2021-05-09
|
R-HSA-9729307
|
Nucleoprotein is SUMOylated
|
BibTex
|
2021-05-09
|
R-HSA-9729279
|
Nucleoprotein is ADP-ribosylated
|
BibTex
|
2021-05-09
|
R-HSA-9729283
|
Nucleoprotein is methylated by PRMT1
|
BibTex
|
2021-05-09
|
R-HSA-9729300
|
Unknown kinase phosphorylates nucleoprotein
|
BibTex
|
2021-05-09
|
R-HSA-9729318
|
CSNK1A1 phosphorylates nucleoprotein
|
BibTex
|
2021-05-09
|
R-HSA-9729260
|
GSK3 phosphorylates nucleoprotein
|
BibTex
|
2021-05-09
|
R-HSA-9729330
|
SRPK1/2 phosphorylates nucleoprotein
|
BibTex
|
2020-09-09
|
R-HSA-9694541
|
SARS-CoV-2 gRNA:RTC:RNA primer binds RTC inhibitors
|
BibTex
|
2020-09-09
|
R-HSA-9694792
|
nsp12 misincorporates a nucleotide in nascent RNA minus strand
|
BibTex
|
2020-09-09
|
R-HSA-9694665
|
SARS-CoV-2 gRNA:RTC:nascent RNA minus strand binds RTC inhibitors
|
BibTex
|
2020-09-09
|
R-HSA-9694406
|
nsp13 binds DDX5
|
BibTex
|
2020-09-09
|
R-HSA-9694520
|
nsp16 binds VHL
|
BibTex
|
2020-09-09
|
R-HSA-9694677
|
ZCRB1 binds 5'UTR of SARS-CoV-2 genomic RNA
|
BibTex
|
2020-09-09
|
R-HSA-9694390
|
nsp15 binds RB1
|
BibTex
|
2020-09-09
|
R-HSA-9694419
|
SARS-CoV-2 gRNA complement (minus strand):RTC binds RTC inhibitors
|
BibTex
|
2020-09-09
|
R-HSA-9694592
|
3CLp dimer binds 3CLp inhibitors
|
BibTex
|
2020-09-09
|
R-HSA-9694261
|
nsp9 forms a homotetramer
|
BibTex
|
2020-09-09
|
R-HSA-9698265
|
Enhanced autophagosome formation
|
BibTex
|
2020-09-09
|
R-HSA-9694580
|
nsp8 binds MAP1LC3B
|
BibTex
|
2020-09-09
|
R-HSA-9694790
|
E protein gets N-glycosylated
|
BibTex
|
2020-09-09
|
R-HSA-9694727
|
Endocytosis of protein 3a
|
BibTex
|
2020-09-09
|
R-HSA-9694575
|
Nucleoprotein translocates to the plasma membrane
|
BibTex
|
2020-09-09
|
R-HSA-9694345
|
Nucleoprotein translocates to the nucleolus
|
BibTex
|
2020-09-09
|
R-HSA-9694373
|
Unphosphorylated nucleoprotein translocates to the plasma membrane
|
BibTex
|
2020-09-09
|
R-HSA-9681514
|
TMPRSS2 binds TMPRSS2 inhibitors
|
BibTex
|
2020-09-09
|
R-HSA-9683467
|
CQ, HCQ are protonated to CQ2+, HCQ2+
|
BibTex
|
2020-09-09
|
R-HSA-9683478
|
CQ, HCQ diffuses from cytosol to endocytic vesicle lumen
|
BibTex
|
2020-09-09
|
R-HSA-9685655
|
CTSL bind CTSL inhibitors
|
BibTex
|
2020-09-09
|
R-HSA-9695415
|
glycosylated-ACE2 binds ACE2 inhibitors
|
BibTex
|
2020-09-09
|
R-HSA-9687724
|
GSK3B binds GSKi
|
BibTex
|
2020-09-09
|
R-HSA-9686790
|
ER-alpha glucosidases bind ER-alpha glucosidase inhibitors
|
BibTex
|
2020-09-09
|
R-HSA-9694572
|
3a localizes to the cell membrane
|
BibTex
|
2020-09-09
|
R-HSA-9694308
|
3a is externalized together with membrane structures
|
BibTex
|
2020-09-09
|
R-HSA-9694441
|
3CLp cleaves pp1a
|
BibTex
|
2020-09-09
|
R-HSA-9694334
|
mRNA1 is translated to pp1a
|
BibTex
|
2020-09-09
|
R-HSA-9694723
|
Uncoating of SARS-CoV-2 Genome
|
BibTex
|
2020-09-09
|
R-HSA-9694689
|
Fusion and Release of SARS-CoV-2 Nucleocapsid
|
BibTex
|
2020-09-09
|
R-HSA-9699007
|
FURIN Mediated SARS-CoV-2 Spike Protein Cleavage and Endocytosis
|
BibTex
|
2020-09-09
|
R-HSA-9694287
|
Cleavage of S protein into S1:S2
|
BibTex
|
2020-09-09
|
R-HSA-9697423
|
Endocytosis of SARS-CoV-2 Virion
|
BibTex
|
2020-09-09
|
R-HSA-9694661
|
TMPRSS2 Mediated SARS-CoV-2 Spike Protein Cleavage and Endocytosis
|
BibTex
|
2020-09-09
|
R-HSA-9694641
|
Viral release
|
BibTex
|
2020-09-09
|
R-HSA-9694633
|
SARS virus buds into ERGIC lumen
|
BibTex
|
2020-09-09
|
R-HSA-9694528
|
Accessory proteins are recruited to the maturing virion
