Reviewed
Homo Sapiens (Human) [TaxID: 9606]
1a
♦Replicase polyprotein 1a (pp1a) (ORF1a polyprotein) [Cleaved into: Non-structural protein 1 (nsp1) (p28)
♦ Non-structural protein 2 (nsp2) (p65)
♦ Non-structural protein 3 (nsp3) (EC 3.4.19.12) (EC 3.4.22.69) (PL1-PRO/PL2-PRO) (PL1/PL2) (Papain-like proteinases 1/2) (p210)
♦ Non-structural protein 4 (nsp4) (Peptide HD2) (p44)
♦ 3C-like proteinase (3CL-PRO) (3CLp) (EC 3.4.22.-) (M-PRO) (nsp5) (p27)
♦ Non-structural protein 6 (nsp6)
♦ Non-structural protein 7 (nsp7) (p10)
♦ Non-structural protein 8 (nsp8) (p22)
♦ Non-structural protein 9 (nsp9) (p12)
♦ Non-structural protein 10 (nsp10) (Growth factor-like peptide) (GFL) (p15)
♦ Non-structural protein 11 (nsp11)]
♦ Non-structural protein 2 (nsp2) (p65)
♦ Non-structural protein 3 (nsp3) (EC 3.4.19.12) (EC 3.4.22.69) (PL1-PRO/PL2-PRO) (PL1/PL2) (Papain-like proteinases 1/2) (p210)
♦ Non-structural protein 4 (nsp4) (Peptide HD2) (p44)
♦ 3C-like proteinase (3CL-PRO) (3CLp) (EC 3.4.22.-) (M-PRO) (nsp5) (p27)
♦ Non-structural protein 6 (nsp6)
♦ Non-structural protein 7 (nsp7) (p10)
♦ Non-structural protein 8 (nsp8) (p22)
♦ Non-structural protein 9 (nsp9) (p12)
♦ Non-structural protein 10 (nsp10) (Growth factor-like peptide) (GFL) (p15)
♦ Non-structural protein 11 (nsp11)]
Human Coronavirus HKU1 (isolate N2) (HCoV-HKU1)
Viruses> SsRNA Viruses> SsRNA Positive-strand Viruses> No DNA Stage> Nidovirales> Coronaviridae> Coronavirinae> Betacoronavirus> Human Coronavirus HKU1 (HCoV-HKU1)> Human Coronavirus HKU1 (isolate N2) (HCoV-HKU1)
Various pathway(s) in which protein is involved
Not Available
Not Available
MIKTSKYGLGFKWAPEFRWLLPDAAEELASPMKSDEGGLCPSTGQAMESVGFVYDNHVKIDCRCILGQEWHVQSNLIRDIFVHEDLHVVEVLTKTAVKSG
TAILIKSPLHSLGGFPKGYVMGLFRSYKTKRYVVHHLSMTTSTTNFGEDFLGWIVPFGFMPSYVHKWFQFCRLYIEESDLIISNFKFDDYDFSVEDAYAE
VHAEPKGKYSQKAYALLRQYRGIKPVLFVDQYGCDYSGKLADCLQAYGHYSLQDMRQKQSVWLANCDFDIVVAWHVVRDSRFVMRLQTIATICGIKYVAQ
PTEDVVDGAVVIREPVHLLSADAIVLKLPSLMKVMTHMDDFSIKSIYNVDLCDCGFVMQYGYVDCFNDNCDFYGWVSGNMMDGFSCPLCCTVYDSSEVKA
