CoVDB Coronavirus Database (v3)   
Strain
Human_MERS_KY581685 (Region: United Arab Emirates;  Strain: Middle East respiratory syndrome-related coronavirus strain Hu/UAE_004_2013, complete genome.;  Date: 12-Jul-13)
Gene
1A polyprotein
Description
Annotated in NCBI,  1A polyprotein
GenBank Accession
Full name
Replicase polyprotein 1a      
Alternative Name
ORF1a polyprotein
 

Sequence

CDS
ATGTCTTTCGTGGCTGGTGTGACCGCGCAAGGTGCGCGCGGTACGTATCGAGCAGCGCTCAACTCTGAAAAACATCAAGACCATGTGTCTCTAACTGTGCCACTCTGTGGTTCAGGAAACCTGGTTGAAAAACTTTCACCATGGTTCATGGATGGCGAAAATGCCTATGAAGTGGTGAAGGCCATGTTACTTAAAAAGGAGCCACTTCTCTATGTGCCCATCCGGCTGGCTGGACACACTAGACACCTCCCAGGTCCTCGTGTATACCTGGTTGAGAGGCTCATTGCTTGTGAAAATCCATTCATGGTTAACCAATTGGCTTATAGCTCTAGTGCAAATGGCAGCTTGGTTGGCACAACTTTGCAGGGCAAGCCTATTGGTATGTTCTTCCCTTATGACATCGAACTTGTCACAGGAAAGCAAAATATTCTCCTGCGCAAGTATGGCCGTGGTGGTTATCACTACACCCCATTCCACTATGAGCGAGACAACACCTCTTGCCCTGAGTGGATGGACGATTTTGAGGCGGATCCTAAAGGCAAATATGCCCAGAATCTGCTTAAGAAGTTGATTGGCGGTGATGTCACTCCAGTTGACCAATACATGTGTGGCGTTGATGGAAAACCCATTAGTGCCTACGCATTTTTAATGGCCAAGGATGGAATAACCAAACTGGCTGATGTTGAAGCGGACGTCGCAGCACGTGCTGATGACGAAGGCTTCATCACATTAAAGAACAATCTATATAGATTGGTTTGGCATGTTGAGCGTAAAGACGTTCCATATCCTAAGCAATCTATTTTTACTATTAATAGTGTGGTCCAAAAGGATGGTGTTGAAAACACTCCTCCTCACTATTTTACTCTTGGATGCAAAATTTTAACGCTCACCCCACGCAACAAGTGGAGTGGCGTTTCTGACTTGTCCCTCAAACAAAAACTCCTTTACACCTTCTATGGTAAGGAGTCACTTGAGAACCCAACCTACATTTACCACTCCGCATTCATTGAGTGTGGAAGTTGTGGTAATGATTCCTGGCTTACAGGGAATGCTATCCAAGGGTTTGCCTGTGGATGTGGGGCATCATATACAGCTAATGATGTCGAAGTCCAATCATCTGGCATGATTAAGCCAAATGCTCTTCTTTGTGCTACTTGCCCCTTTGCTAAGGGTGATAGCTGTTCTTCTAATTGCAAACATTCAGTTGCTCAGTTGGTTAGTTACCTTTCTGAACGTTGTAATGTTATTGCTGATTCTAAGTCCTTCACACTTATCTTTGGTGGCGTAGCTTACGCCTACTTTGGATGTGAGGAAGGTACTATGTATTTTGTGCCTAGAGCTAAGTCTGTTGTCTCAAGGATTGGAGACTCCATCTTTACAGGCTGTACTGGCTCTTGGAACAAGGTCACTCAAATTGCTAACATGTTCTTGGAACAGACTCAGCATTCCCTTAACTTTGTGGGAGAGTTCGTTGTCAACGATGTTGTCCTCGCAATTCTCTCTGGAACCACAACTAATGTTGACAAAATACGCCAGCTTCTCAAAGGTGTCACCCTTGACAAGTTGCGTGATTATTTAGCTGACTATGACGTAGCAGTCACTGCCGGCCCATTCATGGATAATGCTATTAATGTTGGTGGTACAGGATTACAGTATGCCGCCATTACTGCACCTTATGTAGTTCTCACTGGCTTAGGTGAGTCCTTTAAGAAAGTTGCAACCATACCGTACAAGGTTTGCAACTCTGTTAAGGATACTCTGACTTATTATGCTCACAGCGTGTTGTACAGAGTTTTTCCTTATGACATGGATTCTGGTGTGTCATCCTTTAGTGAACTACTTTTTGATTGCGTTGATCTTTCAGTAGCTTCTACCTATTTTTTAGTCCGCCTCTTGCAAGATAAGACTGGCGACTTTATGTCTACAATTATTACTTCCTGCCAAACTGCTGTTAGTAAGCTTCTAGATACATGTTTTGAAGCTACAGAAGCAACATTTAACTTCTTGTTAGATTTGGCAGGATTGTTCAGAATCTTTCTTCGCAATGCCTATGTGTACACTTCACAAGGGTTTGTGGTGGTCAATGGCAAAGTTTCTACACTTGTCAAACAAGTGTTAGACTTGCTTAATAAGGGTATGCAACTTTTGCATACAAAGGTCTCCTGGGCTGGTTCTAATATCAGTGCTGTTATCTACAGCGGCAGGGAGTCTCTAATATTCCCATCGGGAACCTATTACTGTGTCACCACTAAGGCTAAGTCCGTTCAACAAGATCTTGACGTTATTTTGCCTGGTGAGTTTTCCAAGAAGCAGTTAGGACTGCTCCAACCTACTGACAATTCTACAACTGTTAGTGTTACTGTATCCAGTGACATGGTTGAAACTGTTGTGGGTCAACTTGAGCAAACTAATATGCATAGTCCTGATGTTATAGTAGGTGACTATGTCATTATTAGTGAAAAATTGTTTGTGCGTAGTAAGGAAGAAGACGGATTTGCCTTCTACCCTGCTTGCACTAATGGTCATGCTGTACCGACTCTCTTTAGACTTAAGGGAGGTGCACCTGTAAAAAAAGTAGCCTTTGGCGGTGATCAAGTACATGAGGTTGCTGCTGTAAGAAGTGTTACTGTCGAGTACAACATTCATGCTGTATTAGACACACTACTTGCTTCTTCTAGTCTTAGAACCTTTGTTGTAGATAAGTCTTTGTCAATTGAGGAGTTTGCTGACGTAGTAAAGGAACAAGTCTCAGACTTGCTTGTTAAATTACTGCGTGGAATGCCGATTCCAGATTTTGATTTAGACGATTTTATTGACGCACCATGCTATTGCTTTAACGCTGAGGGTGATGCATCTTGGTCTTCTACTATGATCTTCTCTCTTCACCCCGTCGAGTGTGACGAGGAGTGTTCTGAAGTAGAGGCTTCAGATTTAGAAGAAGGTGAATCAGAGTGCATTTCTGAGACTTCAACTGAACAAGTTGACGTTTCTCATGAGGTTTCTGACGACGAGTGGGCTGCTGCAGTTGATGAAGCGTTCCCCCTCGATGAAGCAGAAGATGTTACTGAATCTGTGCAAGAAGAAGCACAACCAGTAGAAGTACCTGTTGAAGATATTGCGCAGGTTGTCATAGCTGACACCTTACAGGAAACTTCTGTTGTGTCTGATACTGTTGAAGTCCCACCGCAAGTGGTGAAACTTCCGTCTGAACCTCAGACTATCCAGCCCGAGGTAAAAGAAGTTGCACCTGTCTATGAGGCTGATACCGAACAGACACAGAGTGTTACTGTTAAACCTAAGAGGTTACGCAAAAAGCGTAATGTTGACCCTTTGTCCAATTTTGAACATAAGGTTATTACAGAGTGCGTTACCATAGTTTTAGGTGACGCAATTCAAGTAGCCAAGTGCTATGGGGAGTCTGTGTTAGTTAATGCTGCTAACACACATCTTAAGCATGGCGGTGGTATCGCTGGTGCTATTAATGCGGCTTCAAAAGGGGCTGTCCAAAAAGAGTCAGATGAGTATATTCTGGCTAAAGGGCCGTTACAAGTAGGAGATTCAGTTCTCTTGCAAGGCCATTCTCTAGCTAAGAATATCCTGCATGTCGTAGGCCCAGATGCCCGCGCTAAACAGGATGTTTCTCTCCTTAGTAAGTGCTATAAGGCTATGAATGCATATCCTCTTGTAGTCACTCCTCTTGTTTCAGCAGGCATATTTGGTGTAAAACCAGCTGTGTCTTTTGATTATCTTATTAGAGAGGCTAAGACTAGAGTTTTAGTCGTCGTTAATTCCCAAGATGTCTATAAGAGTCTTACCATAGTTGACATTCCACAGAGTTTGACTTTTTCATATGATGGGTTACGTGGCGCAATACGTAAAGCTAAAGATTATGGTTTTACTGTTTTTGTGTGCACAGACAACTCTGCTAACACTAAAGTTCTTAGGAACAAGGGTGTTGATTATACTAAGAAGTTTCTTACAGTTGACGGTGTGCAATATTATTGCTACACGTCTAAGGACACTTTAGATGATATCTTACAACAGGCTAATAAGTCTGTTGGTATTATATCTATGCCTTTGGGATATGTGTCTCATGGTTTAGGCTTAATTCAAGCAGGGAGTGTCGTGCGTAGAGTTAACGTGCCCTACGTGTGTCTCCTAGCTAATAAAGAGCAAGAAGCTATTTTGATGTCTGAAGACGTTAAGTTAAACCCTTCAGAAGATTTTATAAAGCACGTCCGCACTAATGGTGGTTACAATTCTTGGCATTTAGTCGAGGGTGAACTATTGGTGCAAGACTTACGCTTAAATAAGCTCCTGCATTGGTCTGATCAAACCATATGCTACAAGGATAGTGTGTTTTATGTTGTAAAGAATAGTACAGCTTTTCCATTTGAAACACTTTCAGCATGTCGTGCGTATTTGGATTCACGCACGACACAGCAGTTAACAATCGAAGTCTTAGTGACTGTCGATGGTGTAAATTTTAGAACAGTCGTTCTAAATAATAAGAACACTTATAGATCACAGCTTGGATGCGTTTTCTTTAATGGTGCTGATATTTCTGATACCATTCCTGATGAGAAACAGAATGGTCACAGTTTATATCTAGCAGACAATTTGACTGCTGATGAAACAAAGGCGCTTAAAGAGTTATATGGCCCCGTTGATCCTACTTTCTTACACAGATTCTATTCACTTAAGGCTGCAGTCCATAAGTGGAAGATGGTTGTGTGTGATAAGGTACGTTCTCTCAAATTGAGTGATAATAATTGTTATCTTAATGCAGTTATTATGACACTTGATTTATTGAAGGACATTAAATTTGTTATACCTGCTCTACAGCATGCATTTATGAAACATAAGGGCGGTGATTCAACTGACTTCATAGCCCTCATTATGGCTTATGGCAATTGCACATTTGGTGCTCCAGATGATGCCTCTCGGTTACTTCATACCGTGCTTGCAAAGGCTGAGTTATGCTGTTCTGCACGCATGGTTTGGAGAGAGTGGTGCAATGTCTGTGGCATAAAAGATGTTGTTCTACAAGGCTTAAAAGCTTGTTGTTACGTGGGTGTGCAAACTGTTGAAGATCTGCGTGCTCGCATGACATATGTATGCCAGTGTGGTGGTGAACGTCATCGGCAAATAGTCGAACACACCACCCCCTGGTTGCTGCTCTCAGGCACACCAAATGAAAAATTGGTGACAACCTCCACGGCGCCTGATTTTGTAGCGTTTAATGTCTTTCAGGGCATTGAAACGGCTGTTGGCCATTATGTTCATGCTCGCCTGAAGGGTGGTCTTATTTTAAAGTTTGACTCTGGCACCGTTAGCAAGACTTCAGACTGGAAGTGCAAGGTGACAGATGTACTTTTCCCCGGCCAAAAATACAGTAGCGATTGTAATGTCGTACGGTATTCTTTGGACGGTAATTTCAGAACAGAGGTTGATCCCGACCTATCTGCTTTCTATGTTAAGGATGGTAAATACTTTACAAGTGAACCACCCGTAACATATTCACCAGCTACAATTTTAGCTGGTAGTGTCTACACTAATAGCTGCCTTGTATCGTCTGATGGACAACCTGGCGGTGATGCTATTAGTTTGAGTTTTAATAACCTTTTAGGGTTTGATTCTAGTAAACCAGTCACTAAGAAATACACTTACTCCTTCTTGCCTAAAGAAGACGGCGATGTGTTGTTGGCTGAGTTTGACACTTATGACCCTATTTATAAGAATGGTGCCATGTATAAAGGCAAACCAATTCTTTGGGTCAACAAAGCATCTTATGATACTAATCTTAATAAGTTCAATAGAGCTAGTTTGCGTCAAATTTTTGACGTAGCCCCCATTGAACTCGAAAATAAATTCACACCTTTGAGTGTGGAGTCTACACCAGTTGAACCTCCAACTGTAGATGTGGTAGCACTTCAACAGGAAATGACAATTGTCAAATGTAAGGGTTTAAATAAACCTTTCGTGAAGGACAATGTCAGTTTCGTTGCTGATGACTCAGGTACTCCCGTTGTTGAGTATCTGTCTAAAGAAGATCTACATACATTGTATGTAGACCCTAAGTATCAAGTCATTGTCTTAAAAGACAATGTACTTTCTTCTATGCTTAGATTGCACACCGTTGAGTCAGGTGATATTAACGTTGTTGCAGCTTCCGGATCTTTGACACGTAAAGTGAAATTACTATTTAGGGCTTCATTTTATTTCAAAGAATTTGCTACCCGCACTTTCACTGCTACCACTGCTGTAGGTAGTTGTATAAAGAGTGTAGTGCGGCATCTAGGTGTTACTAAAGGCATATTGACAGGCTGTTTTAGTTTTGTCAAGATGTTATTTATGCTTCCACTAGCTTACTTTAGTGATTCAAAACTCGGCACCACAGAGGTTAAAGTGAGTGCTTTGAAAACAGCTGGCGTTGTGACAGGTAATGTTGTAAAACAGTGTTGCACTGCTGCTGTTGATTTAAGTATGGATAAGTTGCGCCGTGTGGATTGGAAATCAACCCTACGGTTGTTACTTATGTTATGCACAACTATGGTATTGTTGTCTTCTGTGTATCACTTGTATGTCTTCAATCAGGTCTTATCAAGTGATGTTATGTTTGAAGATGCCCAAGGTTTGAAAAAGTTCTACAAAGAAGTTAGAGCTTACCTAGGAATCTCTTCTGCTTGTGACGGTCTTGCTTCAGCTTATAGGGCGAATTCCTTTGATGTACCTACATTCTGCGCAAACCGTTCTGCAATGTGTAATTGGTGCTTGATTAGCCAAGATTCCATAACTCACTACCCAGCTCTTAAGATGGTTCAAACACATCTTAGCCACTATGTTCTTAACATAGATTGGTTGTGGTTTGCATTTGAGACTGGTTTGGCATACATGCTCTATACCTCGGCCTTCAACTGGTTGTTGTTGGCAGGTACATTGCATTATTTCTTTGCACAGACTTCCATATTTGTAGACTGGCGGTCATACAATTATGCTGTGTCTAGTGCCTTCTGGTTATTCACCCACATTCCAATGGCGGGTTTGGTACGAATGTATAATTTGTTAGCATGCCTTTGGCTTTTACGCAAGTTTTATCAGCATGTAATCAATGGTTGCAAAGATACGGCATGCTTGCTCTGCTATAAGAGGAACCGACTTACTAGAGTTGAAGCTTCTACCGTTGTCTGTGGTGGAAAACGTACGTTTTATATCACAGCAAATGGCGGTATTTCATTCTGTCGTAGGCATAATTGGAATTGTGTGGATTGTGACACTGCAGGTGTGGGGAATACCTTCATCTGTGAAGAAGTCGCAAATGACCTCACTACCGCCCTACGCAGGCCTATTAACGCTACGGATAGATCACATTATTATGTGGATTCCGTTACAGTTAAAGAGACTGTTGTTCAGTTTAATTATCGTAGAGACGGTCAACCATTCTACGAGCGGTTTCCCCTCTGCGCTTTTACAAATCTAGATAAGTTGAAGTTCAAAGAGGTCTGTAAAACTACTACTGGTATACCTGAATACAACTTTATCATCTACGACTCATCAGATCGTGGCCAGGAAAGTTTAGCTAGGTCTGCATGTGTTTATTATTCTCAAGTCTTGTGTAAATCAATTCTTTTGGTTGACTCAAGTTTGGTTACTTCTGTTGGTGATTCTAGTGAAATCGCCACTAAAATGTTTGATTCCTTTGTTAATAGTTTCGTCTCGCTGTATAATGTCACACGCGATAAGTTGGAAAAACTTATCTCTACTGCTCGTGATGGCGTAAGGCGAGGCGATAACTTCCATAGTGTCTTAACAACATTCATTGACGCAGCACGAGGCCCCGCAGGTGTGGAGTCTGATGTTGAGACCAATGAAATTGTTGACTCTGTGCAGTATGCTCATAAACATGACATACAAATTACTAATGAGAGTTACAATAATTATGTACCCTCATATGTTAAACCTGATAGTGTGTCTACCAGTGATTTAGGTAGTCTCATTGATTGTAATGCGGCTTCAGTTAACCAAATTGTCTTGCGTAATTCTAATGGTGCTTGTATTTGGAACGCTGCTGCATATATGAAACTCTCGGATGCACTTAAACGACAGATTCGCATTGCATGCCGTAAGTGTAATTTAGCTTTCCGGTTAACCACCTCAAAGCTACGCGCTAATGATAATATCTTATCAGTTAGATTCACTGCTAACAAAATTGTTGGTGGTGCTCCTACATGGTTTAATGCGTTGCGTGACTTTACGTTAAAGGGTTACGTTCTTGCTACCATTATTGTGTTTCTGTGTGCTGTACTGATGTATTTGTGTTTACCTACATTTTCTATGGTACCTGTTGAATTTTATGAAGACCGCATCTTGGACTTTAAAGTTCTTGATAATGGTATCATTAGGGATGTAAATCCTGATGATAAGTGCTTTGCTAATAAGCACCGGTCCTTCACACAATGGTATCATGAGCATGTTGGTGGTGTCTATGACAACTCTATCACATGCCCATTGACAGTTGCAGTAATTGCTGGAGTTGCTGGTGCTCGCATTCCAGACGTACCTACTACATTGGCTTGGGTGAACAATCAGATAATTTTCTTTGTTTCTCGAGTCTTTGCTAATACAGGCAGTGTTTGCTACACTCCTATAGATGAGATACCCTATAAGAGTTTCTCTGATAGTGGTTGCATTCTTCCATCTGAGTGCACTATGTTTAGGGATGCAGAGGGCCGTATGACACCATACTGCCATGATCCTACTGTTTTGCCTGGGGCTTTTGCGTACAGTCAGATGAGGCCTCATGTTCGTTACGACTTGTATGATGGTAACATGTTTATTAAATTTCCTGAAGTAGTATTTGAAAGTACACTTAGGATTACTAGAACTCTGTCAACTCAGTACTGCCGGTTCGGTAGTTGTGAGTATGCACAAGAGGGTGTTTGTATTACCACAAATGGCTCGTGGGCCATTTTTAATGACCACCATCTTAATAGACCTGGTGTCTATTGTGGCTCTGATTTTATTGACATTGTCAGGCGGTTAGCAGTATCACTGTTCCAGCCTATTACTTATTTCCAATTGACTACCTCATTGGTCTTGGGTATAGGTTTGTGTGCGTTCCTGACTTTGCTCTTCTATTATATTAATAAAGTAAAACGTGCTTTTGCAGATTACACCCAGTGTGCTGTAATTGCTGTTGTTGCTGCTGTTCTTAATAGCTTGTGCATCTGCTTTGTTGCCTCTATACCATTGTGTATAGTACCTTACACTGCATTGTACTATTATGCTACATTCTATTTTACTAATGAGCCTGCATTTATTATGCATGTTTCTTGGTACATTATGTTCGGGCCTATCGTTCCCATATGGATGACCTGCGTCTATACAGTTGCAATGTGCTTTAGACACTTCTTCTGGGTTTTAGCTTATTTTAGTAAGAAACATGTAGAAGTTTTTACTGATGGTAAGCTTAATTGTAGTTTCCAGGACGCTGCCTCTAATATCTTTGTTATTAACAAGGACACTTATGCAGCTCTTAGAAACTCTTTAACTAATGATGCCTATTCACGATTTTTGGGGTTGTTTAACAAGTATAAGTACTTCTCTGGTGCTATGGAAACAGCCGCTTATCGTGAAGCTGCAGCATGTCATCTTGCTAAAGCCTTACAAACATACAGCGAGACTGGTAGTGATCTTCTTTACCAACCACCCAACTGTAGCATAACCTCTGGCGTGTTGCAAAGCGGTTTGGTGAAAATGTCACATCCCAGTGGAGATGTTGAGGCTTGTATGGTTCAGGTTACCTGCGGTAGCATGACTCTTAATGGTCTTTGGCTTGACAACACAGTCTGGTGCCCACGACACGTAATGTGCCCGGCTGACCAGTTGTCTGATCCTAATTATGATGCCTTGTTGATTTCTATGACTAATCATAGTTTCAGTGTGCAAAAACACATTGGCGCTCCAGCAAACTTGCGTGTTGTTGGTCATGCCATGCAAGGCACTCTTTTGAAGTTGACTGTCGATGTTGCTAACCCTAGCACTCCAGCCTACACTTTTACAACAGTGAAACCTGGCGCAGCATTTAGTGTGTTAGCATGCTATAATGGTCGTCCGACTGGTACATTCACTGTTGTAATGCGCCCTAACTACACAATTAAGGGTTCCTTTCTGTGTGGTTCTTGTGGTAGTGTTGGTTACACCAAGGAGGGTAGTGTGATCAATTTTTGTTACATGCATCAAATGGAACTTGCTAATGGTACACATACCGGTTCAGCATTTGATGGTACTATGTATGGTGCCTTTATGGATAAACAAGTGCACCAAGTTCAGTTAACAGACAAATACTGCAGTGTTAATGTAGTAGCTTGGCTTTACGCAGCAATACTTAATGGTTGCGCTTGGTTTGTAAAACCTAATCGCACTAGTGTTGTTTCTTTTAATGAATGGGCTCTTGCCAACCAATTCACTGAATTTGTTGGCACTCAATCCGTTGACATGTTAGCTGTCAAAACAGGCGTTGCTATTGAACAGCTGCTTTATGCGATCCAACAACTTTATACTGGGTTCCAGGGAAAGCAAATCCTTGGCAGTACTATGTTGGAAGATGAATTCACACCTGAGGATGTTAATATGCAGATTATGGGTGTGGTTATGCAGAGTGGTGTGAGAAAAGTTACATATGGTACTGCGCATTGGTTGTTCGCGACCCTTGTCTCAACCTATGTGATAATCTTACAAGCCACTAAATTTACTTTGTGGAACTACTTGTTTGAGACTATTCCCACACAGTTGTTCCCACTCTTATTTGTGACTATGGCCTTCGTTATGTTGTTGGTTAAACACAAACACACCTTTTTGACACTTTTCTTGTTGCCTGTGGCTATTTGTTTGACTTATGCAAACATAGTCTACGAGCCCACTACTCCCATTTCGTCAGCGCTGATTGCAGTTGCAAATTGGCTTGCCCCCACTAATGCTTATATGCGCACTACACATACTGATATTGGTGTCTACATTAGTATGTCACTTGTATTAGTCATTGTAGTGAAGAGATTGTACAACCCATCACTTTCTAACTTTGCGTTAGCATTGTGCAGTGGTGTAATGTGGTTGTACACTTATAGCATTGGAGAAGCCTCAAGCCCCATTGCCTATCTGGTTTTTGTCACTACACTCACTAGTGATTATACGATTACAGTCTTTGTTACTGTCAACCTTGCAAAAGTTTGCACTTATGCCATCTTTGCTTACTCACCACAGCTTACACTTGTGTTTCCGGAAGTGAAGATGATACTTTTATTATACACATGTTTAGGTTTCATGTGTACTTGCTATTTTGGTGTCTTCTCTCTTTTGAACCTTAAGCTTAGAGCACCTATGGGTGTCTATGACTTTAAGGTCTCAACACAAGAGTTCAGATTCATGACTGCTAACAATCTAACTGCACCTAGAAATTCTTGGGAGGCTATGGCTCTGAACTTTAAGTTAATAGGTATTGGCGGTACACCTTGTATAAAGGTTGCTGCTATGCAGTCTAAACTTACAGATCTTAAATGCACATCTGTGGTTCTCCTCTCTGTGCTCCAACAGTTACACTTAGAGGCTAATAGTAGGGCCTGGGCTTTCTGTGTTAAATGCCATAATGATATATTGGCAGCAACAGACCCCAGTGAGGCTTTCGAGAAATTCGTAAGTCTCTTTGCCACTTTAATGACTTTTTCTGGTAATGTAGATCTTGATGCGTTAGCTAGTGATATTTTTGACACTCCTAGCGTACTTCAAGCTACTCTTTCTGAGTTTTCACACTTAGCTACCTTTGCTGAGTTGGAAGCTGCGCAGAAAGCCTATCAGGAAGCTATGGACTCTGGTGACACCTCACCACAAGTTCTTAAGGCTTTGCAGAAGGCTGTTAATATAGCTAAAAACGCCTATGAGAAGGATAAGGCAGTGGCCCGTAAGTTAGAACGTATGGCTGATCAGGCTATGACTTCTATGTATAAGCAAGCACGTGCTGAAGACAAGAAAGCAAAAATTGTCAGTGCTATGCAAACTATGTTGTTTGGTATGATTAAGAAGCTCGACAACGATGTTCTTAATGGTATCATTTCTAACGCTAGGAATGGTTGTATACCTCTTAGTGTCATTCCACTGTGTGCTTCAAATAAACTTCGCGTTGTAATTCCTGACTTCACCGTCTGGAATCAGGTAGTCACATATCCCTCGCTTAACTACGCTGGGGCTTTGTGGGACATTACAGTTATAAACAATGTGGACAATGAAATTGTTAAGTCTTCAGATGTTGTAGACAGCAATGAAAATTTAACATGGCCACTTGTTTTAGAATGCACTAGGGCATCCACTTCTGCCGTTAAGTTGCAAAATAATGAGATCAAACCTTCAGGTTTAAAAACCATGGTTGTGTCTGCAGGTCAAGAGCAAACTAACTGTAATACTAGTTCCTTAGCTTATTACGAACCTGTGCAGGGTCGTAAAATGCTGATGGCTCTTCTTTCTGATAATGCCTATCTCAAATGGGCGCGTGTTGAAGGTAAGGACGGATTTGTTAGTGTAGAGCTACAACCTCCTTGCAAATTCTTGATTGCGGGACCAAAAGGACCTGAAATCCGATATCTCTATTTTGTTAAAAATCTTAACAACCTTCATCGCGGGCAAGTGTTAGGGCACATTGCTGCGACTGTTAGATTGCAAGCTGGTTCTAACACCGAGTTTGCCTCTAATTCTTCGGTGTTGTCACTTGTTAACTTCACCGTTGATCCTCAAAAAGCTTATCTCGATTTCGTCAATGCGGGAGGTGCCCCATTGACAAATTGTGTTAAGATGCTTACTCCTAAAACTGGTACAGGTATAGCTATATCTGTTAAACCAGAGAGTACAGCTGATCAAGAGACTTATGGTGGAGCTTCAGTGTGTCTCTATTGCCGTGCGCATATAGAACATCCTGATGTCTCTGGTGTTTGTAAATATAAGGGTAAGTTTGTCCAAATCCCTGCTCAGTGTGTCCGTGACCCTGTGGGATTTTGTTTGTCAAATACCCCCTGTAATGTCTGTCAATATTGGATTGGATATGGGTGCAATTGTGACTCGCTTAGGCAAGCAGCACTGCCCCAATCTAAAGATTCCAATTTTTTAAACGAGTCCGGGGTTCTATTGTAA
Protein
MSFVAGVTAQGARGTYRAALNSEKHQDHVSLTVPLCGSGNLVEKLSPWFMDGENAYEVVKAMLLKKEPLLYVPIRLAGHTRHLPGPRVYLVERLIACENPFMVNQLAYSSSANGSLVGTTLQGKPIGMFFPYDIELVTGKQNILLRKYGRGGYHYTPFHYERDNTSCPEWMDDFEADPKGKYAQNLLKKLIGGDVTPVDQYMCGVDGKPISAYAFLMAKDGITKLADVEADVAARADDEGFITLKNNLYRLVWHVERKDVPYPKQSIFTINSVVQKDGVENTPPHYFTLGCKILTLTPRNKWSGVSDLSLKQKLLYTFYGKESLENPTYIYHSAFIECGSCGNDSWLTGNAIQGFACGCGASYTANDVEVQSSGMIKPNALLCATCPFAKGDSCSSNCKHSVAQLVSYLSERCNVIADSKSFTLIFGGVAYAYFGCEEGTMYFVPRAKSVVSRIGDSIFTGCTGSWNKVTQIANMFLEQTQHSLNFVGEFVVNDVVLAILSGTTTNVDKIRQLLKGVTLDKLRDYLADYDVAVTAGPFMDNAINVGGTGLQYAAITAPYVVLTGLGESFKKVATIPYKVCNSVKDTLTYYAHSVLYRVFPYDMDSGVSSFSELLFDCVDLSVASTYFLVRLLQDKTGDFMSTIITSCQTAVSKLLDTCFEATEATFNFLLDLAGLFRIFLRNAYVYTSQGFVVVNGKVSTLVKQVLDLLNKGMQLLHTKVSWAGSNISAVIYSGRESLIFPSGTYYCVTTKAKSVQQDLDVILPGEFSKKQLGLLQPTDNSTTVSVTVSSDMVETVVGQLEQTNMHSPDVIVGDYVIISEKLFVRSKEEDGFAFYPACTNGHAVPTLFRLKGGAPVKKVAFGGDQVHEVAAVRSVTVEYNIHAVLDTLLASSSLRTFVVDKSLSIEEFADVVKEQVSDLLVKLLRGMPIPDFDLDDFIDAPCYCFNAEGDASWSSTMIFSLHPVECDEECSEVEASDLEEGESECISETSTEQVDVSHEVSDDEWAAAVDEAFPLDEAEDVTESVQEEAQPVEVPVEDIAQVVIADTLQETSVVSDTVEVPPQVVKLPSEPQTIQPEVKEVAPVYEADTEQTQSVTVKPKRLRKKRNVDPLSNFEHKVITECVTIVLGDAIQVAKCYGESVLVNAANTHLKHGGGIAGAINAASKGAVQKESDEYILAKGPLQVGDSVLLQGHSLAKNILHVVGPDARAKQDVSLLSKCYKAMNAYPLVVTPLVSAGIFGVKPAVSFDYLIREAKTRVLVVVNSQDVYKSLTIVDIPQSLTFSYDGLRGAIRKAKDYGFTVFVCTDNSANTKVLRNKGVDYTKKFLTVDGVQYYCYTSKDTLDDILQQANKSVGIISMPLGYVSHGLGLIQAGSVVRRVNVPYVCLLANKEQEAILMSEDVKLNPSEDFIKHVRTNGGYNSWHLVEGELLVQDLRLNKLLHWSDQTICYKDSVFYVVKNSTAFPFETLSACRAYLDSRTTQQLTIEVLVTVDGVNFRTVVLNNKNTYRSQLGCVFFNGADISDTIPDEKQNGHSLYLADNLTADETKALKELYGPVDPTFLHRFYSLKAAVHKWKMVVCDKVRSLKLSDNNCYLNAVIMTLDLLKDIKFVIPALQHAFMKHKGGDSTDFIALIMAYGNCTFGAPDDASRLLHTVLAKAELCCSARMVWREWCNVCGIKDVVLQGLKACCYVGVQTVEDLRARMTYVCQCGGERHRQIVEHTTPWLLLSGTPNEKLVTTSTAPDFVAFNVFQGIETAVGHYVHARLKGGLILKFDSGTVSKTSDWKCKVTDVLFPGQKYSSDCNVVRYSLDGNFRTEVDPDLSAFYVKDGKYFTSEPPVTYSPATILAGSVYTNSCLVSSDGQPGGDAISLSFNNLLGFDSSKPVTKKYTYSFLPKEDGDVLLAEFDTYDPIYKNGAMYKGKPILWVNKASYDTNLNKFNRASLRQIFDVAPIELENKFTPLSVESTPVEPPTVDVVALQQEMTIVKCKGLNKPFVKDNVSFVADDSGTPVVEYLSKEDLHTLYVDPKYQVIVLKDNVLSSMLRLHTVESGDINVVAASGSLTRKVKLLFRASFYFKEFATRTFTATTAVGSCIKSVVRHLGVTKGILTGCFSFVKMLFMLPLAYFSDSKLGTTEVKVSALKTAGVVTGNVVKQCCTAAVDLSMDKLRRVDWKSTLRLLLMLCTTMVLLSSVYHLYVFNQVLSSDVMFEDAQGLKKFYKEVRAYLGISSACDGLASAYRANSFDVPTFCANRSAMCNWCLISQDSITHYPALKMVQTHLSHYVLNIDWLWFAFETGLAYMLYTSAFNWLLLAGTLHYFFAQTSIFVDWRSYNYAVSSAFWLFTHIPMAGLVRMYNLLACLWLLRKFYQHVINGCKDTACLLCYKRNRLTRVEASTVVCGGKRTFYITANGGISFCRRHNWNCVDCDTAGVGNTFICEEVANDLTTALRRPINATDRSHYYVDSVTVKETVVQFNYRRDGQPFYERFPLCAFTNLDKLKFKEVCKTTTGIPEYNFIIYDSSDRGQESLARSACVYYSQVLCKSILLVDSSLVTSVGDSSEIATKMFDSFVNSFVSLYNVTRDKLEKLISTARDGVRRGDNFHSVLTTFIDAARGPAGVESDVETNEIVDSVQYAHKHDIQITNESYNNYVPSYVKPDSVSTSDLGSLIDCNAASVNQIVLRNSNGACIWNAAAYMKLSDALKRQIRIACRKCNLAFRLTTSKLRANDNILSVRFTANKIVGGAPTWFNALRDFTLKGYVLATIIVFLCAVLMYLCLPTFSMVPVEFYEDRILDFKVLDNGIIRDVNPDDKCFANKHRSFTQWYHEHVGGVYDNSITCPLTVAVIAGVAGARIPDVPTTLAWVNNQIIFFVSRVFANTGSVCYTPIDEIPYKSFSDSGCILPSECTMFRDAEGRMTPYCHDPTVLPGAFAYSQMRPHVRYDLYDGNMFIKFPEVVFESTLRITRTLSTQYCRFGSCEYAQEGVCITTNGSWAIFNDHHLNRPGVYCGSDFIDIVRRLAVSLFQPITYFQLTTSLVLGIGLCAFLTLLFYYINKVKRAFADYTQCAVIAVVAAVLNSLCICFVASIPLCIVPYTALYYYATFYFTNEPAFIMHVSWYIMFGPIVPIWMTCVYTVAMCFRHFFWVLAYFSKKHVEVFTDGKLNCSFQDAASNIFVINKDTYAALRNSLTNDAYSRFLGLFNKYKYFSGAMETAAYREAAACHLAKALQTYSETGSDLLYQPPNCSITSGVLQSGLVKMSHPSGDVEACMVQVTCGSMTLNGLWLDNTVWCPRHVMCPADQLSDPNYDALLISMTNHSFSVQKHIGAPANLRVVGHAMQGTLLKLTVDVANPSTPAYTFTTVKPGAAFSVLACYNGRPTGTFTVVMRPNYTIKGSFLCGSCGSVGYTKEGSVINFCYMHQMELANGTHTGSAFDGTMYGAFMDKQVHQVQLTDKYCSVNVVAWLYAAILNGCAWFVKPNRTSVVSFNEWALANQFTEFVGTQSVDMLAVKTGVAIEQLLYAIQQLYTGFQGKQILGSTMLEDEFTPEDVNMQIMGVVMQSGVRKVTYGTAHWLFATLVSTYVIILQATKFTLWNYLFETIPTQLFPLLFVTMAFVMLLVKHKHTFLTLFLLPVAICLTYANIVYEPTTPISSALIAVANWLAPTNAYMRTTHTDIGVYISMSLVLVIVVKRLYNPSLSNFALALCSGVMWLYTYSIGEASSPIAYLVFVTTLTSDYTITVFVTVNLAKVCTYAIFAYSPQLTLVFPEVKMILLLYTCLGFMCTCYFGVFSLLNLKLRAPMGVYDFKVSTQEFRFMTANNLTAPRNSWEAMALNFKLIGIGGTPCIKVAAMQSKLTDLKCTSVVLLSVLQQLHLEANSRAWAFCVKCHNDILAATDPSEAFEKFVSLFATLMTFSGNVDLDALASDIFDTPSVLQATLSEFSHLATFAELEAAQKAYQEAMDSGDTSPQVLKALQKAVNIAKNAYEKDKAVARKLERMADQAMTSMYKQARAEDKKAKIVSAMQTMLFGMIKKLDNDVLNGIISNARNGCIPLSVIPLCASNKLRVVIPDFTVWNQVVTYPSLNYAGALWDITVINNVDNEIVKSSDVVDSNENLTWPLVLECTRASTSAVKLQNNEIKPSGLKTMVVSAGQEQTNCNTSSLAYYEPVQGRKMLMALLSDNAYLKWARVEGKDGFVSVELQPPCKFLIAGPKGPEIRYLYFVKNLNNLHRGQVLGHIAATVRLQAGSNTEFASNSSVLSLVNFTVDPQKAYLDFVNAGGAPLTNCVKMLTPKTGTGIAISVKPESTADQETYGGASVCLYCRAHIEHPDVSGVCKYKGKFVQIPAQCVRDPVGFCLSNTPCNVCQYWIGYGCNCDSLRQAALPQSKDSNFLNESGVLL

Summary

Function
The replicase polyprotein of coronaviruses is a multifunctional protein: it contains the activities necessary for the transcription of negative stranded RNA, leader RNA, subgenomic mRNAs and progeny virion RNA as well as proteinases responsible for the cleavage of the polyprotein into functional products.
Promotes the degradation of host mRNAs by inducing an endonucleolytic RNA cleavage in template mRNAs, and inhibits of host mRNA translation, a function that is separable from its RNA cleavage activity. By suppressing host gene expression, nsp1 facilitates efficient viral gene expression in infected cells and evasion from host immune response.
May play a role in the modulation of host cell survival signaling pathway by interacting with host PHB and PHB2. Indeed, these two proteins play a role in maintaining the functional integrity of the mitochondria and protecting cells from various stresses.
Responsible for the cleavages located at the N-terminus of the replicase polyprotein. In addition, PL-PRO possesses a deubiquitinating/deISGylating activity and processes both 'Lys-48'- and 'Lys-63'-linked polyubiquitin chains from cellular substrates. Participates together with nsp4 in the assembly of virally-induced cytoplasmic double-membrane vesicles necessary for viral replication. Antagonizes innate immune induction of type I interferon by blocking the phosphorylation, dimerization and subsequent nuclear translocation of host IRF3. Prevents also host NF-kappa-B signaling.
Participates in the assembly of virally-induced cytoplasmic double-membrane vesicles necessary for viral replication.