|
BibTex
|
2020-09-09
|
R-HSA-9694553
|
Recruitment of Spike trimer to assembling virion
|
BibTex
|
2020-09-09
|
R-HSA-9694444
|
E and N are recruited to the M lattice
|
BibTex
|
2020-09-09
|
R-HSA-9694281
|
Encapsidation of SARS coronavirus genomic RNA
|
BibTex
|
2020-09-09
|
R-HSA-9694455
|
SUMO-p-N protein dimer binds genomic RNA
|
BibTex
|
2020-09-09
|
R-HSA-9694568
|
Nucleoprotein translocates to the ERGIC outer membrane
|
BibTex
|
2020-09-09
|
R-HSA-9694294
|
E pentamer is transported to the Golgi
|
BibTex
|
2020-09-09
|
R-HSA-9694452
|
Protein E forms a homopentamer
|
BibTex
|
2020-09-09
|
R-HSA-9694529
|
Ubiquination of protein E
|
BibTex
|
2020-09-09
|
R-HSA-9694401
|
E protein gets palmitoylated
|
BibTex
|
2020-09-09
|
R-HSA-9694280
|
mRNA4 is translated to protein E
|
BibTex
|
2020-09-09
|
R-HSA-9694487
|
M protein oligomerization
|
BibTex
|
2020-09-09
|
R-HSA-9694367
|
Glycosylated M localizes to the Golgi membrane
|
BibTex
|
2020-09-09
|
R-HSA-9694525
|
M protein gets N-glycosylated
|
BibTex
|
2020-09-09
|
R-HSA-9694555
|
Protein M localizes to the Golgi membrane
|
BibTex
|
2020-09-09
|
R-HSA-9694681
|
mRNA5 is translated to protein M
|
BibTex
|
2020-09-09
|
R-HSA-9698333
|
Spike trimer moves into the ERGIC membrane
|
BibTex
|
2020-09-09
|
R-HSA-9697018
|
Addition of sialic acids on some Spike glycosyl sidechains
|
BibTex
|
2020-09-09
|
R-HSA-9696980
|
Spike trimer glycoside chains get additional branches
|
BibTex
|
2020-09-09
|
R-HSA-9694656
|
Spike trimer glycoside chains are extended
|
BibTex
|
2020-09-09
|
R-HSA-9694467
|
Spike protein forms a homotrimer
|
BibTex
|
2020-09-09
|
R-HSA-9694341
|
Spike protein gets palmitoylated
|
BibTex
|
2020-09-09
|
R-HSA-9694780
|
Spike translocates to ERGIC
|
BibTex
|
2020-09-09
|
R-HSA-9694337
|
Trimmed spike protein binds to calnexin
|
BibTex
|
2020-09-09
|
R-HSA-9696807
|
N-glycan mannose trimming of Spike
|
BibTex
|
2020-09-09
|
R-HSA-9694364
|
N-glycan glucose trimming of Spike
|
BibTex
|
2020-09-09
|
R-HSA-9694793
|
Spike protein gets N-glycosylated
|
BibTex
|
2020-09-09
|
R-HSA-9694447
|
mRNA2 is translated to Spike
|
BibTex
|
2020-09-09
|
R-HSA-9694662
|
Protein 3a forms a homotetramer
|
BibTex
|
2020-09-09
|
R-HSA-9694718
|
O-glycosylation of 3a is terminated
|
BibTex
|
2020-09-09
|
R-HSA-9694438
|
GalNAc is transferred onto 3a
|
BibTex
|
2020-09-09
|
R-HSA-9694392
|
3a translocates to the ERGIC
|
BibTex
|
2020-09-09
|
R-HSA-9694794
|
mRNA3 is translated to protein 3a
|
BibTex
|
2020-09-09
|
R-HSA-9694733
|
Polyadenylation of SARS-CoV-2 subgenomic mRNAs (plus strand)
|
BibTex
|
2020-09-09
|
R-HSA-9698988
|
Direct Host Cell Membrane Membrane Fusion and Release of SARS-CoV-2 Nucleocapsid
|
BibTex
|
2020-09-09
|
R-HSA-9694579
|
Spike glycoprotein of SARS-CoV-2 binds ACE2 on host cell
|
BibTex
|
2020-09-09
|
R-HSA-9694370
|
mRNA9a is translated to Nucleoprotein
|
BibTex
|
2020-09-09
|
R-HSA-9729260
|
GSK3 phosphorylates nucleoprotein
|
BibTex
|
2020-09-09
|
R-HSA-9729279
|
Nucleoprotein is ADP-ribosylated
|
BibTex
|
2020-09-09
|
R-HSA-9729307
|
Nucleoprotein is SUMOylated
|
BibTex
|
2020-09-09
|
R-HSA-9694363
|
Dimerisation of nucleoprotein
|
BibTex
|
2020-09-09
|
R-HSA-9694567
|
pp1a forms a dimer
|
BibTex
|
2020-09-09
|
R-HSA-9694377
|
pp1a cleaves itself
|
BibTex
|
2020-09-09
|
R-HSA-9694632
|
nsp14 acts as a 3'-to-5' exonuclease to remove misincorporated nucleotides from nascent RNA
|