QSSGVIPENPVLFTNSTDTVNPDSFNLYGYSVTPFGSCIYWSPRPGLWIPIIKSSVKSYDDLVYSGVVGCKSIVKETALITHALYLDYVQCKCGNLEQNH
ILGVNNSWCRQLLLNRGDYNMLLKNIDLFVKRRADFACKFAVCGDGFVPFLLDGLIPRSYYLIQSGIFFTSLMSQFSQEVSDMCLKMCILFMDRVSVATF
YIEHYVNRLVTQFKLLGTTLVNKMVNWFNTMLDASAPATGWLLYQLLNGLFVVSQANFNFVALIPDYAKILVNKFYTFFKLLLECVTVDVLKDMPVLKTI
NGLVCIVGNKFYNVSTGLIPGFVLPCNAQEQQIYFFEGVAESVIVEDDVIENVKSSLSSYEYCQPPKSVEKICIIDNMYMGKCGDKFFPIVMNDKNICLL
DQAWRFPCAGRKVNFNEKPVVMEIPSLMTVKVMFDLDSTFDDILGKVCSEFEVEKGVTVDDFVAVVCDAIENALNSCKDHPVVGYQVRAFLNKLNENVVY
LFDEAGDEAMASRMYCTFAIEDVEDVISSEAVEDTIDGVVEDTINDDEDVVTGDNDDEDVVTGDNDDEDVVTGDNDDEDVVTGDNDDEDVVTGDNDDEDV
VTGDNDDEDVVTGDNDDEDVVTGDNDDEDVVTGDNDDEDVVTGDNDDEDVVTGDNDDEEIVTGDNDDQIVVTGDDVDDIESVYDFDTYKALLVFNDVYND
ALFVSYGSSVETETYFKVNGLWSPTITHTNCWLRSVLLVMQKLPFKFKDLAIENMWLSYKVGYNQSFVDYLLTTIPKAIVLPQGGYVADFAYWFLNQFDI
NAYANWCCLKCGFSFDLNGLDAVFFYGDIVSHVCKCGHNMTLIAADLPCTLHFSLFDDNFCAFCTPKKIFIAACAVDVNVCHSVAVIGDEQIDGKFVTKF
SGDKFDFIVGYGMSFSMSSFELAQLYGLCITPNVCFVKGDIINVARLVKADVIVNPANGHMLHGGGVAKAIAVAAGKKFSKETAAMVKSKGVCQVGDCYV
STGGKLCKTILNIVGPDARQDGRQSYVLLARAYKHLNNYDCCLSTLISAGIFSVPADVSLTYLLGVVDKQVILVSNNKEDFDIIQKCQITSVVGTKALAV
RLTANVGRVIKFETDAYKLFLSGDDCFVSNSSVIQEVLLLRHDIQLNNDVRDYLLSKMTSLPKDWRLINKFDVINGVKTVKYFECPNSIYICSQGKDFGY
VCDGSFYKATVNQVCVLLAKKIDVLLTVDGVNFKSISLTVGEVFGKILGNVFCDGIDVTKLKCSDFYADKILYQYENLSLADISAVQSSFGFDQQQLLAY
YNFLTVCKWSVVVNGPFFSFEQSHNNCYVNVACLMLQHINLKFNKWQWQEAWYEFRAGRPHRLVALVLAKGHFKFDEPSDATDFIRVVLKQADLSGAICE
LELICDCGIKQESRVGVDAVMHFGTLAKTDLFNGYKIGCNCAGRIVHCTKLNVPFLICSNTPLSKDLPDDVVAANMFMGVGVGHYTHLKCGSPYQHYDAC
SVKKYTGVSGCLTDCLYLKNLTQTFTSMLTNYFLDDVEMVAYNPDLSQYYCDNGKYYTKPIIKAQFKPFAKVDGVYTNFKLVGHDICAQLNDKLGFNVDL
PFVEYKVTVWPVATGDVVLASDDLYVKRYFKGCETFGKPVIWLCHDEASLNSLTYFNKPSFKSENRYSVLSVDSVSEESQGNVVTSVMESQISTKEVKLK
GVRKTVKIEDAIIVNDENSSIKVVKSLSLVDVWDMYLTGCDYVVWVANELSRLVKSPTVREYIRYGIKPITIPIDLLCLRDDNQTLLVPKIFKARAIEFY
GFLKWLFIYVFSLLHFTNDKTIFYTTEIASKFTFNLFCLALKNAFQTFRWSIFIKGFLVVATVFLFWFNFLYINVIFSDFYLPNISVFPIFVGRIVMWIK
ATFGLVTICDFYSKLGVGFTSHFCNGSFICELCYSGFDMLDTYAAIDFVQYEVDRRVLFDYVSLVKLIVELVIGYSLYTVWFYPLFCLIGLQLFTTWLPD
