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Proteins for Coronavirus Research

Illustration of the SARS-CoV-2 Spike protein binding to ACE-2

Coronavirus Proteins

Spike Protein Variants     Custom Libraries     Fluorokines™ Spike Proteins

Omicron Spike Proteins – Now Available!

The omicron variant has become the dominant SARS-CoV-2 strain worldwide. R&D Systems is proud to offer bioactive, stable, and consistent omicron variant Spike proteins to help speed discovery and therapeutic development.

 

Fluorokines™ for COVID-19 Research

Check out our new Fluorokines fluorescent-labeled Spike proteins featuring Alexa Fluor Dyes. Easily detect ACE-2 expression on cells without the need for a secondary detection step. Explore Our FluorokinesTM Fluorescent-labeled Recombinant Proteins.

R&D Systems offers a range of SARS-CoV-2 proteins and other Coronavirus proteins with the same industry-leading quality specifications as our other recombinant proteins. Our SARS-CoV-2 Spike proteins exhibit high affinity binding to human ACE-2 in both ELISA and SPR. And the Coronavirus proteases, Papain-like Protease and 3CL protease, are tested for bioactivity using biologically relevant fluorescent substrates. For more detailed information about our recombinant Coronavirus proteins, visit the product pages listed below.

Fluorokines for Covid

View frequently asked questions about our coronavirus proteins.

Spike Protein

Icon Diagram of Ectodomain S1+S2

Spike Protein Ectodomain S1+S2

Icon Diagram of RBD

Spike Protein RBD

Icon Diagram of S1

Spike Protein S1 Subunit 

Icon Diagram of S2

Spike Protein S2 Subunit

Icon Diagram of Spike Variant

Spike Protein Variants

Icon Diagram of Spike Protein Data

Spike Protein Data

Spike Protein Ectodomain S1+S2

  
Protein Coronavirus Type Source Tag Catalog # Bioactivity
Spike Protein SARS-CoV-2 HEK293 His 10549-CV Binds ACE-2 (Catalog # 933-ZN)
SARS-CoV-2 CHO His 10586-CV
SARS-CoV HEK293 His 10683-CV
Bat CoV CHO His 10660-CV
Spike Protein Full Length 16-1273 SARS-CoV-2 HEK293   11058-CV Binds ACE-2 (Catalog # 933-ZN)
Spike Protein Biotinylated SARS-CoV-2 HEK293 His, Biotin BT10549 Binds ACE-2 (Catalog # 10544-ZN)
CHO His, Avi-tag AVI10586
HEK293 GCN4-IZ, His, Avi-tag AVI10561
Spike Protein + GCN4-IZ SARS-CoV-2 WT HEK293 GCN4-IZ, His 11110-CV Binds Neuropilin-1 (Catalog # 10455-N1)
SARS-CoV-2  R682S, R685S, K986P, V987P HEK293 GCN4-IZ, His 10561-CV Binds ACE-2 (Catalog # 933-ZN)
SARS-CoV-2  R682S, R685S, K986P, V987P CHO GCN4-IZ, His 10638-CV
SARS-CoV HEK293 GCN4-IZ, His 10684-CV
SARS-CoV CHO GCN4-IZ, His 10581-CV
MERS-CoV HEK293 GCN4-IZ, His 10739-CV Binds DPPIV/CD26 (Catalog # 9168-SE)
Bat CoV HEK293 GCN4-IZ, His 10688-CV Binds ACE-2 (Catalog # 10544-ZN)
Alexa Fluor® Spike Protein + GCN4-IZ SARS-CoV-2 HEK293 GCN4-IZ, His, Alexa Fluor® 488 AFG10561 Binds ACE-2 in flow cytometry
GCN4-IZ, His, Alexa Fluor® 647 AFR10561