BibTex
|
2020-09-09
|
R-HSA-9694277
|
nsp8 generates RNA primers
|
BibTex
|
2020-09-09
|
R-HSA-9694605
|
nsp12 synthesizes minus strand SARS-CoV-2 genomic RNA complement
|
BibTex
|
2020-09-09
|
R-HSA-9694549
|
RTC completes synthesis of the minus strand genomic RNA complement
|
BibTex
|
2020-09-09
|
R-HSA-9694492
|
nsp14 acts as a cap N7 methyltransferase to modify SARS-CoV-2 gRNA complement (minus strand)
|
BibTex
|
2020-09-09
|
R-HSA-9694521
|
nsp16 acts as a cap 2'-O-methyltransferase to modify SARS-CoV-2 gRNA complement (minus strand)
|
BibTex
|
2020-09-09
|
R-HSA-9694495
|
RTC binds SARS-CoV-2 genomic RNA complement (minus strand)
|
BibTex
|
2020-09-09
|
R-HSA-9694581
|
RTC synthesizes SARS-CoV-2 plus strand genomic RNA
|
BibTex
|
2020-09-09
|
R-HSA-9694737
|
nsp14 acts as a cap N7 methyltransferase to modify SARS-CoV-2 gRNA (plus strand)
|
BibTex
|
2020-09-09
|
R-HSA-9694721
|
nsp16 acts as a cap 2'-O-methyltransferase to modify SARS-CoV-2 gRNA (plus strand)
|
BibTex
|
2020-09-09
|
R-HSA-9694471
|
Polyadenylation of SARS-CoV-2 genomic RNA (plus strand)
|
BibTex
|
2020-09-09
|
R-HSA-9694274
|
mRNA1 is translated to pp1ab
|
BibTex
|
2020-09-09
|
R-HSA-9694333
|
3CLp forms a homodimer
|
BibTex
|
2020-09-09
|
R-HSA-9694732
|
3CLp cleaves pp1ab
|
BibTex
|
2020-09-09
|
R-HSA-9694338
|
nsp1-4 cleaves itself
|
BibTex
|
2020-09-09
|
R-HSA-9694331
|
nsp3-4 is glycosylated
|
BibTex
|
2020-09-09
|
R-HSA-9694601
|
nsp3-4 cleaves itself
|
BibTex
|
2020-09-09
|
R-HSA-9694389
|
nsp3 is glycosylated
|
BibTex
|
2020-09-09
|
R-HSA-9694625
|
nsp3 cleaves nsp1-4
|
BibTex
|
2020-09-09
|
R-HSA-9694611
|
nsp4 is glycosylated
|
BibTex
|
2020-09-09
|
R-HSA-9694551
|
3CLp cleaves nsp6-11
|
BibTex
|
2020-09-09
|
R-HSA-9694317
|
Nsp3, nsp4, and nsp6 produce replicative organelles
|
BibTex
|
2020-09-09
|
R-HSA-9694630
|
Nsp3:nsp4 binds to nsp6
|
BibTex
|
2020-09-09
|
R-HSA-9694436
|
nsp15 forms a hexamer
|
BibTex
|
2020-09-09
|
R-HSA-9691335
|
nsp7 binds nsp8
|
BibTex
|
2020-09-09
|
R-HSA-9691363
|
nsp12 binds nsp7 and nsp8
|
BibTex
|
2020-09-09
|
R-HSA-9694542
|
nsp14 binds nsp10
|
BibTex
|
2020-09-09
|
R-HSA-9694304
|
nsp14 binds nsp12
|
BibTex
|
2020-09-09
|
R-HSA-9694524
|
nsp13 binds nsp12
|
BibTex
|
2020-09-09
|
R-HSA-9694539
|
nsp15 binds nsp8
|
BibTex
|
2020-09-09
|
R-HSA-9694445
|
nsp16 binds nsp10
|
BibTex
|
2020-09-09
|
R-HSA-9694576
|
nsp3 binds to nsp7-8 and nsp12-16
|
BibTex
|
2020-09-09
|
R-HSA-9694454
|
Replication transcription complex binds SARS-CoV-2 genomic RNA
|
BibTex
|
2020-09-09
|
R-HSA-9694265
|
nsp13 helicase melts secondary structures in SARS-CoV-2 genomic RNA template
|
BibTex
|
2020-09-09
|
R-HSA-9694344
|
Synthesis of SARS-CoV-2 minus strand subgenomic mRNAs by template switching
|
BibTex
|
2020-09-09
|
R-HSA-9694506
|
Synthesis of SARS-CoV-2 plus strand subgenomic mRNAs
|
BibTex
|
2020-09-09
|
R-HSA-9694476
|
nsp14 acts as a cap N7 methyltransferase to modify SARS-CoV-2 mRNAs
|
BibTex
|
2020-09-09
|
R-HSA-9694499
|
nsp16 acts as a cap 2'-O-methyltransferase to modify SARS-CoV-2 mRNAs
|
BibTex
|
2020-05-27
|
R-HSA-9683429
|
nsp16 binds nsp10
|
BibTex
|
2020-05-27
|
R-HSA-9682626
|
nsp13 binds nsp12
|
BibTex
|
2020-05-27
|
R-HSA-9687435
|
Enhanced autophagosome formation
|
BibTex
|
2020-05-27
|
R-HSA-9687109
|
8b binds MAP1LC3B
|
BibTex
|
2020-05-27
|
R-HSA-9681596
|
3CLp dimer binds ?-Ketoamides
|
BibTex
|
2020-05-27
|
R-HSA-9684282
|
nsp9 forms a homodimer
|