LFMLETMHWLIRFIVFVANMLPAFVLLRFYIVVTAMYKVVGFIRHIVYGCNKAGCLFCYKRNCSVRVKCSTIVGGVIRYYDITANGGTGFCVKHQWNCFN
CHSFKPGNTFITVEAAIELSKELKRPVNPTDASHYVVTDIKQVGCMMRLFYDRDGQRVYDDVDASLFVDINNLLHSKVKVVPNLYVVVVESDADRANFLN
AVVFYAQSLYRPILLVDKKLITTACNGISVTQTMFDVYVDTFMSHFDVDRKSFNNFVNIAHASLREGVQLEKVLDTFVGCVRKCCSIDSDVETRFITKSM
ISAVAAGLEFTDENYNNLVPTYLKSDNIVAADLGVLIQNGAKHVQGNVAKAANISCIWFIDTFNQLTADLQHKLKKACVKTGLKLKLTFNKQEASVPILT
TPFSLKGGVVLSNLLYILFFISLICFILLWALLPTYSVYKSDIHLPAYASFKVIDNGVVRDISVNDLCFANKFFQFDQWYESTFGSFYYHNSMDCPIVVA
VMDEDIGSTMFNVPTKVLRHGFHVLHFLTYAFASDSVQCYTPHIQISYNDFYASGCVLSSLCTMFKRGDGTPHPYCYSDGVMKNASLYTSLVPHTRYSLA
NSNGFIRFPDVISEGIVRIVRTRSMTYCRVGACEYAEEGICFNFNSSWVLNNDYYRSMPGTFCGRDLFDLFYQFFSSLIRPIDFFSLTASSIFGAILAIV
VVLVFYYLIKLKRAFGDYTSVVVINVIVWCINFLMLFVFQVYPICACVYACFYFYVTLYFPSEISVIMHLQWIVMYGAIMPFWFCVTYVAMVIANHVLWL
FSYCRKIGVNVCNDSTFEETSLTTFMITKDSYCRLKNSVSDVAYNRYLSLYNKYRYYSGKMDTAAYREAACSQLAKAMETFNHNNGNDVLYQPPTASVST
SFLQSGIVKMVSPTSKIEPCIVSVTYGSMTLNGLWLDDKVYCPRHVICLSSNMNEPDYSALLCRVTLGDFTIMSGRMSLTVVSYQMQGCQLVLTVSLQNP
YTPKYTFGVVKPGETFTVLAAYNGRPQGAFHVTMRSSYTIKGSFLCGSCGSVGYVLTGDSVKFVYMHQLELSTGCHTGTDFTGNFYGPYRDAQVVQLPVK
DYVQTVNVIAWLYAAILNNCAWFVQNDVCSIEDFNVWAMTNGFSQVKADLVLDALASMTGVSIETLLAAIKRLYMGFQGRQILGSCTFEDELAPSDVYQQ
LAGVKLQSKTKRFIKETIYWILISTFLFSCIISAFVKWTIFMYINTHMIGVTLCVLCFVSFMMLLVKHKHFYLTMYIIPVLCTLFYVNYLVVYKEGFRGL
TYVWLSYFVPAVNFTYVYEVFYGCILCVFAIFITMHSINHDIFSLMFLVGRIVTLISMWYFGSNLEEDVLLFITAFLGTYTWTTILSLAIAKIVANWLSV
NIFYFTDVPYIKLILLSYLFIGYILSCYWGFFSLLNSVFRMPMGVYNYKISVQELRYMNANGLRPPRNSFEAILLNLKLLGIGGVPVIEVSQIQSKLTDV
KCANVVLLNCLQHLHVASNSRLWQYCSILHNEILSTSDLSVAFDKLAQLLIVLFANPAAVDTKCLASIDEVSDDYVQDSTVLQALQSEFVNMASFVEYEV
AKKNLADAKNSGSVNQQQIKQLEKACNIAKSVYERDKAVARKLERMADLALTNMYKEARINDKKSKVVSALQTMLFSMVRKLDNQALNSILDNAVKGCVP
LNAIPALAANTLTIIIPDKQVFDKVVDNVYVAYAGSVWHIQTVQDADGINKQLTDISVDSNWPLVIIANRYNEVANAVMQNNELMPHKLKIQVVNSGSDM
NCNIPTQCYYNNGSSGRIVYAVLSDVDGLKYTKIIKDDGNCVVLELDPPCKFSIQDVKGLKIKYLYFIKGCNTLARGWVVGTLSSTIRLQAGVATEYAAN
