAATATTGTAGCTGCTGATTTAGGTGTTCTTATACAGAATGGTGCTAAGCATGTACAGGGTAATGTTG CTAAGGCAGCTAATATTTCTTGTATATGGTTTATTGATGCTTTTAATCAACTTACTGCTGATTTACAGCA TAAATTAAAAAAAGCATGTGTTAAAACTGGCTTGAAGTTAAAATTGACTTTTAATAAGCAAGAGGCAAGT GTCCCTATTCTTACAACACCCTTTTCACTTAAAGGAGGTGTTGTATTGAGTAATTTGTTATATATATTAT TTTTTGTTAGTTTAATCTGTTTTATATTATTGTGGGCTTTATTGCCTACATATAGTGTTTATAAGTCTGA TATTCATTTGCCTGCTTATGCTAGTTTTAAAGTTATTGATAATGGTGTTGTTAGAGATATTTCAGTTAAT GATTTATGTTTTGCTAATAAATTTTTCCAATTTGATCAATGGTATGAGTCCACTTTTGGGTCTGTTTACT ATCATAATTCTATGGATTGCCCTATTGTAGTGGCAGTTATGGATGAAGATATCGGTTCTACTATGTTTAA TGTTCCTACTAAAGTTTTGAGACATGGCTTTCATGTTTTACATTTTTTAACTTATGCATTTGCTAGTGAT AGTGTTCAGTGCTATACACCACATATTCAGATTTCTTATAATGATTTTTATGCTAGTGGTTGTGTTTTAT CATCTTTGTGTACTATGTTTAAAAGAGGTGATGGTACACCACATCCTTATTGTTATTCAGATGGTGTTAT GAAGAATGCTTCTTTGTATACATCTTTGGTTCCACATACACGTTATAGCCTTGCTAATTCTAATGGTTTT ATAAGATTTCCTGATGTTATTAGTGAAGGTATTGTACGTATTGTAAGAACGCGCTCTATGACTTATTGTA GAGTGGGTGCATGTGAATACGCCGAAGAGGGTATATGTTTTAATTTTAATAGTTCCTGGGTTTTGAATAA TGATTATTATAGAAGTATGCCTGGAACTTTTTGTGGTAGAGATCTTTTTGATTTGTTTTATCAATTTTTT AGTAGTTTAATTCGTCCTATAGATTTCTTTTCTCTTACTGCTAGTTCTATTTTTGGAGCTATATTGGCTA TAGTTGTTGTCTTGGTTTTTTATTATTTAATAAAACTTAAGCGTGCTTTTGGAGATTATACTAGTGTTGT AGTTATAAATGTTGTTGTTTGGTGTATTAATTTTCTTATGCTTTTTGTTTTTCAAGTTTATCCTATTTGT GCATGTGTTTATGCTTGTTTTTATTTTTATGTAACATTGTATTTTCCTTCTGAAATTAGTGTAATTATGC ATTTGCAATGGATTGTTATGTATGGTGCTATAATGCCTTTTTGGTTTTGTGTCACATATGTAGCTATGGT TATTGCAAACCATGTTTTATGGTTATTTTCATATTGTAGGAAAATTGGTGTTAATGTATGTAGTGATAGT ACATTTGAAGAAACATCTCTTACTACTTTTATGATTACTAAAGATTCTTATTGTAGATTAAAGAATTCTG TTTCTGATGTTGCCTACAATAGATATTTGAGTTTGTATAATAAGTATCGTTACTATAGTGGTAAAATGGA TACTGCTGCCTATAGAGAAGCGGCGTGTTCTCAGTTAGCTAAAGCTATGGAAACATTTAATCACAATAAT GGTAATGATGTCTTATACCAACCTCCTACAGCATCTGTTTCTACATCTTTTTTGCAATCAGGTATTGTAA AGATGGTATCTCCTACGTCAAAAATTGAACCTTGTATTGTTAGTGTTACTTATGGTAGTATGACTTTGAA TGGTTTATGGTTAGATGACAAAGTTTATTGTCCTCGTCATGTTATATGTTCATCCTCTAATATGAACGAA CCTGATTATTCTGCCTTATTGTGTAGAGTTACTCTAGGTGATTTTACTATAATGTCTGGTCGGATGAGTT TAACAGTTGTGTCTTACCAGATGCAGGGCTGTCAACTTGTTTTGACAGTCTCTTTACAAAATCCTTACAC TCCAAAATATACTTTTGGTAATGTTAAACCTGGTGAAACTTTTACTGTTTTAGCTGCGTATAATGGCCGA CCACAAGGGGCATTTCATGTTACTATGCGTAGTAGTTATACTATTAAAGGTTCTTTTTTGTGTGGGTCAT GTGGATCTGTTGGTTATGTATTAACAGGTGATAGTGTTAAGTTTGTATATATGCATCAATTAGAGCTCAG TACTGGTTGTCACACTGGCACTGATTTTACTGGTAATTTTTATGGTCCATATAGAGATGCTCAAGTTGTA CAGTTGCCAGTTAAGGACTACGTCCAGACTGTTAATGTTATTGCTTGGCTCTATGCAGCTATACTTAATA ATTGTGCTTGGTTTGTACAAAATGATGTTTGTTCTACTGAAGATTTTAATGTTTGGGCTATGGCAAATGG TTTTAGCCAAGTAAAAGCAGATCTTGTCTTAGATGCTTTGGCTTCAATGACAGGTGTTTCTATTGAAACT TTATTGGCTGCTATTAAGCGTCTATATATGGGATTTCAAGGTCGTCAAATACTAGGAAGTTGTACTTTTG AAGATGAATTGGCACCTTCTGACGTTTATCAACAATTGGCTGGTGTTAAATTGCAATCTAAAACAAAAAG ATTTATTAAAGAAACAATTTATTGGATTTTGATATCTACATTTTTGTTTAGTTGTATAATTTCTGCATTT