Protein VP0
     (VP4-VP2)
Protein VP4
     (Virion protein 4)
     (P1A)
Protein VP2
     (Virion protein 2)
     (P1B)
Protein VP3
     (Virion protein 3)
     (P1C)
Protein VP1
     (Virion protein 1)
     (P1D)
Picornain 2A
     (Protein 2A)
     (P2A)
     (EC 3.4.22.29)
Protein 2B
     (P2B)
Protein 2C
     (P2C)
     (EC 3.6.1.15)
Protein 3A
     (P3A)
Protein 3B
     (P3B)
     (VPg)
Picornain 3C
     (EC 3.4.22.28)
     (Protease 3C)
     (P3C)
RNA-directed RNA polymerase 3D-POL
     (P3D-POL)
     (EC 2.7.7.48)

Gene name

None

From

Coxsackievirus B1 (strain Japan)

[TaxID: 103902]

Taxonomy

Viruses; ssRNA positive-strand viruses, no DNA stage; Picornavirales; Picornaviridae; Enterovirus.

Virus host

Homo sapiens (Human) [TaxID: 9606]

Protein existence

3: Inferred from homology;

References

[1]	NUCLEOTIDE SEQUENCE [GENOMIC RNA]. DOI=10.1016/0042-6822(87)90436-3; PubMed=3027969 [NCBI, ExPASy, EBI, Israel, Japan] Iizuka N., Kuge S., Nomoto A.; "Complete nucleotide sequence of the genome of coxsackievirus B1."; Virology 156:64-73(1987).

Comments

FUNCTION: Capsid proteins VP1, VP2, VP3 and VP4 form a closed capsid enclosing the viral positive strand RNA genome. VP4 lies on the inner surface of the protein shell formed by VP1, VP2 and VP3. All the three latter proteins contain a beta-sheet structure called beta-barrel jelly roll. Together they form an icosahedral capsid (T=3) composed of 60 copies of each VP1, VP2, and VP3, with a diameter of approximately 300 Angstroms. VP1 is situated at the 12 fivefold axes, whereas VP2 and VP3 are located at the quasi-sixfold axes (By similarity).
FUNCTION: VP0 precursor is a component of immature procapsids (By similarity).
FUNCTION: Protein 2A is a cysteine protease that is responsible for the cleavage between the P1 and P2 regions. It cleaves the host translation initiation factor EIF4G1, in order to shut down the capped cellular mRNA transcription (By similarity).
FUNCTION: Protein 2B affects membrane integrity and cause an increase in membrane permeability (By similarity).
FUNCTION: Protein 2C associates with and induces structural rearrangements of intracellular membranes. It displays RNA-binding, nucleotide binding and NTPase activities (By similarity).
FUNCTION: Protein 3A, via its hydrophobic domain, serves as membrane anchor. It also inhibits endoplasmic reticulum-to-Golgi transport (By similarity).
FUNCTION: Protein 3C is a cysteine protease that generates mature viral proteins from the precursor polyprotein. In addition to its proteolytic activity, it binds to viral RNA, and thus influences viral genome replication. RNA and substrate bind co-operatively to the protease (By similarity).
FUNCTION: RNA-directed RNA polymerase 3D-POL replicates genomic and antigenomic RNA by recognizing replications specific signals (By similarity).
CATALYTIC ACTIVITY: Nucleoside triphosphate + RNA(n) = diphosphate + RNA(n+1).
CATALYTIC ACTIVITY: Selective cleavage of Tyr-|-Gly bond in the picornavirus polyprotein.
CATALYTIC ACTIVITY: Selective cleavage of Gln-|-Gly bond in the poliovirus polyprotein. In other picornavirus reactions Glu may be substituted for Gln, and Ser or Thr for Gly.
CATALYTIC ACTIVITY: NTP + H₂O = NDP + phosphate.
SUBCELLULAR LOCATION: Protein VP2: Virion. Cytoplasm (Potential).
SUBCELLULAR LOCATION: Protein VP3: Virion. Cytoplasm (Potential).
SUBCELLULAR LOCATION: Protein VP1: Virion. Cytoplasm (Potential).
SUBCELLULAR LOCATION: Protein 2B: Cytoplasmic vesicle membrane; Peripheral membrane protein; Cytoplasmic side (Potential). Note=Probably localizes to the surface of intracellular membrane vesicles that are induced after virus infection as the site for viral RNA replication. These vesicles are derived from the endoplasmic reticulum (By similarity).
SUBCELLULAR LOCATION: Protein 2C: Cytoplasmic vesicle membrane; Peripheral membrane protein; Cytoplasmic side (Potential). Note=Probably localizes to the surface of intracellular membrane vesicles that are induced after virus infection as the site for viral RNA replication. These vesicles are derived from the endoplasmic reticulum (By similarity).
SUBCELLULAR LOCATION: Protein 3A: Cytoplasmic vesicle membrane; Peripheral membrane protein; Cytoplasmic side (Potential). Note=Probably localizes to the surface of intracellular membrane vesicles that are induced after virus infection as the site for viral RNA replication. These vesicles are derived from the endoplasmic reticulum (By similarity).
SUBCELLULAR LOCATION: Protein 3B: Virion (Potential).
SUBCELLULAR LOCATION: Picornain 3C: Cytoplasm (Potential).
SUBCELLULAR LOCATION: RNA-directed RNA polymerase 3D-POL: Cytoplasmic vesicle membrane; Peripheral membrane protein; Cytoplasmic side (Potential). Note=Probably localizes to the surface of intracellular membrane vesicles that are induced after virus infection as the site for viral RNA replication. These vesicles are derived from the endoplasmic reticulum (By similarity).
PTM: Specific enzymatic cleavages in vivo by the viral proteases yield a variety of precursors and mature proteins. Polyprotein processing intermediates such as VP0 which is a VP4-VP2 precursor are produced. During virion maturation, non-infectious particles are rendered infectious following cleavage of VP0. This maturation cleavage is followed by a conformational change of the particle (By similarity).
PTM: VPg is covalently linked to the genomic RNA (By similarity).
PTM: Myristoylation of VP4 is required during RNA encapsidation and formation of the mature virus particle (By similarity).
SIMILARITY: Belongs to the picornaviruses polyprotein family.
SIMILARITY: Contains 2 peptidase C3 domains [view classification].
SIMILARITY: Contains 1 RdRp catalytic domain.
SIMILARITY: Contains 1 SF3 helicase domain.