SSILSLCAFSVDPKKTYLDYIQQGGVPIINCVKMLCDHAGTGMAITIKPEATINQDSYGGASVCIYCRARVEHPDVDGLCKLRGKFVQVPLGIKDPILYV
LTHDVCQVCGFWRDGSCSCVGSGVAVQSKDLNFLNGFGVLV
TAILIKSPLHSLGGFPKGYVMGLFRSYKTKRYVVHHLSMTTSTTNFGEDFLGWIVPFGFMPSYVHKWFQFCRLYIEESDLIISNFKFDDYDFSVEDAYAE
VHAEPKGKYSQKAYALLRQYRGIKPVLFVDQYGCDYSGKLADCLQAYGHYSLQDMRQKQSVWLANCDFDIVVAWHVVRDSRFVMRLQTIATICGIKYVAQ
PTEDVVDGAVVIREPVHLLSADAIVLKLPSLMKVMTHMDDFSIKSIYNVDLCDCGFVMQYGYVDCFNDNCDFYGWVSGNMMDGFSCPLCCTVYDSSEVKA
QSSGVIPENPVLFTNSTDTVNPDSFNLYGYSVTPFGSCIYWSPRPGLWIPIIKSSVKSYDDLVYSGVVGCKSIVKETALITHALYLDYVQCKCGNLEQNH
ILGVNNSWCRQLLLNRGDYNMLLKNIDLFVKRRADFACKFAVCGDGFVPFLLDGLIPRSYYLIQSGIFFTSLMSQFSQEVSDMCLKMCILFMDRVSVATF
YIEHYVNRLVTQFKLLGTTLVNKMVNWFNTMLDASAPATGWLLYQLLNGLFVVSQANFNFVALIPDYAKILVNKFYTFFKLLLECVTVDVLKDMPVLKTI
NGLVCIVGNKFYNVSTGLIPGFVLPCNAQEQQIYFFEGVAESVIVEDDVIENVKSSLSSYEYCQPPKSVEKICIIDNMYMGKCGDKFFPIVMNDKNICLL
DQAWRFPCAGRKVNFNEKPVVMEIPSLMTVKVMFDLDSTFDDILGKVCSEFEVEKGVTVDDFVAVVCDAIENALNSCKDHPVVGYQVRAFLNKLNENVVY
LFDEAGDEAMASRMYCTFAIEDVEDVISSEAVEDTIDGVVEDTINDDEDVVTGDNDDEDVVTGDNDDEDVVTGDNDDEDVVTGDNDDEDVVTGDNDDEDV
VTGDNDDEDVVTGDNDDEDVVTGDNDDEDVVTGDNDDEDVVTGDNDDEDVVTGDNDDEEIVTGDNDDQIVVTGDDVDDIESVYDFDTYKALLVFNDVYND
ALFVSYGSSVETETYFKVNGLWSPTITHTNCWLRSVLLVMQKLPFKFKDLAIENMWLSYKVGYNQSFVDYLLTTIPKAIVLPQGGYVADFAYWFLNQFDI
NAYANWCCLKCGFSFDLNGLDAVFFYGDIVSHVCKCGHNMTLIAADLPCTLHFSLFDDNFCAFCTPKKIFIAACAVDVNVCHSVAVIGDEQIDGKFVTKF
SGDKFDFIVGYGMSFSMSSFELAQLYGLCITPNVCFVKGDIINVARLVKADVIVNPANGHMLHGGGVAKAIAVAAGKKFSKETAAMVKSKGVCQVGDCYV
STGGKLCKTILNIVGPDARQDGRQSYVLLARAYKHLNNYDCCLSTLISAGIFSVPADVSLTYLLGVVDKQVILVSNNKEDFDIIQKCQITSVVGTKALAV
RLTANVGRVIKFETDAYKLFLSGDDCFVSNSSVIQEVLLLRHDIQLNNDVRDYLLSKMTSLPKDWRLINKFDVINGVKTVKYFECPNSIYICSQGKDFGY
VCDGSFYKATVNQVCVLLAKKIDVLLTVDGVNFKSISLTVGEVFGKILGNVFCDGIDVTKLKCSDFYADKILYQYENLSLADISAVQSSFGFDQQQLLAY
YNFLTVCKWSVVVNGPFFSFEQSHNNCYVNVACLMLQHINLKFNKWQWQEAWYEFRAGRPHRLVALVLAKGHFKFDEPSDATDFIRVVLKQADLSGAICE
LELICDCGIKQESRVGVDAVMHFGTLAKTDLFNGYKIGCNCAGRIVHCTKLNVPFLICSNTPLSKDLPDDVVAANMFMGVGVGHYTHLKCGSPYQHYDAC
SVKKYTGVSGCLTDCLYLKNLTQTFTSMLTNYFLDDVEMVAYNPDLSQYYCDNGKYYTKPIIKAQFKPFAKVDGVYTNFKLVGHDICAQLNDKLGFNVDL