BibTex
|
2020-05-27
|
R-HSA-9684309
|
3CLp cleaves nsp6-11
|
BibTex
|
2020-05-27
|
R-HSA-9687121
|
nsp8 binds MAP1LC3B
|
BibTex
|
2020-05-27
|
R-HSA-9685906
|
Polyadenylation of SARS-CoV-1 subgenomic mRNAs (plus strand)
|
BibTex
|
2020-05-27
|
R-HSA-9684033
|
nsp16 acts as a cap 2'-O-methyltransferase to modify SARS-CoV-1 mRNAs
|
BibTex
|
2020-05-27
|
R-HSA-9684016
|
nsp14 acts as a cap N7 methyltransferase to modify SARS-CoV-1 mRNAs
|
BibTex
|
2020-05-27
|
R-HSA-9685681
|
Synthesis of SARS-CoV-1 plus strand subgenomic mRNAs
|
BibTex
|
2020-05-27
|
R-HSA-9680262
|
SARS coronavirus gRNA:RTC:RNA primer binds RTC inhibitors
|
BibTex
|
2020-05-27
|
R-HSA-9682631
|
nsp13 binds DDX5
|
BibTex
|
2020-05-27
|
R-HSA-9687388
|
SARS-CoV-1 gRNA:RTC:nascent RNA minus strand binds RTC inhibitors
|
BibTex
|
2020-05-27
|
R-HSA-9683455
|
nsp16 binds VHL
|
BibTex
|
2020-05-27
|
R-HSA-9682712
|
nsp15 binds RB1
|
BibTex
|
2020-05-27
|
R-HSA-9687384
|
SARS-CoV-1 gRNA complement (minus strand):RTC binds RTC inhibitors
|
BibTex
|
2020-05-27
|
R-HSA-9682009
|
ZCRB1 binds 5'UTR of SARS-CoV-1 genomic RNA
|
BibTex
|
2020-05-27
|
R-HSA-9683656
|
mRNA4 is translated to protein E
|
BibTex
|
2020-05-27
|
R-HSA-9685639
|
Synthesis of SARS-CoV-1 minus strand subgenomic mRNAs by template switching
|
BibTex
|
2020-05-27
|
R-HSA-9686005
|
nsp3 binds to nsp7-8 and nsp12-16
|
BibTex
|
2020-05-27
|
R-HSA-9683393
|
nsp15 binds nsp8
|
BibTex
|
2020-05-27
|
R-HSA-9682718
|
nsp15 forms a hexamer
|
BibTex
|
2020-05-27
|
R-HSA-9682258
|
nsp14 binds nsp12
|
BibTex
|
2020-05-27
|
R-HSA-9680811
|
nsp12 binds nsp7 and nsp8
|
BibTex
|
2020-05-27
|
R-HSA-9680812
|
nsp7 binds nsp8
|
BibTex
|
2020-05-27
|
R-HSA-9682544
|
nsp14 binds nsp10
|
BibTex
|
2020-05-27
|
R-HSA-9683735
|
mRNA9 is translated to Nucleoprotein
|
BibTex
|
2020-05-27
|
R-HSA-9684301
|
mRNA1 is translated to pp1a
|
BibTex
|
2020-05-27
|
R-HSA-9684350
|
pp1a forms a dimer
|
BibTex
|
2020-05-27
|
R-HSA-9683618
|
mRNA3 is translated to protein 3a
|
BibTex
|
2020-05-27
|
R-HSA-9683624
|
mRNA2 is translated to Spike
|
BibTex
|
2020-05-27
|
R-HSA-9683622
|
mRNA5 is translated to protein M
|
BibTex
|
2020-05-27
|
R-HSA-9684218
|
M protein oligomerization
|
BibTex
|
2020-05-27
|
R-HSA-9681674
|
nsp12 synthesizes minus strand SARS-CoV-1 genomic RNA complement
|
BibTex
|
2020-05-27
|
R-HSA-9682563
|
nsp12 misincorporates a nucleotide in nascent RNA minus strand
|
BibTex
|
2020-05-27
|
R-HSA-9682603
|
nsp14 acts as a 3'-to-5' exonuclease to remove misincorporated nucleotides from nascent RNA
|
BibTex
|
2020-05-27
|
R-HSA-9682465
|
RTC completes synthesis of the minus strand genomic RNA complement
|
BibTex
|
2020-05-27
|
R-HSA-9684018
|
nsp14 acts as a cap N7 methyltransferase to modify SARS-CoV-1 gRNA complement (minus strand)
|
BibTex
|
2020-05-27
|
R-HSA-9684030
|
nsp16 acts as a cap 2'-O-methyltransferase to modify SARS-CoV-1 gRNA complement (minus strand)
|
BibTex
|
2020-05-27
|
R-HSA-9685597
|
RTC binds SARS-CoV-1 genomic RNA complement (minus strand)
|
BibTex
|
2020-05-27
|
R-HSA-9681840
|
RTC synthesizes SARS-CoV-1 plus strand genomic RNA
|
BibTex
|
2020-05-27
|
R-HSA-9684017
|
nsp14 acts as a cap N7 methyltransferase to modify SARS-CoV-1 gRNA (plus strand)
|
BibTex
|
2020-05-27
|
R-HSA-9684032
|
nsp16 acts as a cap 2'-O-methyltransferase to modify SARS-CoV-1 gRNA (plus strand)
|
BibTex
|
2020-05-27
|
R-HSA-9685519
|
Polyadenylation of SARS-CoV-1 genomic RNA (plus strand)