Copyright

Copyrighted by the UniProt Consortium, see http://www.uniprot.org/terms. Distributed under the Creative Commons Attribution-NoDerivs License.

Cross-references

Sequence databases

EMBL

M16560; AAC00531.1; -; Genomic_RNA.

[EMBL / GenBank / DDBJ] [CoDingSequence]

PIR

A26353; GNNYB1.

RefSeq

NP_040958.1; -.

3D structure databases

HSSP

P21404; 1D4M. [HSSP ENTRY / PDB]

ModBase

P08291.

Protein family/group databases

MEROPS

C03.011; -.

Ontologies

GO:0031410;	Cellular component: cytoplasmic vesicle (inferred from electronic annotation from UniProtKB-KW).
GO:0016020;	Cellular component: membrane (inferred from electronic annotation from UniProtKB-KW).
GO:0044419;	Biological process: interspecies interaction between organisms (inferred from electronic annotation from UniProtKB-KW).
QuickGo view.

Family and domain databases

InterPro

IPR003593; AAA+_ATPase_core.
IPR004004; Helicase/Pol/Pept_Calicivir.
IPR000605; Helicase_SF3_ssDNA/RNA_vir.
IPR014759; Helicase_SF3_ssRNA_vir.
IPR014838; P3A.
IPR000199; Pept_C3_picorn.
IPR000081; Peptidase_C3.
IPR003138; Pico_P1A.
IPR002527; Pico_P2B.
IPR001676; Picornavirus_capsid.
IPR001205; RNA_pol_P3D.
IPR007094; RNA_pol_PSvir.
Graphical view of domain structure.

Pfam

PF08727; P3A; 1.
PF00548; Peptidase_C3; 1.
PF02226; Pico_P1A; 1.
PF00947; Pico_P2A; 1.
PF01552; Pico_P2B; 1.
PF00680; RdRP_1; 1.
PF00073; Rhv; 3.
PF00910; RNA_helicase; 1.
Pfam graphical view of domain structure.