PFVEYKVTVWPVATGDVVLASDDLYVKRYFKGCETFGKPVIWLCHDEASLNSLTYFNKPSFKSENRYSVLSVDSVSEESQGNVVTSVMESQISTKEVKLK
GVRKTVKIEDAIIVNDENSSIKVVKSLSLVDVWDMYLTGCDYVVWVANELSRLVKSPTVREYIRYGIKPITIPIDLLCLRDDNQTLLVPKIFKARAIEFY
GFLKWLFIYVFSLLHFTNDKTIFYTTEIASKFTFNLFCLALKNAFQTFRWSIFIKGFLVVATVFLFWFNFLYINVIFSDFYLPNISVFPIFVGRIVMWIK
ATFGLVTICDFYSKLGVGFTSHFCNGSFICELCYSGFDMLDTYAAIDFVQYEVDRRVLFDYVSLVKLIVELVIGYSLYTVWFYPLFCLIGLQLFTTWLPD
LFMLETMHWLIRFIVFVANMLPAFVLLRFYIVVTAMYKVVGFIRHIVYGCNKAGCLFCYKRNCSVRVKCSTIVGGVIRYYDITANGGTGFCVKHQWNCFN
CHSFKPGNTFITVEAAIELSKELKRPVNPTDASHYVVTDIKQVGCMMRLFYDRDGQRVYDDVDASLFVDINNLLHSKVKVVPNLYVVVVESDADRANFLN
AVVFYAQSLYRPILLVDKKLITTACNGISVTQTMFDVYVDTFMSHFDVDRKSFNNFVNIAHASLREGVQLEKVLDTFVGCVRKCCSIDSDVETRFITKSM
ISAVAAGLEFTDENYNNLVPTYLKSDNIVAADLGVLIQNGAKHVQGNVAKAANISCIWFIDTFNQLTADLQHKLKKACVKTGLKLKLTFNKQEASVPILT
TPFSLKGGVVLSNLLYILFFISLICFILLWALLPTYSVYKSDIHLPAYASFKVIDNGVVRDISVNDLCFANKFFQFDQWYESTFGSFYYHNSMDCPIVVA
VMDEDIGSTMFNVPTKVLRHGFHVLHFLTYAFASDSVQCYTPHIQISYNDFYASGCVLSSLCTMFKRGDGTPHPYCYSDGVMKNASLYTSLVPHTRYSLA
NSNGFIRFPDVISEGIVRIVRTRSMTYCRVGACEYAEEGICFNFNSSWVLNNDYYRSMPGTFCGRDLFDLFYQFFSSLIRPIDFFSLTASSIFGAILAIV
VVLVFYYLIKLKRAFGDYTSVVVINVIVWCINFLMLFVFQVYPICACVYACFYFYVTLYFPSEISVIMHLQWIVMYGAIMPFWFCVTYVAMVIANHVLWL
FSYCRKIGVNVCNDSTFEETSLTTFMITKDSYCRLKNSVSDVAYNRYLSLYNKYRYYSGKMDTAAYREAACSQLAKAMETFNHNNGNDVLYQPPTASVST
SFLQSGIVKMVSPTSKIEPCIVSVTYGSMTLNGLWLDDKVYCPRHVICLSSNMNEPDYSALLCRVTLGDFTIMSGRMSLTVVSYQMQGCQLVLTVSLQNP
YTPKYTFGVVKPGETFTVLAAYNGRPQGAFHVTMRSSYTIKGSFLCGSCGSVGYVLTGDSVKFVYMHQLELSTGCHTGTDFTGNFYGPYRDAQVVQLPVK
DYVQTVNVIAWLYAAILNNCAWFVQNDVCSIEDFNVWAMTNGFSQVKADLVLDALASMTGVSIETLLAAIKRLYMGFQGRQILGSCTFEDELAPSDVYQQ
LAGVKLQSKTKRFIKETIYWILISTFLFSCIISAFVKWTIFMYINTHMIGVTLCVLCFVSFMMLLVKHKHFYLTMYIIPVLCTLFYVNYLVVYKEGFRGL
TYVWLSYFVPAVNFTYVYEVFYGCILCVFAIFITMHSINHDIFSLMFLVGRIVTLISMWYFGSNLEEDVLLFITAFLGTYTWTTILSLAIAKIVANWLSV
NIFYFTDVPYIKLILLSYLFIGYILSCYWGFFSLLNSVFRMPMGVYNYKISVQELRYMNANGLRPPRNSFEAILLNLKLLGIGGVPVIEVSQIQSKLTDV
KCANVVLLNCLQHLHVASNSRLWQYCSILHNEILSTSDLSVAFDKLAQLLIVLFANPAAVDTKCLASIDEVSDDYVQDSTVLQALQSEFVNMASFVEYEV