GTTAAATGGACTATATTTATGTATATTAATACACATATGATTGGTGTTACATTATGTGTACTTTGTTTTG TTAGTTTTATGATGTTACTAGTTAAACATAAGCATTTTTATTTGACTATGTATATAATTCCTGTACTCTG TACCTTGTTTTATGTAAATTATTTAGTTGTTTATAAGGAAGGTTTTAGAGGTTTTACTTATGTCTGGCTC TCATATTTTGTTCCTGCTGTGAATTTTACTTATGTTTATGAAGTATTTTATGGTTGTATTTTATGTGTTT TTGCTATTTTTATAACTATGCATAGTATTAATCATGACATTTTTTCTTTGATGTTTTTGGTTGGTAGAAT AGTTACTTTAATTTCTATGTGGTATTTTGGGTCGAATTTAGAAGAGGATGTTTTGTTATTTATTACAGCC TTTTTAGGTACTTATACATGGACCACTATTTTGTCATTAGCTATAGCAAAAATTGTTGCTAATTGGTTGT CTGTTAATATATTTTATTTTACAGATGTACCTTATATTAAATTGATTCTCTTGAGTTACTTATTTATAGG GTATATTTTATCTTGTTATTGGGGATTTTTCTCTCTTTTAAACAGTGTTTTTAGAATGCCTATGGGTGTT TATAATTATAAAATTTCTGTTCAAGAATTGCGTTATATGAATGCTAATGGCTTACGTCCACCTCGTAATA GTTTTGAGGCTATTTTGTTAAATTTAAAACTGCTTGGAATAGGTGGCGTGCCAGTTATTGAAGTCTCCCA AATTCAATCAAAATTGACTGATGTGAAATGTGCTAATGTTGTTTTGTTAAATTGTTTACAGCATTTGCAT GTTGCTTCTAATTCTAAGTTGTGGCAGTATTGTAGTGTTTTACATAATGAAATACTATCTACTTCAGATT TGAGTGTAGCTTTTGATAAGCTTGCTCAATTATTGATTGTTTTATTCGCCAATCCTGCTGCAGTTGATAC TAAGTGTCTTGCAAGTATAGATGAAGTTAGCGATGATTATGTTCAAGATAGTACCGTTTTGCAGGCTTTG CAAAGTGAGTTTGTAAATATGGCTAGTTTTGTTGAATATGAAGTCGCAAAGAAAAATTTGGCTGATGCTA AAAATAGTGGTTCTGTTAATCAACAACAGATAAAACAGTTAGAAAAAGCATGTAATATAGCTAAGTCTGT GTATGAACGTGATAAAGCTGTAGCTCGCAAACTTGAACGTATGGCAGACCTAGCACTTACTAACATGTAT AAAGAGGCTCGGATTAATGATAAGAAGAGTAAAGTTGTTTCCGCTTTGCAGACAATGCTTTTTAGCATGG TTCGTAAATTGGATAATCAGGCTTTAAATTCTATTCTGGATAATGCTGTTAAAGGTTGTGTACCTTTGAG TGCTATTCCAGCATTGGCTGCTAATACTTTAACTATAGTAATACCAGATAAACAAGTTTTTGATAAAGTT GTTGATAATGTTTATGTTACATATGCTGGTAGTGTATGGCATATACAGACTGTTCAAGATGCTGATGGTA TTAATAAACAGTTAACTGATATTAGTGTTGATTCTAATTGGCCTCTTGTTATCATTGCGAACAGGTATAA TGAAGTTGCTAATGCTGTTATGCAGAATAATGAGTTGATGCCTCATAAATTAAAAATACAAGTTGTTAAT AGTGGTTCTGATATGAATTGTAATATTCCTACTCAATGTTATTATAATAATGGTAGTAGTGGTAGAATAG TTTATGCTGTTCTTAGTGATGTTGATGGTCTTAAGTATACTAAGATAATGAAAGATGATGGAAATTGTGT TGTTTTAGAGCTTGATCCTCCTTGTAAATTTTCTATACAAGATGTTAAGGGACTTAAAATTAAGTATCTT TATTTTATTAAAGGATGTAACACTTTAGCTAGAGGGTGGGTTGTTGGTACTTTATCTTCAACAATTAGAT TGCAGGCTGGTGTTGCTACTGAGTATGCAGCTAATTCTTCTATACTTTCATTATGTGCATTTTCTGTAGA TCCTAAGAAAACTTATTTAGATTATATACAACAAGGTGGTGTACCTATAATTAATTGTGTTAAAATGCTC TGTGATCATGCTGGTACTGGTATGGCCATTACTATTAAACCTGAGGCTACTATTAACCAAGATTCTTATG GTGGTGCCTCAGTTTGTATTTATTGCCGTGCACGTGTAGAGCATCCAGATGTAGATGGTATATGTAAATT ACGTGGTAAATTTGTACAAGTCCCTTTGGGTATAAAAGATCCTATTCTTTATGTGTTAACACATGATGTT TGTCAAGTCTGTGGTTTTTGGAGAGATGGCAGTTGTTCCTGTGTAGGTTCAAGTGTCGCTGTTCAATCTA AAGATTTAAATTTTTTAAACGGGTTCGGGGTACTAGTGTGAATGCCCGGCTAGTACCCTGTGCTAGTGGT TTATCTACTGATGTTCAATTAAGGGCATTTGACATTTGTAATACCAATAGAGCTGGTATAGGTTTATATT ATAAAGTGAATTGTTGCCGTTTTCAGCGTATAGATGACGACGGTAATAAATTGGATAAGTTCTTTGTTGT CAAAAGAACTAATTTAGAAGTTTATAATAAAGAGAAAACTTATTATGAGTTGACTAAAAGTTGTGGTGTT