Spike Protein RBD

  
Protein Coronavirus Type Source Tag Catalog # Bioactivity
Spike Protein RBD  SARS-CoV-2 HEK293 Fc 10499-CV Binds ACE-2 (Catalog # 933-ZN)
SARS-CoV-2 CHO Fc 10542-CV
SARS-CoV-2 Sf21 Fc 10565-CV
SARS-CoV-2 HEK293 mFc 10657-CV
SARS-CoV-2 HEK293 His 10500-CV
SARS-CoV-2 CHO His 10534-CV
SARS-CoV-2 Tn5 His 10523-CV
SARS-CoV-2 HEK293 Flag 10689-CV
SARS-CoV CHO His 10558-CV
SARS-CoV CHO Fc 10559-CV
SARS-CoV HEK293 His 10583-CV
SARS-CoV HEK293 Fc 10582-CV
MERS-CoV HEK293 His 10636-CV Binds human DPPIV/CD26 (Catalog # 9168-CV)
MERS-CoV CHO His 10621-CV
HCoV-NL63 HEK293 His 10605-CV Binds human ACE-2 (Catalog # 10544-ZN)
HCoV-HKU1 HEK293 His 10600-CV  
HCoV-229E HEK293 His 10612-CV
Binds Aminopeptidase N (Catalog # 3815-ZN)
Bat CoV CHO Fc 10556-CV Binds mouse ACE-2 (Catalog # 3437-ZN)
Bat CoV CHO His 10593-CV Binds human ACE-2 (Catalog # 10544-ZN)
Spike Protein RBD (GCN4-IZ trimer) SARS-CoV-2 HEK293 His 10637-CV Binds ACE-2 (Catalog # 933-ZN)
SARS-CoV-2 CHO His 10659-CV
Spike Protein RBD, Biotinylated SARS-CoV-2 HEK293 His BT10500 Binds ACE-2 (Catalog # 10544-ZN)
SARS-CoV-2 HEK293 Avi-tag, Fc AVI10499
Alexa Fluor® Spike Protein RBD SARS-CoV-2 HEK293 Alexa 488, His AFG10500 Binds ACE-2 in flow cytometry
Alexa 647, His AFR10500

Spike Protein S1 Subunit

  
Protein Coronavirus Type Source Tag Catalog # Bioactivity
Spike S1 Protein SARS-CoV-2 HEK293 His 10569-CV Binds ACE-2 (Catalog # 933-ZN)
SARS-CoV-2 CHO His 10693-CV
SARS-CoV-2 Sf21 His 10522-CV
SARS-CoV-2 Tn5 Fc 10622-CV
SARS-CoV-2 CHO Fc 10623-CV
SARS-CoV HEK293 His 10783-CV
SARS-CoV CHO His 10745-CV
SARS-CoV Sf21 His 10570-CV
SARS-CoV HEK293 Fc 10685-CV
SARS-CoV CHO Fc 10782-CV
MERS-CoV HEK293 His, GCN4 10737-CV Binds human DPPIV/CD26 (Catalog # 9168-CV)
MERS-CoV CHO Fc 10606-CV
Bat CoV CHO His 10662-CV Binds ACE-2 (Catalog # 10544-ZN)
Bat CoV HEK293 His, GCN4 10661-CV
Spike S1 Protein biotinylated SARS-CoV-2 HEK293 His BT10569 Binds ACE-2 (Catalog # 10544-ZN)
SARS-CoV-2 CHO His, Avi-tag AVI10693
Spike Protein S1 NTD SARS-CoV-2 HEK293 His 11112-CV  
Spike S1 + HR1/HR2 Fusion SARS-CoV-2 CHO His 10687-CV Binds ACE-2 (Catalog # 933-ZN)

Spike Protein S2 Subunit

  
Protein Coronavirus Type Source Tag Catalog # Bioactivity
SARS-CoV-2 Spike S2 Subunit SARS-CoV-2 HEK293 His 10594-CV  
SARS-CoV-2 Tn5 His 10584-CV   
SARS-CoV-2 HEK293 His 10639-CV  
SARS-CoV-2 Spike S2 Subunit (GCN4-IZ) SARS-CoV-2 HEK293 His 10590-CV  
SARS-CoV-2 HEK293 His 10640-CV  