AKKNLADAKNSGSVNQQQIKQLEKACNIAKSVYERDKAVARKLERMADLALTNMYKEARINDKKSKVVSALQTMLFSMVRKLDNQALNSILDNAVKGCVP
LNAIPALAANTLTIIIPDKQVFDKVVDNVYVAYAGSVWHIQTVQDADGINKQLTDISVDSNWPLVIIANRYNEVANAVMQNNELMPHKLKIQVVNSGSDM
NCNIPTQCYYNNGSSGRIVYAVLSDVDGLKYTKIIKDDGNCVVLELDPPCKFSIQDVKGLKIKYLYFIKGCNTLARGWVVGTLSSTIRLQAGVATEYAAN
SSILSLCAFSVDPKKTYLDYIQQGGVPIINCVKMLCDHAGTGMAITIKPEATINQDSYGGASVCIYCRARVEHPDVDGLCKLRGKFVQVPLGIKDPILYV
LTHDVCQVCGFWRDGSCSCVGSGVAVQSKDLNFLNGFGVLV
4441
Not Available
Not Available
10-06-2008
Inferred from homology
| Amino Acid | Count | % Frequency | Amino Acid | Count | % Frequency |
|---|---|---|---|---|---|
| Alanine (A) | Leucine (L) | ||||
| Arginine (R) | Lysine (K) | ||||
| Asparagine (N) | Methionine (M) | ||||
| Aspartic Acid (D) | Phenylalanine (F) | ||||
| Cysteine (C) | Proline (P) | ||||
| Glutamine (Q) | Serine (S) | ||||
| Glutamic Acid (E) | Threonine (T) | ||||
| Glycine (G) | Tryptophan (W) | ||||
| Histidine (H) | Tyrosine (Y) | ||||
| Isoleucine (I) | Valine (V) |
| % Number of Residues in Helices | % Number of Residues in Strands | % Number of Residues in Coils |
|---|---|---|
♦The papain-like proteinase 1 (PL1-PRO) and papain-like proteinase 2 (PL2-PRO) are responsible for the cleavages located at the N-terminus of the replicase polyprotein. In addition, PLP2 possesses a deubiquitinating/deISGylating activity and processes both 'Lys-48'- and 'Lys-63'-linked polyubiquitin chains from cellular substrates. Antagonizes innate immune induction of type I interferon by blocking the phosphorylation, dimerization and subsequent nuclear translocation of host IRF-3 (By similarity).
♦ The main proteinase 3CL-PRO is responsible for the majority of cleavages as it cleaves the C-terminus of replicase polyprotein at 11 sites. Recognizes substrates containing the core sequence [ILMVF]-Q-|-[SGACN]. Inhibited by the substrate-analog Cbz-Val-Asn-Ser-Thr-Leu-Gln-CMK. Also contains an ADP-ribose-1''-phosphate (ADRP)-binding function (By similarity).