GTGGCTGAACATGATTTCTTTACATTTGATATTGATGGTAGTCGCGTGCCACATATAGTTCGTAGGAATC TTTCAAAGTATACTATGTTAGATCTTTGCTATGCATTGCGTCATTTTGATCGTAATGATTGTTCAATATT GTGTGAAATTCTTTGTGAGTATGCTGATTGTAAAGAATCCTACTTTTCTAAGAAAGATTGGTATGATTTT GTTGAAAATCCTGATATTATTAATATATATAAAAAATTAGGCCCTATTTTTAATAGAGCTTTACTTAATA CTGTCATTTTTGCAGACACCTTAGTTGAAGTAGGTTTAGTTGGTGTTTTAACTTTAGATAACCAAGATTT GTATGGTCAATGGTATGATTTTGGTGATTTTATACAAACAGCCCCAGGGTTTGGTGTGGCAGTTGCAGAT TCTTACTATTCTTATATGATGCCTATGTTGACTATGTGTCATGTATTAGATTGTGAATTATTTGTTAATG ATAGTTATAGACAATTCGATCTTGTACAGTATGATTTTACTGATTACAAGTTAGAGTTGTTTAATAAGTA TTTTAAGTATTGGGGTATGAAGTATCATCCTAATACTGTGGATTGTGATAATGATAGGTGTATTATTCAT TGTGCTAATTTTAATATACTATTTAGTATGGTTTTACCTAATACTTGTTTTGGTCCCCTTGTTAGACAAA TTTTTGTAGATGGTGTACCGTTTGTTGTTTCTATTGGTTACCATTACAAAGAGTTAGGTGTAGTTATGAA CTTAGATGTTGACACACACCGTTATCGTTTGTCTCTTAAAGATTTACTTCTTTATGCAGCAGATCCTGCT ATGCACGTTGCATCTGCTAGTGCTCTGCTTGATTTACGAACTTGTTGTTTTAGTGTAGCTGCCATTACAA GTGGTATAAAATTTCAAACTGTAAAACCAGGTAACTTTAACCAAGACTTTTACGAGTTTGTTAAAAGTAA AGGCTTGTTTAAAGAGGGTAGTACAGTTGATTTGAAACATTTTTTCTTTACTCAAGATGGTAATGCTGCA ATTACTGATTATAATTATTATAAGTATAATTTACCTACTATGGTTGATATTAAGCAGTTATTGTTTGTAT TAGAAGTTGTTTATAAATATTTTGAAATTTATGATGGTGGTTGTATACCAGCATCACAAGTTATTGTTAA TAATTATGATAAAAGTGCTGGTTATCCATTTAATAAATTTGGTAAAGCCAGACTTTATTATGAGGCATTA TCATTTGAGGAACAGAATGAAATTTATGCATATACTAAACGTAATGTTCTGCCCACCTTAACTCAAATGA ATTTAAAATATGCTATCAGTGCTAAGAATAGAGCTCGCACTGTAGCAGGTGTTTCTATTCTTAGTACTAT GACAGGCCGAATGTTCCATCAAAAATGTTTGAAGAGTATAGCAGCTACCCGAGGTGTTCCTGTTGTTATA GGAACCACTAAATTTTATGGTGGTTGGGACGATATGTTACGTCATCTTATAAAGGATGTTGACAACCCTG TTCTTATGGGTTGGGATTATCCTAAATGTGATCGTGCTATGCCAAATATTTTGCGTATTGTTAGTAGTTT AGTTTTGGCCCGCAAACATGAATTTTGTTGTTCACATGGTGATAGATTTTATCGCCTTGCGAATGAATGT GCTCAAGTTTTGAGTGAAATAGTTATGTGTGGCGGTTGCTATTATGTTAAGCCTGGTGGTACTAGCAGTG GTGATGCAACTACTGCTTTTGCTAATTCTGTTTTTAATATATGTCAGGCTGTTACTGCTAATGTTTGTTC TCTTATGGCCTGTAATGGCCATAAGATTGAAGATTTAAGTATACGCAATTTACAAAAACGCTTATACTCT AATGTTTATCGTACAGATTATGTTGATTATACATTTGTTAATGAGTATTATGAATTTTTATGTAAGCATT TTAGTATGATGATTTTGAGTGATGATGGTGTTGTCTGTTATAACTCTGATTATGCTAGTAAGGGTTATAT AGCTAATATAAGTGTTTTTCAACAAGTTTTGTACTATCAGAATAATGTCTTTATGTCTGAATCTAAATGT TGGGTTGAAAATGATATTACTAATGGTCCTCATGAATTTTGTTCCCAACATACTATGTTAGTTAAGATAG ATGGTGATTATGTTTATTTACCATATCCAGATCCTTCTAGAATTTTAGGAGCTGGTTGTTTTGTTGATGA TTTATTGAAGACTGACAGTGTTCTTTTGATAGAGCGCTTTGTAAGTCTAGCTATAGATGCTTACCCTTTA GTACATCATGAAAATGAAGAATACCAAAAAGTCTTTCGTGTATATTTAGAATATATAAAAAAACTGTATA ATGATCTTGGTACTCAGATCTTAGATAGTTATAGTGTTATTTTAAGTACTTGTGATGGTTTAAAGTTTAC TGAAGAATCATTTTACAAGAATATGTATTTAAAAAGTGCCGTGATGCAGAGTGTAGGTGCATGCGTTGTT TGTTCATCACAAACTTCTTTGCGTTGTGGCAGTTGTATACGTAAGCCTTTGTTATGTTGTAAATGTTGTT ATGACCATGTTATGGCAACTAATCATAAATATGTTTTGAGTGTCTCACCTTACGTTTGTAATGCACCTAA CTGTGATGTGAGTGATGTCACCAAATTATATTTGGGCGGTATGTCTTACTATTGTGAAAACCATAAACCC