|
BibTex
|
2020-05-27
|
R-HSA-9684229
|
SUMO-p-N protein dimer binds genomic RNA
|
BibTex
|
2020-05-27
|
R-HSA-9684234
|
Encapsidation of SARS coronavirus genomic RNA
|
BibTex
|
2020-05-27
|
R-HSA-9684238
|
E and N are recruited to the M lattice
|
BibTex
|
2020-05-27
|
R-HSA-9684241
|
Recruitment of Spike trimer to assembling virion
|
BibTex
|
2020-05-27
|
R-HSA-9686174
|
Accessory proteins are recruited to the maturing virion
|
BibTex
|
2020-05-27
|
R-HSA-9685531
|
SARS virus buds into ERGIC lumen
|
BibTex
|
2020-05-27
|
R-HSA-9685542
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Viral release
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BibTex
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2020-05-27
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R-HSA-9678128
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Spike glycoprotein of SARS coronavirus binds ACE2 on host cell
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BibTex
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2020-05-27
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R-HSA-9686711
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Endocytois of SARS-CoV-1 Virion
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BibTex
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2020-05-27
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R-HSA-9686710
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Cleavage of S protein into S1:S2
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BibTex
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2020-05-27
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R-HSA-9686731
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TMPRSS2 Mediated SARS-CoV-1 Spike Protein Cleavage and Endocytosis
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BibTex
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2020-05-27
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R-HSA-9686699
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Fusion and Release of SARS-CoV-1 Nucleocapsid
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BibTex
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2020-05-27
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R-HSA-9686709
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Uncoating of SARS-CoV-1 Genome
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BibTex
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2020-05-27
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R-HSA-9681314
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Replication transcription complex binds SARS-CoV-1 genomic RNA
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BibTex
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2020-05-27
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R-HSA-9682695
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nsp13 helicase melts secondary structures in SARS-CoV-1 genomic RNA template
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BibTex
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2020-05-27
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R-HSA-9681651
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nsp8 generates RNA primers
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BibTex
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2020-05-27
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R-HSA-9684277