♦ Nsp7-nsp8 hexadecamer may possibly confer processivity to the polymerase, maybe by binding to dsRNA or by producing primers utilized by the latter.
♦ Nsp9 is a ssRNA-binding protein.
♦ Non-structural protein 1: binds to the 40S ribosomal subunit and inhibits host translation. The nsp1-40S ribosome complex further induces an endonucleolytic cleavage near the 5'UTR of host mRNAs, targeting them for degradation. By suppressing host gene expression, nsp1 facilitates efficient viral gene expression in infected cells and evasion from host immune response (By similarity).
♦ The main proteinase 3CL-PRO is responsible for the majority of cleavages as it cleaves the C-terminus of replicase polyprotein at 11 sites. Recognizes substrates containing the core sequence [ILMVF]-Q-|-[SGACN]. Inhibited by the substrate-analog Cbz-Val-Asn-Ser-Thr-Leu-Gln-CMK. Also contains an ADP-ribose-1''-phosphate (ADRP)-binding function (By similarity).
♦ Nsp7-nsp8 hexadecamer may possibly confer processivity to the polymerase, maybe by binding to dsRNA or by producing primers utilized by the latter.
♦ Nsp9 is a ssRNA-binding protein.
♦ Non-structural protein 1: binds to the 40S ribosomal subunit and inhibits host translation. The nsp1-40S ribosome complex further induces an endonucleolytic cleavage near the 5'UTR of host mRNAs, targeting them for degradation. By suppressing host gene expression, nsp1 facilitates efficient viral gene expression in infected cells and evasion from host immune response (By similarity).
3.4.19.12 , 3.4.22.69 , 3.4.22.-
GO:0003723 ; GO:0003968 ; GO:0004197 ; GO:0008242 ; GO:0008270 ;
GO:0016021 ; GO:0019079 ; GO:0019082 ; GO:0033644 ; GO:0036459 ;
GO:0039502 ; GO:0039520 ; GO:0039548 ; GO:0039579 ; GO:0039595 ;
GO:0039648 ; GO:0044220
GO:0016021 ; GO:0019079 ; GO:0019082 ; GO:0033644 ; GO:0036459 ;
GO:0039502 ; GO:0039520 ; GO:0039548 ; GO:0039579 ; GO:0039595 ;
GO:0039648 ; GO:0044220
♦ Non-structural protein 3: Host membrane
♦ Multi-pass membrane protein .