CATTATTCATTTAAGTTAGTTATGAATGGTATGGTCTTTGGTTTGTATAAACAATCTTGCACGGGTTCAC CTTATATAGATGATTTTAATAAGATAGCTAGTTGTAAATGGACAGAAGTTGATGATTATGTTCTGGCAAA TGAGTGTATTGAACGTTTAAAGTTATTTGCTGCAGAAACTCAAAAGGCAACTGAAGAGGCTTTTAAACAA AGCTATGCTTCTGCTACCATTCAAGAGATTGTTAGTGATAGAGAAGTTATTTTGTGTTGGGAGACAGGTA AAGTTAAACCACCACTTAATAAAAATTATGTTTTCACAGGCTACCATTTTACTAGTACTGGTAAGACAGT TTTAGGTGAGTATGTTTTTGATAAAAGTGAATTAACTAACGGTGTGTATTACCGCGCTACAACTACTTAT AAACTTTCTATAGGTGATGTTTTTGTTTTAACATCACATTCTGTAGCTAGTTTAAGTGCACCTACACTTG TCCCACAAGAGAACTATGCTAGTATAAGATTTTCTAGTGTTTATAGTGTTCCATTGGTGTTTCAAAATAA TGTTGCTAATTATCAGCACATTGGAATGAAACGTTATTGCACTGTTCAAGGTCCCCCTGGTACGGGAAAG TCTCATCTTGCTATAGGTCTAGCTGTTTATTACTACACAGCACGTGTAGTTTATACTGCTGCTAGTCATG CTGCTGTAGATGCATTGTGTGAAAAAGCTTATAAGTTTTTAAATATTAACGATTGTACACGTATTATTCC TGCTAAAGTTCGTGTAGATTGTTATGATAAGTTTAAAATTAATGATACCACTTGTAAGTATGTTTTTACC ACAATAAATGCATTACCAGAGTTGGTTACAGATATTGTTGTTGTTGATGAAGTTAGTATGCTTACTAATT ATGAATTGTCTGTTATAAATGCTCGTATTAAAGCTAAACATTATGTATATATTGGAGATCCTGCTCAATT ACCTGCACCACGTGTGCTGTTGAGCAAGGGTTCTTTAGAACCTAGGCACTTCAATTCTATTACTAAAATA ATGTGTTGTTTAGGTCCTGATATCTTTTTGGGAAATTGTTATAGGTGTCCTAAAGAAATTGTAGAAACTG TTTCAGCATTGGTTTATGATAATAAACTCAAGGCTAAAAATGATAATAGTTCATTATGTTTTAAAGTATA TTTTAAGGGACAGACAACACATGAGAGTTCAAGTGCTGTAAATATTCAACAGATATATCTAATTAGTAAA TTTTTAAAAGCTAATCCAGTTTGGAATAGTGCTGTTTTTATTAGTCCTTATAATAGTCAGAATTATGTTG CTAAGCGTGTTTTAGGTGTTCAAACACAAACTGTAGATTCTGCTCAAGGTTCGGAATATGATTATGTTAT ATATTCACAAACAGCAGAAACAGCCCATTCTGTTAATGTTAATCGATTTAATGTTGCCATAACTAGAGCC AAGAAGGGCATTTTTTGTGTTATGAGTAATATGCAATTATTTGAATCTCTTAATTTTATTACTCTACCTT TAGATAAAATTCAAAATCAAACTTTACCTCGTTTGCATTGCACAACTAATCTTTTTAAAGATTGTAGTAA AAGTTGCTTAGGTTATCATCCAGCGCATGCCCCCTCATTTTTAGCAGTTGATGATAAATATAAGGTTAAT GAAAATTTGGCTGTAAATTTAAATATTTGTGAACCTGTTTTAACATATTCTCGTTTAATATCTCTTATGG GTTTTAAATTAGATTTGACTCTTGATGGTTATTCTAAATTGTTTATTACTAAAGATGAAGCCATTAAACG TGTTAGAGGTTGGGTTGGTTTTGATGTTGAGGGCGCTCATGCTACTCGCGAAAACATTGGAACAAACTTT CCACTGCAAATAGGTTTTTCAACTGGTGTGGATTTTGTAGTTGAAGCTACTGGCTTATTTGCTGAGAGAG ATTGTTATACTTTTAAAAAAACTGTAGCTAAAGCTCCTCCTGGTGAAAAATTTAAACATTTAATACCCCT TATGTCAAAAGGTCAAAAGTGGGATATTGTTAGAATTAGAATTGTTCAAATGTTATCTGATTATCTTTTA GACCTTTCTGATAGTGTAGTATTTATTACTTGGTCTGCCAGTTTTGAACTTACTTGTTTAAGGTATTTTG CTAAATTAGGCAGAGAGCTTAATTGTAATGTGTGTTCTAATCGTGCTACATGCTACAATTCTAGAACTGG TTATTATGGTTGTTGGCGCCATAGTTATACTTGTGATTATGTGTATAATCCACTTATTGTAGATATACAA CAGTGGGGTTATACAGGTTCTTTAACTAGTAATCACGATATAATTTGTAATGTACATAAAGGTGCACATG TTGCGTCAGCTGATGCAATTATGACTCGTTGTTTAGCAATCTATGATTGTTTTTGTAAATCTGTTAATTG GAATTTAGAGTATCCAATAATTTCTAATGAGGTCAGTATAAATACATCTTGTAGGTTATTGCAGCGTGTC ATGCTTAAAGCTGCCATGCTATGTAATAGATACAACTTATGTTATGACATAGGCAATCCTAAAGGTTTAG CTTGTGTCAAAGATTATGAATTTAAATTTTATGATGCTTTTCCTGTAGCCAAGTCTGTTAAACAGTTATT TTATGTCTATGATGTGCATAAAGATAATTTTAAAGATGGTTTATGTATGTTTTGGAATTGTAATGTTGAT