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mRNA1 is translated to pp1ab
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BibTex
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2020-05-27
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R-HSA-9684351
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pp1a cleaves itself
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BibTex
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2020-05-27
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R-HSA-9684323
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3CLp forms a homodimer
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BibTex
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2020-05-27
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R-HSA-9684273
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3CLp cleaves pp1a
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BibTex
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2020-05-27
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R-HSA-9684340
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3CLp cleaves pp1ab
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BibTex
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2020-05-27
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R-HSA-9684336
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nsp1-4 cleaves itself
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BibTex
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2020-05-27
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R-HSA-9684275
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nsp3-4 is glycosylated
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BibTex
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2020-05-27
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R-HSA-9684352
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nsp3-4 cleaves itself
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BibTex
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2020-05-27
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R-HSA-9684290
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nsp3 is glycosylated
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BibTex
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2020-05-27
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R-HSA-9684321
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nsp3 cleaves nsp1-4
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BibTex
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2020-05-27
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R-HSA-9684261
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nsp4 is glycosylated
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BibTex
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2020-05-27
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R-HSA-9686015
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Nsp3, nsp4, and nsp6 produce replicative organelles
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BibTex
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2020-05-27
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R-HSA-9686013
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Nsp3:nsp4 binds to nsp6
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BibTex
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