Proteinase 3CL-PRO: Cleaves the C-terminus of replicase polyprotein at 11 sites. Recognizes substrates containing the core sequence [ILMVF]-Q-|-[SGACN]. Also able to bind an ADP-ribose-1''-phosphate (ADRP).
Plays a role in the initial induction of autophagosomes from host reticulum endoplasmic. Later, limits the expansion of these phagosomes that are no longer able to deliver viral components to lysosomes.
Forms a hexadecamer with nsp8 (8 subunits of each) that may participate in viral replication by acting as a primase. Alternatively, may synthesize substantially longer products than oligonucleotide primers.
Forms a hexadecamer with nsp7 (8 subunits of each) that may participate in viral replication by acting as a primase. Alternatively, may synthesize substantially longer products than oligonucleotide primers.
May participate in viral replication by acting as a ssRNA-binding protein.
Plays a pivotal role in viral transcription by stimulating both nsp14 3'-5' exoribonuclease and nsp16 2'-O-methyltransferase activities. Therefore plays an essential role in viral mRNAs cap methylation.
Catalytic Activity
ATP + H2O = ADP + H(+) + phosphate
TSAVLQ-|-SGFRK-NH(2) and SGVTFQ-|-GKFKK the two peptides corresponding to the two self-cleavage sites of the SARS 3C-like proteinase are the two most reactive peptide substrates. The enzyme exhibits a strong preference for substrates containing Gln at P1 position and Leu at P2 position.
Thiol-dependent hydrolysis of ester, thioester, amide, peptide and isopeptide bonds formed by the C-terminal Gly of ubiquitin (a 76-residue protein attached to proteins as an intracellular targeting signal).
Subunit
Nsp2 interacts with host PHB and PHB2. 3CL-PRO exists as monomer and homodimer. Nsp4 interacts with PL-PRO and nsp6. Only the homodimer shows catalytic activity. Eight copies of nsp7 and eight copies of nsp8 assemble to form a heterohexadecamer dsRNA-encircling ring structure. Nsp9 is a dimer.
Miscellaneous
Produced by conventional translation.
Similarity
Belongs to the coronaviruses polyprotein 1ab family.
Keywords
3D-structure   Activation of host autophagy by virus   Decay of host mRNAs by virus   Eukaryotic host gene expression shutoff by virus   Eukaryotic host translation shutoff by virus   Host cytoplasm   Host gene expression shutoff by virus   Host membrane   Host mRNA suppression by virus   Host-virus interaction   Hydrolase   Inhibition of host innate immune response by virus   Inhibition of host interferon signaling pathway by virus   Inhibition of host IRF3 by virus   Inhibition of host ISG15 by virus   Inhibition of host RLR pathway by virus   Membrane   Metal-binding   Modulation of host ubiquitin pathway by viral deubiquitinase   Modulation of host ubiquitin pathway by virus   Protease   Reference proteome   Repeat   Ribosomal frameshifting   RNA-binding   Thiol protease   Transmembrane   Transmembrane helix   Ubl conjugation pathway   Viral immunoevasion   Zinc   Zinc-finger  
Feature
chain  Host translation inhibitor nsp1
Uniprot
Pfam
PF05409   Peptidase_C30
PF11633   SUD-M
PF08715   Viral_protease
PF08717   nsp8
PF08716   nsp7
PF16251   NAR
PF08710   nsp9
PF09401   NSP10
PF01661   Macro
PF16348   Corona_NSP4_C
Interpro
IPR038400   Nsp3_coronavir_sf
IPR018995   RNA_synth_NSP10_coronavirus
IPR009003   Peptidase_S1_PA
IPR014822   NSP9
IPR024375   Nsp3_coronavir
IPR014828   NSP7
IPR014829   NSP8
IPR032592   NAR_dom
IPR032505   Corona_NSP4_C
IPR002589   Macro_dom
IPR036333   NSP10_sf
IPR036499   NSP9_sf
IPR038123   NSP4_C_sf
IPR037230   NSP8_sf
IPR037204   NSP7_sf
IPR014827   Viral_protease
IPR008740   Peptidase_C30
IPR042570   NAR_sf
IPR013016   Peptidase_C30/C16
IPR038083   R1a/1ab
SUPFAM
SSF101816   SSF101816
SSF143076   SSF143076
SSF50494   SSF50494
SSF140367   SSF140367
SSF159936   SSF159936
SSF144246   SSF144246
ProteinModelPortal
PDB
4R3D     E-value=0.0     Score= 697     Identity=99.70%     Cov(Q)=7.56%     Cov(P)=98.81%

Ontologies

Subcellular Location

From MSLVP
Capsid
From Uniprot
Host membrane  
Host cytoplasm  
   nsp7, nsp8, nsp9 and nsp10 are localized in cytoplasmic foci, largely perinuclear. Late in infection, they merge into confluent complexes (By similarity).   With evidence from 5 publications.

Topology

Length:
4391
Number of predicted TMHs:
14
Exp number of AAs in TMHs:
351.565829999999
Exp number, first 60 AAs:
0
Total prob of N-in:
0.00122
outside
1  -  2174
TMhelix
2175  -  2197
inside
2198  -  2296
TMhelix
2297  -  2319
outside
2320  -  2338
TMhelix
2339  -  2361
inside
2362  -  2755
TMhelix
2756  -  2778
outside
2779  -  3026
TMhelix
3027  -  3049
inside
3050  -  3069
TMhelix
3070  -  3092
outside
3093  -  3111
TMhelix
3112  -  3134
inside
3135  -  3560
TMhelix
3561  -  3578
outside
3579  -  3592
TMhelix
3593  -  3612
inside
3613  -  3618
TMhelix
3619  -  3638
outside
3639  -  3663
TMhelix
3664  -  3683
inside
3684  -  3689
TMhelix
3690  -  3710
outside
3711  -  3729
TMhelix
3730  -  3752
inside
3753  -  3764
TMhelix
3765  -  3787
outside
3788  -  4391
 
 
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