PRINTS

PR00918; CALICVIRUSNS.

ProDom

PD001125; Pept_C3_picorn; 1.
PD001306; Peptidase_C3_2; 1.
PD001274; Pico_P2B; 1.
[Domain structure / List of seq. sharing at least 1 domain]

SMART

SM00382; AAA; 1.
SMART graphical view of domain structure.

PROSITE

PS50507; RDRP_SSRNA_POS; 1.
PS51218; SF3_HELICASE_2; 1.
PROSITE graphical view of domain structure (profiles).

Genome annotation databases

GeneID

1461114; -.

Other

UniRef

View cluster of proteins with at least 50% / 90% / 100% identity.

Keywords

ATP-binding; Capsid protein; Complete proteome; Covalent protein-RNA linkage; Cytoplasm; Cytoplasmic vesicle; Helicase; Host-virus interaction; Hydrolase; Lipoprotein; Membrane; Myristate; Nucleotide-binding; Nucleotidyltransferase; Phosphoprotein; Protease; RNA replication; RNA-binding; RNA-directed RNA polymerase; Thiol protease; Transferase; Virion.

Features

Feature table viewer

Feature aligner

`Key`	`From To`	`Length`	`Description`	`FTId`
`INIT_MET`	`1 1`		`Removed; by host (By similarity).`
`CHAIN`	`2 332`	`331`	`Protein VP0 (Potential).`	`PRO_0000311045`
`CHAIN`	`2 69`	`68`	`Protein VP4 (Potential).`	`PRO_0000039560`
`CHAIN`	`70 332`	`263`	`Protein VP2 (Potential).`	`PRO_0000039561`
`CHAIN`	`333 570`	`238`	`Protein VP3 (Potential).`	`PRO_0000039562`
`CHAIN`	`571 848`	`278`	`Protein VP1 (Potential).`	`PRO_0000039563`
`CHAIN`	`849 998`	`150`	`Picornain 2A (Potential).`	`PRO_0000039564`
`CHAIN`	`999 1097`	`99`	`Protein 2B (Potential).`	`PRO_0000039565`
`CHAIN`	`1098 1426`	`329`	`Protein 2C (Potential).`	`PRO_0000039566`
`CHAIN`	`1427 1515`	`89`	`Protein 3A (Potential).`	`PRO_0000039567`
`CHAIN`	`1516 1537`	`22`	`Protein 3B (Potential).`	`PRO_0000039568`
`CHAIN`	`1538 1720`	`183`	`Picornain 3C (Potential).`	`PRO_0000039569`
`CHAIN`	`1721 2182`	`462`	`RNA-directed RNA polymerase 3D-POL (Potential).`	`PRO_0000039570`
`TOPO_DOM`	`2 1492`	`1491`	`Cytoplasmic (Potential).`
`TOPO_DOM`	`1493 1508`	`16`	`In membrane (Potential).`
`TOPO_DOM`	`1509 2182`	`674`	`Cytoplasmic (Potential).`
`DOMAIN`	`1202 1358`	`157`	`SF3 helicase.`
`DOMAIN`	`1947 2063`	`117`	`RdRp catalytic.`
`NP_BIND`	`1226 1233`	`8`	`ATP (Potential).`
`ACT_SITE`	`869 869`		`For picornain 2A activity (By similarity).`
`ACT_SITE`	`887 887`		`For picornain 2A activity (By similarity).`
`ACT_SITE`	`958 958`		`For picornain 2A activity (By similarity).`
`ACT_SITE`	`1577 1577`		`For picornain 3C activity (Potential).`
`ACT_SITE`	`1608 1608`		`For picornain 3C activity (Potential).`
`ACT_SITE`	`1684 1684`		`For picornain 3C activity (By similarity).`
`SITE`	`69 70`	`2`	`Cleavage (Potential).`
`SITE`	`332 333`	`2`	`Cleavage; by picornain 3C (Potential).`
`SITE`	`848 849`	`2`	`Cleavage; by picornain 2A (Potential).`
`SITE`	`998 999`	`2`	`Cleavage; by picornain 3C (Potential).`
`SITE`	`1097 1098`	`2`	`Cleavage; by picornain 3C (Potential).`
`SITE`	`1426 1427`	`2`	`Cleavage; by picornain 3C (Potential).`
`SITE`	`1515 1516`	`2`	`Cleavage; by picornain 3C (Potential).`
`SITE`	`1537 1538`	`2`	`Cleavage; by picornain 3C (Potential).`
`SITE`	`1720 1721`	`2`	`Cleavage; by picornain 3C (Potential).`
`MOD_RES`	`1518 1518`		`O-(5'-phospho-RNA)-tyrosine (By similarity).`
`LIPID`	`2 2`		`N-myristoyl glycine; by host (By similarity).`