♦ Non-structural protein 4: Host membrane
♦ Multi-pass membrane protein .
♦ Non-structural protein 6: Host membrane
♦ Multi-pass membrane protein .
♦ Non-structural protein 7: Host cytoplasm, host perinuclear region . Note=nsp7, nsp8, nsp9 and nsp10 are localized in cytoplasmic foci, largely perinuclear. Late in infection, they merge into confluent complexes.
♦ Non-structural protein 8: Host cytoplasm, host perinuclear region . Note=nsp7, nsp8, nsp9 and nsp10 are localized in cytoplasmic foci, largely perinuclear. Late in infection, they merge into confluent complexes.
♦ Non-structural protein 9: Host cytoplasm, host perinuclear region . Note=nsp7, nsp8, nsp9 and nsp10 are localized in cytoplasmic foci, largely perinuclear. Late in infection, they merge into confluent complexes.
♦ Non-structural protein 10: Host cytoplasm, host perinuclear region . Note=nsp7, nsp8, nsp9 and nsp10 are localized in cytoplasmic foci, largely perinuclear. Late in infection, they merge into confluent complexes.
♦ Multi-pass membrane protein .
♦ Non-structural protein 4: Host membrane
♦ Multi-pass membrane protein .
♦ Non-structural protein 6: Host membrane
♦ Multi-pass membrane protein .
♦ Non-structural protein 7: Host cytoplasm, host perinuclear region . Note=nsp7, nsp8, nsp9 and nsp10 are localized in cytoplasmic foci, largely perinuclear. Late in infection, they merge into confluent complexes.
♦ Non-structural protein 8: Host cytoplasm, host perinuclear region . Note=nsp7, nsp8, nsp9 and nsp10 are localized in cytoplasmic foci, largely perinuclear. Late in infection, they merge into confluent complexes.
♦ Non-structural protein 9: Host cytoplasm, host perinuclear region . Note=nsp7, nsp8, nsp9 and nsp10 are localized in cytoplasmic foci, largely perinuclear. Late in infection, they merge into confluent complexes.
♦ Non-structural protein 10: Host cytoplasm, host perinuclear region . Note=nsp7, nsp8, nsp9 and nsp10 are localized in cytoplasmic foci, largely perinuclear. Late in infection, they merge into confluent complexes.
♦DOMAIN 1093 1343 Peptidase C16 1.
♦ DOMAIN 1321 1492 Macro.
♦ DOMAIN 1688 1948 Peptidase C16 2.
♦ DOMAIN 3305 3607 Peptidase C30.
♦ DOMAIN 1321 1492 Macro.
♦ DOMAIN 1688 1948 Peptidase C16 2.
♦ DOMAIN 3305 3607 Peptidase C30.
Not Available
Predicted/Modelled
Not Available
♦ACT_SITE 1131 1131 For PL1-PRO activity.
♦ ACT_SITE 1282 1282 For PL1-PRO activity.
♦ ACT_SITE 1727 1727 For PL2-PRO activity.
♦ ACT_SITE 1884 1884 For PL2-PRO activity.
♦ ACT_SITE 3345 3345 For 3CL-PRO activity.
♦ ACT_SITE 3449 3449 For 3CL-PRO activity.
♦ ACT_SITE 1282 1282 For PL1-PRO activity.
♦ ACT_SITE 1727 1727 For PL2-PRO activity.
♦ ACT_SITE 1884 1884 For PL2-PRO activity.
♦ ACT_SITE 3345 3345 For 3CL-PRO activity.
♦ ACT_SITE 3449 3449 For 3CL-PRO activity.
Protein couldn't be modeled using I-Tasser and Raptor X because of length constraints of the software.
Not Available
- Million Molecules
Best 20 Hit molecules
Not Available