SARS-CoV-2 Spike Protein Variants

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Omicron Variant B.1.1.529

  
Spike Protein Description Tag Catalog #
Spike Protein Omicron variant B.1.1.529 His 11060-CV
GCN4-IZ, His 11061-CV
His, Avi-tag AVI11060
GCN4-IZ, His, Avi-tag AVI11061
His, Biotinylated BT11060
GCN4-IZ, His, Biotinylated BT11061
His, Alexa Fluor® 488 AFG11060
His, Alexa Fluor® 647 AFR11060
GCN4-IZ, His, Alexa Fluor® 488 AFG11061
GCN4-IZ, His, Alexa Fluor® 647 AFR11061
Omicron variant BA.2 GCN4-IZ, His 11109-CV
GCN4-IZ, His, Avi-tag AVI11109
GCN4-IZ, His, Biotinylated BT11109
GCN4-IZ, His, Alexa Fluor® 488 AFG11109
GCN4-IZ, His, Alexa Fluor® 647 AFR11109
Omicron variant BA.2.12.1 GCN4-IZ, His 11287-CV
Omicron variant BA.2.75 GCN4-IZ, His 11260-CV
Omicron variant BA.2.86 GCN4-IZ, His 11478-CV
Omicron variant BA.4/BA.5 His 11232-CV
GCN4-IZ, His 11231-CV
GCN4-IZ, His, Alexa Fluor® 488 AFG11231
GCN4-IZ, His, Alexa Fluor® 647 AFR11231
Omicron variant BA.4.6 GCN4-IZ, His 11286-CV
Omicron variant BQ.1.1 GCN4-IZ, His 11359-CV
Omicron variant EG.5.1 GCN4-IZ, His 11451-CV
Omicron variant XBB.1 GCN4-IZ, His 11371-CV
Omicron variant XBB.1.5 GCN4-IZ, His 11372-CV
Omicron variant XD GCN4-IZ, His 11321-CV
Spike Protein RBD Omicron variant B.1.1.529 His 11056-CV
Fc 11057-CV
His, Avi-tag AVI11056
His, Biotinylated BT11056
His, Alexa Fluor® 488 AFG11056
His, Alexa Fluor® 647 AFR11056
Omicron variant BA.1.1 His 11131-CV
Omicron variant BA.2 His 11094-CV
His, Avi-tag AVI11094
His, Biotinylated BT11094
Fc 11148-CV
His, Alexa Fluor® 488 AFG11094
His, Alexa Fluor® 647 AFR11094
Omicron variant BA.2.75 His 11259-CV
Omicron variant BA.2.86 His 11440-CV
Omicron variant BA.4/BA.5 His 11229-CV
His, Alexa Fluor® 488 AFG11229
His, Alexa Fluor® 647 AFR11229
Omicron variant BA.4.6 His 11283-CV
Omicron variant BQ.1.1 His 11322-CV
Omicron variant EG.5.1 His 11442-CV
Omicron variant XBB.1 His 11330-CV
Omicron variant XBB.1.5 His 11360-CV
Spike Protein S1 Omicron variant B.1.1.529 His 11070-CV
GCN4-IZ, His Preorder
Omicron variant BA.2 His 11149-CV
Omicron variant BA.4/BA.5 His 11184-CV
XD variant: Omicron/Delta hybrid His 11219-CV
Spike Protein S1 NTD Omicron variant B.1.1.529 His 11104-CV
Omicron variant BA.2 His 11147-CV
Omicron variant BA.4/BA.5 His 11183-CV
XD variant: Omicron/Delta hybrid His 11208-CV
Spike Protein S2 Omicron variant B.1.1.529 His Preorder
SARS-CoV-2 Nucleocapsid Protein Omicron variant B.1.1.529 His 11099-CV
Omicron variant BA.2 His 11182-CV

IHU Variant B.1.640.2

  
Spike Protein Description Source Tag Catalog #
Spike Protein IHU variant B.1.640.2 HEK293 GCN4-IZ, His 11105-CV
Spike Protein RBD IHU variant R346S, N394S, Y449N, E484K, F490S, N501Y HEK293 His 11097-CV
 

Delta Variant B.1.617.2 (India)