Sequence information

Length: 2182 AA [This is the length of the unprocessed precursor]

Molecular weight: 243946 Da [This is the MW of the unprocessed precursor]

CRC64: 387B9391275859B1 [This is a checksum on the sequence]

        10         20         30         40         50         60 
MGAQVSTQKT GAHETGLNAS GNSIIHYTNI NYYKDAASNS ANRQDFTQDP GKFTEPVKDI 

        70         80         90        100        110        120 
MIKSMPALNS PSAEECGYSD RVRSITLGNS TITTQECANV VVGYGVWPEY LKDNEATGED 

       130        140        150        160        170        180 
QPTQPDVATC RFYTLESVQW MKNSAGWWWK LPDALSQMGL FGQNMQYHYL GRTGYTIHVQ 

       190        200        210        220        230        240 
CNASKFHQGC LLVVCVPEAE MGCSNLNNTP KFAELSGGDN ARMFTDTEVG TSNDKKVQTA 

       250        260        270        280        290        300 
VWNAGMGVGV GNLTIFPHQW INLRTNNSAT IVMPYINSVP MDNMYRHNNL TLMIIPFVPL 

       310        320        330        340        350        360 
NYSEGSSPYV PITVTIAPMC AEYNGLRLAS SQGLPVMTTP GSTQFLTSDD FQSPSAMPQF 

       370        380        390        400        410        420 
DVTPEMQIPG RVNNLMEIAE VDSVVPVNNT DNNVNGLKAY QIPVQSNSDN RRQVFGFPLQ 

       430        440        450        460        470        480 
PGANNVLNRT LLGEILNYYT HWSGSIKLTF MFCGSAMATG KFLLAYSPPG AGVPKNRRDA 

       490        500        510        520        530        540 
MLGTHVIWDV GLQSSCVLCV PWISQTHYRY VVEDEYTAAG YVTCWYQTNI IVPADVQSTC 

       550        560        570        580        590        600 
DILCFVSACN DFSVRMLKDT PFIRQDNFYQ GPVEESVERA MVRVADTVSS KPTNSESIPA 

       610        620        630        640        650        660 
LTAAETGHTS QVVPSDTMQT RHVKNYHSRS ESSIENFLCR SACVYYATYN NNSEKGYAEW 

       670        680        690        700        710        720 
VINTRQVAQL LRRKLEFTYL RFDLELTFVI TSAQEPSTAT SVDAPVQTQQ IMYVPPGGPV 

       730        740        750        760        770        780 
PTKVTDYAWQ TSTNPSVFWT EGNAPPRMSI PFISIGNAYS CFYDGWTQFS RNGVYGINTL 

       790        800        810        820        830        840 
NNMGTLYMRH VNEAGQGPIK STVRIYFKPK HVKAWVPRPP RLCQYEKQKN VNFNPTGVTT 

       850        860        870        880        890        900 
TRSNITTTGA FGQQSGAVYV GNYRVVNRHL ATREDWQRCV WEDYNRDLLV STTTAHGCDI 

       910        920        930        940        950        960 
IARCQCTTGV YFCASRNKHY PVSFEGPGLV EVQESEYYPK RYQSHVLLAA GFSEPGDCGG 

       970        980        990       1000       1010       1020 
ILRCEHGVVG IVTMGGEGVV GFADVRDLLW LEDDAMEQGV KDYVEQLGNA FGSGFTNQVC 

      1030       1040       1050       1060       1070       1080 
EQVNLLKESL VGQDSILEKS LKALVKIVSA LVIVVRNHDD LITVTATLAL IGCTSSPWRW 