AAATATCCATCTAATTCAATTGTTTGTAGATTTGACACTCGAGTGTTAAATAAATTAAACCTTCCTGGAT GTAATGGTGGTAGTTTGTATGTTAATAAACATGCATTCCATACTAATCCTTTTACTAGAACTGTTTTTGA AAATCTTAAGCCTATGCCTTTTTTCTATTATTCAGATACGCCTTGTGTGTACGTAGATGGTTTAGAATCT AAACAAGTTGATTACGTTCCTTTAAGAAGCGCCACTTGTATCACACGGTGTAATCTAGGTGGAGCTGTTT GTTCAAAGCATGCTGAAGAATATTGTAACTACCTTGAGTCTTATAATATAGTTACTACAGCAGGCTTTAC TTTTTGGGTTTATAAGAATTTTGATTTTTATAATTTATGGAACACTTTTACTACGTTACAGAGTTTAGAA AACGTAATATATAACTTGGTTAATGTTGGTCATTATGATGGACGTACAGGTGAATTACCTTGTGCTATTA TGAATGACAAAGTTGTTGTTAAGATTAATAATGTAGATACTGTTATTTTTAAAAATAATACATCATTTCC TACTAATATAGCTGTTGAATTGTTTACAAAACGTAGTATCCGGCACCACCCTGAACTTAAGATTCTTAGA AATTTGAACATTGATATTTGTTGGAAGCATGTCCTGTGGGATTATGTTAAAGATAGTTTGTTTTGTAGTT CCACTTATGGTGTTTGTAAATACACAGATTTGAAGTTCATCGAAAATTTGAATATACTTTTTGATGGTCG TGACACTGGCGCTTTAGAAGCTTTTAGAAAAGCAAGAAATGGTGTTTTTATTAGTACTGAAAAATTAAGT AGGTTATCAATGATTAAAGGTCCGCAACGAGCTGATTTAAATGGTGTGATTGTGGATAAAGTTGGAGAAC TCAAAGTTGAGTTTTGGTTCGCTATGAGAAAAGATGGTGACGATGTTATCTTCAGCCGAACAGACAGCCT ATGCTCAAGCCATTACTGGAGCCCACAAGGTAATCTAGGTGGTAATTGCGCGGGTAATGTCATTGGTAAT GATGCTCTAACACGTTTTACTATCTTTACTCAGAGTCGTGTATTGTCAAGTTTTGAACCTCGCTCAGATT TAGAACGGGATTTTATTGATATGGATGATAATCTGTTTATTGCTAAATATGGTTTAGAAGACTATGCATT TGATCATATAGTTTATGGTAGTTTTAACCATAAAGTTATAGGAGGTTTGCATTTGCTTATAGGCTTATTT CGTAGGAAAAAAAAATCTAATTTGTTAATTCAAGAGTTTTTACAGTATGATTCTAGTATTCATTCATATT TTATTACTGATCAGGAGTGTGGTAGTAGTAAGAGTGTTTGTACAGTTATTGATTTATTATTAGATGATTT TGTTTCTATTGTTAAGTCATTAAATTTGAGTTGTGTTAGTAAAGTTGTTAATATTAATGTTGATTTTAAG GATTTTCAATTTATGTTGTGGTGTAATGATAATAAAATTATGACTTTTTATCCTAAAATGCAAGCCACTA ATGATTGGAAACCTGGCTATTCTATGCCTGTTTTGTATAAGTATTTGAATGTTCCATTAGAGAGAGTCTC TTTATGGAATTATGGTAAACCTATTAATTTGCCTACAGGCTGTATGATGAATGTTGCTAAGTACACTCAA TTATGTCAGTATTTGAATACTACAACATTAGCTGTTCCTGTTAATATGCGTGTTTTACATTTAGGTGCAG GGTCTGATAAAGAAGTAGCTCCAGGTTCTGCTGTTTTAAGACAGTGGTTACCATCTGGTAGTATTCTTGT AGATAATGATTTAAACCCATTTGTTAGCGATAGTTTAGTTACTTATTTTGGAGATTGTATGACTTTACCA TTTGATTGTCATTGGGATTTGATAATATCTGATATGTATGATCCTCTTACTAAAAATATTGGTGATTATA ATGTGAGTAAGGATGGGTTTTTTACTTACATTTGTCATTTAATTCGTGATAAATTATCTTTGGGTGGTAG TGTAGCTATAAAAATTACAGAGTTTTCTTGGAATGCTGATTTATATAAATTAATGAGTTGTTTTGCATTT TGGACAGTTTTTTGTACTAATGTAAATGCTTCTTCTAGTGAAGGGTTTTTAATAGGTATAAATTACCTGG GTAAATCTTCTTTTGAAATAGATGGCAATGTTATGCATGCTAACTATTTGTTTTGGAGAAATAGTACAAC ATGGAATGGCGGTGCTTATAGTTTATTTGATATGACTAAATTTTCTTTGAAATTGGCTGGCACTGCTGTT GTTAATTTAAGACCAGATCAATTAAATGATTTAGTTTATTCTCTTATTGAAAGAGGTAAATTATTAGTTC GCGATACGCGTAAAGAGATTTTTGTTGGTGATAGTCTTGTAAATACTTGTTAGATCTCATTAAATCTAAA CTATGTTAATTATTTTTTTATTTTTTTATTTCTGTTATGGTTTTAATGAACCTCTTAATGTTGTGTCTCA TTTAAACCATGACTGGTTTTTATTTGGTGATAGTCGTTCTGATTGTAACCATATTAATAATTTAAAAATT AAAAATTTTGATTATTTGGATATTCACCCTAGTTTGTGCAACAATGGTAAGATTTCATCTAGTGCCGGTG