  
Spike Protein Description Source Tag Catalog #
Spike Protein Delta variant B.1.617.2
T19R, G142D, E156G, F157del, R158del, L452R, T478K, D614G, P681R, D950N 		 HEK293 His 10942-CV
Spike Protein Delta variant B.1.617.2
T19R, G142D, E156G, F157del, R158del, L452R, T478K, D614G, P681R, D950N 		 HEK293 GCN4-IZ, His 10878-CV
Spike Protein Delta variant B.1.617.2
T19R, G142D, Y144del, E156G, F157del, R158del, A222V, L452R, T478K, D614G, P681R, D950N 		 HEK293 GCN4-IZ, His 10924-CV
Spike Protein Biotinylated Delta variant B.1.617.2
T19R, G142D, E156G, F157del, R158del, L452R, T478K, D614G, P681R, D950N 		 HEK293 GCN4-IZ, His, Avi-tag AVI10878
Alexa Fluor® Spike Protein Delta variant B.1.617.2
T19R, G142D, E156G, F157del, R158del, L452R, T478K, D614G, P681R, D950N		 HEK293 Alexa Fluor® 488, GCN4-IZ, His AFG10878
Alexa Fluor® 647, GCN4-IZ, His AFR10878
Spike Protein Delta Plus AY.1
T19R, T95I, G142D, E156G, F157del, R158del, W258L, K417N, L452R, T478K, D614G, P681R, D950N		 HEK293 GCN4-IZ, His 10922-CV
Spike Protein Delta Plus AY.2
T19R, V70F, G142D, E156G, F157del, R158del, R222V, K417N, L452R, T478K, D614G, P681R, D950N		 HEK293 GCN4-IZ, His 10923-CV
Spike RBD Delta variant B.1.617.2
L452R, T478K 		 HEK293 His 10876-CV
Alexa Fluor® 488, His AFG10876
Alexa Fluor® 647, His AFR10876
Fc 10901-CV
His, Avi-tag AVI10876
Spike RBD Delta variant B.1.617.2
G446V, L452R, T478K 		 HEK293 His 10982-CV
His, Avi-tag AVI10982
Spike RBD Delta Plus AY.1/AY.2
K417N, L452R, T478K		 HEK293 His 10905-CV
Fc 10908-CV
Spike RBD G446V, L452R, T478K HEK293 Fc 10983-CV
Spike RBD T478K HEK293 His 10875-CV
Spike Protein S1 Delta variant B.1.617.2
T19R, G142D, E156G, F157del, R158del, L452R, T478K, D614G, P681R                                              		 HEK293 His 11132-CV
Spike Protein S1 NTD Delta variant B.1.617.2
T19R, G142D, E156G, F157del, R158del		 HEK293 His 11114-CV

Alpha Variant B.1.1.7 (UK)

  
Spike Protein Description Source Tag Catalog #
Spike Protein  Alpha variant B.1.1.7 H69del, V70del, Y145del, N501Y, A570D, D614G, P681H, T716I, S982A, D1118H HEK293 His GCN4-IZ, His 10748-CV
10796-CV
Spike Protein Biotinylated Alpha variant B.1.1.7 H69del, V70del, Y145del, N501Y, A570D, D614G, P681H, T716I, S982A, D1118H HEK293 GCN4-IZ, His, Biotin BT10796
GCN4-IZ, His, Avi-tag AVI10796
Alexa Fluor® Spike Protein Alpha variant B.1.1.7  HEK293 Alexa 488, GCN4-IZ, His AFG10796
H69del, V70del, Y145del, N501Y, A570D, D614G, P681H, T716I, S982A, D1118H Alexa 647, GCN4-IZ, His AFR10796
Spike Protein Alpha variant B.1.1.7 + E484K HEK293 GCN4-IZ, His 10824-CV
Spike Protein Alpha variant B.1.1.7 + S494P HEK293 GCN4-IZ, His 10854-CV
Spike RBD N501Y (Alpha, Beta, Gamma) HEK293 His 10730-CV
His, Biotin BT10730
E484K, N501Y HEK293 His 10788-CV
Spike RBD Biotinylated N501Y (Alpha, Beta, Gamma) HEK293 His, Avi-tag AVI10730
Spike Protein S1 Alpha variant B.1.1.7
H69del, V70del, Y145del, N501Y, A570D, D614G, P681H		 HEK293 His 11137-CV
Spike Protein S1 NTD Alpha variant B.1.1.7 H69del, V70del, Y145del HEK293 His 11115-CV

Beta Variant B.1.351 (South Africa)

  
Spike Protein Description Source Tag Catalog #
Spike Protein
Beta variant B.1.351
D80A, D215G, L242del, A243del, L244del, K417N, E484K, N501Y, D614G, A701V		 HEK293 His 10777-CV
HEK293 GCN4-IZ, His 10786-CV
Alexa Fluor® Spike Protein
Beta variant B.1.351
D80A, D215G, L242del, A243del, L244del, K417N, E484K, N501Y, D614G, A701V		 HEK293 Alexa 488, GCN4-IZ, His AFG10786
Alexa 647, GCN4-IZ, His AFR10786
Spike Protein Beta variant B.1.351 + L18F
D80A, D215G, L242del, A243del, L244del, K417N, E484K, N501Y, D614G, A701V		 HEK293 GCN4-IZ, His 10785-CV
Spike Protein Biotinylated
Beta variant B.1.351 + L18F
D80A, D215G, L242del, A243del, L244del, K417N, E484K, N501Y, D614G, A701V		 HEK293 GCN4-IZ, His, Avi-tag AVI10785
Spike RBD Beta variant B.1.351
K417N, E484K, N501Y		 HEK293 His 10735-CV
HEK293 Fc 10935-CV
N501Y (Alpha, Beta, Gamma) HEK293 His 10730-CV
HEK293 Fc 10717-CV
E484K, N501Y HEK293 His 10788-CV
E484K HEK293 His 10747-CV
Spike RBD Biotinylated
Beta variant B.1.351
K417N, E484K, N501Y		 HEK293 His, Avi-tag
AVI10735
Spike Protein S1 Beta variant B.1.351                                                               L18F, D80A, D215G, L242del, A243del, L244del, K417N, E484K, N501Y, D614G HEK293 His 11133-CV
Spike Protein S1 NTD Beta variant B.1.351                                                               L18F, D80A, D215G, L242del, A243del, L244del HEK293 His 11113-CV