      1090       1100       1110       1120       1130       1140 
LKQKVSQYYG IPMAERQNSG WLKKFTEMTN ACKGMEWIAI KIQKFIEWLK VKILPEVKEK 

      1150       1160       1170       1180       1190       1200 
HEFLNRLKQL PLLESQIATI EQSAPSQSDQ EQLFSNVQYF AHYCRKYAPL YAAEAKRVFS 

      1210       1220       1230       1240       1250       1260 
LEKKMSNYIQ FKSKCRIEPV CLLLHGSPGA GKSVATNLIG RSLAEKLNSS VYSLPPDPDH 

      1270       1280       1290       1300       1310       1320 
FDGYKQQAVV IMDDLCQNPD GKDVSLFCQM VSSVDFVPPM AALEEKGILF TSPFVLASTN 

      1330       1340       1350       1360       1370       1380 
AGSINAPTVS DSRALARRFH FDMNIEVISM YSQNGKINMP MSVKTCDEEC CPVNFKKCCP 

      1390       1400       1410       1420       1430       1440 
LVCGKAIQFI DRRTQVRYSL DMLVTEMFRE YNHRHSVGAT LEALFQGPPI YREIKISIAP 

      1450       1460       1470       1480       1490       1500 
ETPPPPAIAD LLKSVDSEAV REYCKEKGWL VPEINSTLQI EKHVSRAFIC LQALTTFVSV 

      1510       1520       1530       1540       1550       1560 
AGIIYIIYKL FAGFQGAYTG MPNQKPKVPT LRQAKVQGPV FEFAVAMMKR NSSTVKTEYG 

      1570       1580       1590       1600       1610       1620 
EFTMLGIYDR WAVLPRHAKP GPTILMNDQE IGVLDAKELV DKDGTNLELT LLKLNRNEKF 

      1630       1640       1650       1660       1670       1680 
RDIRGFLAKE EVEVNEAVLA INTSKFPNMY IPVGQVTEYG FLNLGGTPTK RMLMYNFPTR 

      1690       1700       1710       1720       1730       1740 
AGQCGGVLMS TGKVLGIHVG GNGHQGFSAA LLKHYFNDEQ GEIEFIESSK EAGFPVINTP 

      1750       1760       1770       1780       1790       1800 
SKTKLEPSVF HQVFEGNKEP AVLRNGDPRL RANFEEAIFS KYIGNVNTHV DEYMLEAVDH 

      1810       1820       1830       1840       1850       1860 
YAGQLATLDI STEPMRLEDA VYGTEGLEAL DLTTSAGYPY VALGIKKRDI LSKKTRDLTK 

      1870       1880       1890       1900       1910       1920 
LKECMDKYGL NLPMVTYVKD ELRSAEKVAK GKSRLIEASS LNDSVAMRQT FGNLYKTFHL 

      1930       1940       1950       1960       1970       1980 
NPGIVTGSAV GCDPDLFWSK IPVMLDGHLV AFDYSGYDAS LSPVWFACLK LLLEKLGYSH 

      1990       2000       2010       2020       2030       2040 
KETNYIDYLC NSHHLYRDKH YFVRGGMPSG CSGTSIFNSM INNIIIRTLM LKVYKGIDLD 

      2050       2060       2070       2080       2090       2100 
QFRMIAYGDD VIASYPWPID ASLLAEAGRD CGLIMTPADK GDCFNEVTWA NVTFLKRYFR 

      2110       2120       2130       2140       2150       2160 
ADEQYPFLVH PVMPMKDIHE SIRWTKDPKN TQDHVRSLCL LAWHNGEHEY EEFIRKIRSV 

      2170       2180 
PVGACLTLPA FSTLRRKWLD SF

P08291 in FASTA format

View entry in original UniProtKB/Swiss-Prot format
View entry in raw text format (no links)
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	BLAST submission on ExPASy/SIB or at NCBI (USA)		Sequence analysis tools: ProtParam, ProtScale, Compute pI/Mw, PeptideMass, PeptideCutter, Dotlet (Java)
	ScanProsite, MotifScan		Submit a homology modeling request to SWISS-MODEL
	NPSA Sequence analysis tools