ATTCTATTTTTAAGAGTTTTCATTTCACTCGATTTTATAATTACACTGGCGAAGGTGATCAAATTATTTT TTATGAGGGTGTTAATTTTAATCCTTATCATAGATTTAAGTGTTTTCCTAATGGTAGTAATGATGTATGG CTTCTTAACAAGGTAAGATTTTATCGTGCCTTATATTCTAATATGGCCTTTTTTCGTTATCTTACTTTTG TTGATATTCCTTATAATGTTTCTCTTTCTAAGTTTAATTCTTGTAAAAGTGATATTTTATCACTTAACAA TCCTATTTTTATTAATTATTCTAAGGAAGTTTATTTTACTTTATTAGGTTGTTCTCTTTATTTAGTACCG CTTTGCCTTTTTAAATCTAACTTTAGTCAGTACTATTATAACATAGATACTGGCTCTGTTTATGGTTTTT CTAATGTTGTTTATCCTGATTTAGACTGTATTTATATTTCTCTTAAACCAGGTTCTTATAAAGTTTCCAC CACTGCACCTTTTTTATCCTTACCTACTAAAGCTCTCTGTTTTGATAAATCTAAACAATTTGTACCTGTA CAGGTTGTTGATTCTAGATGGAACAACGAGCGTGCCTCAGATATTTCTTTATCTGTTGCATGTCAATTGC CATATTGTTATTTTCGCAATTCTTCTGCTAATTATGTTGGCAAGTATGATATTAACCACGGTGATAGTGG TTTTATTTCTATTTTATCTGGTCTTTTATATAATGTTTCTTGTATTTCATATTATGGTGTATTTTTATAT GATAATTTTACATCCATTTGGCCCTATTATTCTTTTGGTAGGTGTCCTACATCTTCTATTATTAAACATC CAATTTGTGTTTATGATTTTTTGCCTATTATTTTACAAGGTATTTTATTATGTTTAGCTTTACTTTTTGT TGTTTTTCTATTATTTTTGTTATATAACGATAAATCTCATTAAATCTAAACATGTTATTAATTATTTTTA TTTTGCCTACAACATTAGCTGTTATAGGTGATTTTAATTGTACTAATTTTGCTATTAATGATTTAAACAC CACAGTTCCTCGCATAAGTGAGTATGTTGTGGATGTTTCTTATGGTTTGGGTACATATTATATACTTGAT CGTGTTTATTTAAATACTACTATATTATTTACTGGTTATTTCCCTAAATCTGGTGCCAATTTTAGGGATC TATCTTTAAAAGGTACTACATATTTGAGTACTCTTTGGTATCAGAAACCCTTTTTATCTGATTTTAATAA TGGTATTTTTTCTAGAGTTAAGAATACTAAGTTGTATGTTAATAAAACTTTGTATAGTGAGTTTAGTACT ATAGTTATAGGTAGTGTTTTTATTAACAACTCTTATACTATTGTTGTTCAACCTCATAATGGTGTTTTGG AGATTACAGCTTGTCAATACACTATGTGTGAGTATCCTCATACTATTTGTAAATCTAAAGGTAGTTCTCG TAATGAATCTTGGCATTTTGATAAATCTGAACCTTTGTGTCTGTTCAAGAAAAATTTTACTTATAATGTT TCTACAGATTGGTTGTATTTTCATTTTTATCAAGAACGTGGCACTTTTTATGCTTATTATGCTGATTCTG GCATGCCTACTACTTTTTTATTTAGTTTGTATCTTGGTACTCTTTTATCTCATTATTATGTTTTGCCTTT GACTTGTAATGCTATATCTTCTAATACTGATAATGAGACTTTACAATATTGGGTCACACCTTTGTCTAAA CGCCAATATCTTCTTAAATTTGACAACCGTGGTGTTATTACTAATGCTGTTGATTGTTCTAGTAGTTTCT TTAGCGAGATTCAATGTAAAACTAAATCTTTATTACCTAATACTGGTGTTTATGACTTATCTGGTTTTAC TGTTAAGCCTGTTGCAACTGTACATCGTCGTATTCCTGATTTACCTGATTGTGACATTGATAAATGGCTT AACAATTTTAATGTACCCTCACCTCTTAATTGGGAACGTAAAATTTTTTCTAATTGCAACTTTAATTTGA GTACTTTGCTTCGTTTAGTTCATACTGATTCTTTTTCTTGTAATAATTTTGATGAATCTAAGATATATGG TAGTTGTTTTAAGAGTATTGTTTTAGATAAATTTGCCATACCCAACTCCAGACGATCTGATTTGCAGTTG GGCAGTTCTGGTTTTCTGCAATCTTCTAATTATAAAATTGACACTACTTCTAGTTCTTGTCAATTGTATT ATAGTTTGCCTGCAATTAATGTTACTATTAATAATTATAATCCTTCTTCTTGGAATAGAAGGTATGGTTT TAATAATTTTAATTTGAGCTCTCATAGTGTTGTTTACTCACGTTATTGTTTTTCTGTTAATAATACTTTT TGTCCTTGTGCTAAACCTTCTTTTGCTTCAAGTTGCAAGAGTCATAAACCACCTTCTGCTTCCTGTCCTA TTGGTACTAATTATCGTTCTTGTGAGAGTACTACTGTACTCGACCACACTGACTGGTGTAGGTGTTCTTG TTTACCTGATCCTATAACTGCTTATGACCCTAGGTCTTGTTCTCAAAAAAAGTCTCTGGTTGGTGTTGGT GAACATTGTGCAGGGTTCGGTGTTGATGAAGAAAAGTGTGGTGTATTGGATGGATCATATAATGTTTCTT GTCTTTGTAGTACTGATGCCTTTCTAGGTTGGTCTTATGACACTTGCGTCAGTAACAACCGTTGTAATAT TTTTTCTAATTTTATTTTAAATGGTATCAATAGTGGTACCACTTGTTCTAATGATTTATTGCAGCCTAAT ACTGAAGTTTTTACTGATGTTTGTGTTGATTACGACCTTTATGGTATTACAGGACAAGGTATTTTTAAAG AAGTTTCTGCTGTTTATTATAATAGTTGGCAAAATCTTTTGTATGATTCTAATGGCAACATTATTGGTTT TAAAGATTTTGTTACTAATAAAACATATAATATTTTCCCTTGTTATGCAGGAAGAGTTTCTGCTGCTTTT CATCAAAATGCTTCCTCTTTGGCTTTACTTTATCGTAATTTAAAATGTAGCTATGTTTTGAATAATATTT CTTTAACTACTCAGCCATATTTTGATAGTTATCTTGGTTGCGTTTTTAATGCTGATAATTTAACTGATTA TTCTGTTTCTTCTTGTGCTCTTCGCATGGGTAGTGGTTTTTGTGTTGATTATAACTCACCTTCTTCTTCC TCTTCGCGTCGTAAACGTAGAAGTATTTCTGCTTCTTATCGTTTTGTTACTTTTGAACCCTTTAATGTCA GTTTTGTTAATGACAGTATTGAGTCTGTGGGTGGTCTTTATGAGATCAAAATTCCCACTAACTTTACTAT AGTTGGTCAAGAGGAATTTATTCAAACTAATTCTCCTAAAGTTACTATTGATTGTTCTTTATTTGTCTGT TCTAATTATGCAGCTTGCCATGACTTATTGTCAGAGTATGGCACTTTTTGTGATAATATTAATAGTATTT TAGATGAAGTTAATGGTTTACTTGATACTACTCAATTGCATGTAGCTGATACTCTTATGCAAGGTGTCAC ACTTAGCTCCAATCTTAATACTAATTTGCATTTTGATGTTGATAATATTAATTTTAAATCCCTAGTTGGA TGTTTAGGTCCACACTGCGGTTCTTCTTCTCGTTCTTTTTTTGAAGATTTATTGTTTGACAAAGTTAAAC TTTCAGATGTTGGTTTTGTTGAAGCTTATAACAATTGTACTGGTGGTAGTGAAATTAGAGATCTTCTTTG TGTACAATCCTTTAATGGTATTAAAGTTTTGCCTCCTATTTTGTCTGAATCTCAAATTTCTGGTTACACC ACAGCCGCTACTGTTGCTGCTATGTTTCCACCATGGTCAGCAGCAGCTGGCATACCATTTTCTCTTAATG TACAATATAGAATTAATGGTTTGGGTGTTACTATGGATGTTCTTAATAAAAATCAAAAGTTGATAGCTAC TGCTTTTAATAATGCTCTTCTTTCTATTCAGAATGGTTTTAGTGCTACCAACTCTGCACTTGCTAAAATA CAAAGTGTTGTTAATTCTAATGCTCAAGCACTTAATAGTTTGTTACAGCAATTATTTAATAAATTTGGTG CAATTAGTTCTTCTTTACAAGAAATTTTATCTCGTCTCGATGCTTTAGAGGCTCAGGTTCAGATTGATAG GCTTATTAATGGTCGTTTAACTGCTTTAAATGCTTATGTCTCTCAACAGCTTAGTGATATTTCTCTTGTA AAATTTGGTGCTGCTTTAGCTATGGAGAAGGTTAATGAGTGTGTTAAAAGTCAATCTCCTCGTATTAATT TTTGTGGTAATGGTAATCATATTTTGTCATTAGTTCAAAATGCTCCTTATGGTTTGTTGTTTATGCATTT TAGTTATAAACCTATTTCTTTTAAAACTGTTTTAGTAAGTCCTGGTTTGTGTATATCAGGTGATGTAGGT ATTGCACCTAAACAAGGGTATTTTATTAAACATAATGATCATTGGATGTTCACTGGTAGTTCTTACTATT ATCCTGAACCAATTTCAGATAAAAATGTTGTTTTTATGAATACTTGTTCTGTTAATTTTACTAAAGCGCC TCTTGTTTATTTGAATCATTCTGTACCAAAATTGTCTGATTTTGAATCTGAGTTATCTCATTGGTTTAAA AATCAAACATCCATTGCGCCTAATTTGACTTTAAATCTTCATACTATTAATGCTACTTTTTTAGATTTGT ATTATGAGATGAATCTTATTCAAGAGTCTATTAAGTCTTTGAATAATAGTTATATCAATCTTAAAGATAT AGGTACATATGAAATGTATGTAAAATGGCCTTGGTATGTTTGGCTACTAATTTCTTTTTCATTTATAATA TTCCTTGTATTGCTCTTTTTTATATGTTGTTGTACTGGTTGTGGTTCTGCATGTTTTAGTAAATGTCATA ATTGTTGTGATGAGTATGGTGGTCATCATGATTTTGTTATCAAAACATCTCATGATGATTAGAATCTCTT GTCAGATCTCATTAAATCTAAACTTTATTTATGGACGTTTGGAGACCTAGCTACACACATTCTCTTGTTA TTAGAGAATTTGGTGTTACAAACCTTGAAGATTTGTGTCTAAAGTATAATTACTGTCAACCTATTGTTGG TTACTGTATTGTACCTTTAAATGTTTGGTGTCGCAAGTTTGGCAAATTTGCTTCTCACTTTACATTACGT AGTCACGATATTTCCCATAGTAATAATTTTGGTGTTGTAACTAGTTTTACTACTTATGGTAATACTGTTT CTGAGGCTGTGTCTAGATTAGTTGAATCAGCTTCTGAATTTATTGTTTGGCGTGCAGAGGCACTTAATAA GTATGGTTGATTTATTTTTCAATGATACTGCTTGGTACATAGGACAGATTTTAGTTTTAGTTTTATTTTG TCTTATTTCTTTAATCTTTGTTGTTGCTTTTTTAGCAACTATTAAGCTTTGTATGCAACTTTGTGGTTTT TGTAATTTCTTTATTATTTCACCTTCGGCTTACGTTTATAAAAGAGGTATGCAGTTGTATAAGTCTTATA GTGAACAAGTTATACCACCCACTTCAGATTATTTAATCTAAATCTAAACATTATGAATAAATCTTTTCTT CCTCAATTTACTTCTGATCAAGCTGTTACATTCTTAAAAGAATGGAATTTCTCTTTGGGTGTAATACTAC TTTTTATTACTATCATATTGCAGTTCGGTTATACGAGCCGTAGTATGTTTGTTTATCTTATCAAGATGAT TATTCTTTGGCTTATGTGGCCATTGACTATCACCTTGACTATATTTAATTGTTTTTATGCTTTGAATAAT GCTTTTCTTGCATTTTCTATAGTGTTTACTATTATTTCTATTGTTATATGGATTCTTTATTTTGTTAATA GTATTCGGCTTTTTATTAGAACTGGCAGTTGGTGGAGTTTTAATCCAGAGACCAATAATCTTATGTGTAT TGATATGAAAGGCAAGATGTTTGTTAGGCCAGTTATTGAGGACTATCACACATTAACTGCTACTGTTATT CGTGGTCATCTTTATATACAGGGTGTCAAACTTGGCACTGGTTATACTCTTTCAGATTTGCCCGTATATG TTACTGTAGCTAAGGTGCAAGTACTTTGTACCTATAAACGTGCCTTTTTAGATAAGTTAGATGTTAATAG TGGTTTTGCTGTTTTTGTTAAGTCTAAAGTTGGTAACTATCGTTTACCGTCTAGTAAACCTAGTGGTATG GATACTGCCTTGTTAAGAGCTTAAATCTAAACTATTAGGATGTCTTATACTCCCGGTCATTATGCTGGAA GTAGAAGCTCCTCTGGAAATCGTTCAGGAATCCTCAAGAAAACTTCTTGGGCTGACCAATCTGAGCGAAA TTACCAAACCTTTAATAGAGGCAGAAAAACCCAACCTAAATTCACTGTGTCTACTCAACCACAAGGAAAT ACTATCCCACATTATTCCTGGTTCTCCGGGATCACTCAATTTCAAAAAGGTAGAGACTTTAAATTTTCAG ATGGTCAAGGAGTTCCCATTGCTTTCGGAGTACCCCCTTCTGAAGCAAAAGGATATTGGTATAGACACAG CCGGCGTTCTTTTAAAACAGCTGATGGTCAACAAAAGCAGTTGTTACCGAGATGGTATTTCTACTATCTC GGTACCGGCCCATATGCCAATGCATCCTATGGTGAATCCCTCGAAGGGGTCTTCTGGGTTGCTAATCACC AAGCTGACACTTCTACTCCCTCCGATGTTTCGTCAAGGGATCCTACTACTCAAGAAGCTATCCCTACTAG GTTTCCGCCTGGTACGATTTTGCCTCAAGGCTATTATGTTGAAGGCTCAGGAAGGTCTGCTTCTAATAGT CGACCAGGTTCACGTTCTCAATCACGTGGACCCAATAATCGTTCATTAAGTAGAAGTAATTCTAATTTTA GACATTCAGATTCTATAGTAAAACCTGATATGGCTGATGAGATCGCTAATCTTGTTTTAGCCAAGCTTGG TAAAGATTCTAAACCTCAGCAAGTCACTAAGCAAAATGCCAAGGAAATCAGGCATAAAATTTTAACAAAA CCTCGCCAAAAGCGAACTCCTAATAAACATTGTAATGTTCAACAGTGTTTTGGTAAAAGAGGACCTTCTC AAAATTTTGGTAATGCTGAAATGTTAAAGCTTGGTACTAATGATCCTCAGTTTCCTATTCTTGCAGAATT AGCTCCTACACCAGGTGCTTTTTTCTTTGGTTCTAAATTAGACTTGGTTAAAAGAGATTCCGAGGCTGAC TCACCTGTTAAAGATGTTTTTGAACTTCATTATTCTGGTTCTATTAGGTTTGATAGTACTTTACCAGGCT TTGAGACAATTATGAAAGTTCTTGAAGAGAATTTAAATGCTTACGTTAATTCTAATCAGAACACTGATTC TGATTCGTTGAGTTCTAAACCTCAGCGTAAAAGAGGTGTTAAACAATTACCAGAACAGTTTGACTCTCTT AATTTAAGTGCTGGTACTCAGCACATTTCAAATGATTTTACTCCTGAGGATCATAGTTTACTTGCTACTC TTGATGATCCTTATGTAGAAGACTCTGTTGCTTAATGAGAATGAATCCTAATTCGACACTAGGTGGTAAC CCCTCGCTATTATTCGGAATAGGACACTCTCTATCAGAATGAATTCTTGCTGTAATAACAGATAGAGTAG GTTGTTACAGACTATATATTAATTAGTAGAAATTTTATATTTAGACATTTGATTGTTAGAGTAGTTATAA GGTTTAGCTGTAGTATAAACGCCTCCGGGAAGAGCTATCAATTGTAGTGTTTAATATATATATTAGTATA TGATTGAAATTAATTATAGCCTTTTGGAGGAATTAC Click to Show/Hide

References
1	Computational Mapping of the Human-SARS-CoV-2 Protein-RNA Interactome. bioRxiv. 2021 Dec; DOI:.org/10.1101/2021.12.22.472458.

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