Gamma Variant P.1 (Brazil)

  
Spike Protein Description Source Tag Catalog #
Spike Protein Gamma Variant P.1
L18F, T20N, P26S, D138Y, R190S, K417T, E484K, N501Y, D614G, H655Y, T1027I, V1176F		 HEK293 GCN4-IZ, His 10795-CV
Spike Protein Biotinylated Gamma Variant P.1
L18F, T20N, P26S, D138Y, R190S, K417T, E484K, N501Y, D614G, H655Y, T1027I, V1176F		 HEK293 GCN4-IZ, His, Avi-tag AVI10795
Alexa Fluor® Spike Protein Gamma Variant P.1
L18F, T20N, P26S, D138Y, R190S, K417T, E484K, N501Y, D614G, H655Y, T1027I, V1176F		 HEK293 Alexa Fluor® 488, GCN4-IZ, His AFG10795
Alexa Fluor® 647, GCN4-IZ, His AFR10795
Spike RBD Gamma Variant P.1
K417T, E484K, N501Y		 HEK293 His 10775-CV
Fc 10914-CV
N501Y (Alpha, Beta, Gamma) HEK293 His 10730-CV
HEK293 Fc 10717-CV
E484K, N501Y HEK293 His 10788-CV
E484K HEK293 His 10747-CV
Spike Protein S1 Gamma Variant P.1
L18F, T20N, P26S, D138Y, R190S, K417T, E484K, N501Y, D614G, H655Y		 HEK293 His 11138-CV
Spike Protein S1 NTD Gamma variant P.1                                               L18F, T20N, P26S, D138Y, R190S HEK293 His 11111-CV

Kappa Variant B.1.617.1 (India)

  
Spike Protein Description Source Tag Catalog #
Spike Protein
Kappa variant B.1.617.1
G142D, E154K, L452R, E484Q, D614G, P681R, Q1071H 		 HEK293 His 10978-CV
Spike Protein Kappa variant B.1.617.1
G142D, E154K, L452R, E484Q, D614G, P681R, Q1071H 		 HEK293 GCN4-IZ, His 10861-CV
Alexa Fluor® Spike Protein Kappa variant B.1.617.1
G142D, E154K, L452R, E484Q, D614G, P681R, Q1071H 		 HEK293 Alexa 488, GCN4-IZ, His AFG10861
Alexa 647, GCN4-IZ, His AFR10861
Spike RBD Kappa variant B.1.617.1
L452R, E484Q		 HEK293 His 10846-CV
Fc 10906-CV
Spike RBD Biotinylated
Kappa variant B.1.617.1
L452R, E484Q		 HEK293 His, Avi-tag AVI10846

Other Notable Spike Protein Mutants

  
Spike Protein Description Source Tag Catalog #
Spike Protein D614G HEK293 GCN4-IZ, His 10853-CV
HEK293 His 10587-CV
CHO His 10620-CV
Spike Protein 20C-US variant
D614G, Q677H		 HEK293 His 10769-CV
Spike Protein A.27
L18F, L452R, N501Y, A653V, H655Y, D796Y		 HEK293 GCN4-IZ, His 10845-CV
Spike Protein A.23.1
R102I, F157L, V367F, E484K, Q613H, P681R		 HEK293 GCN4-IZ, His 10860-CV
Spike Protein AV.1
D80G, T95I, G142D, Y144del, N439K, E484K, D614G, P681H, I1130V, D1139H		 HEK293 GCN4-IZ, His 10896-CV
Spike Protein AY.4.2
T19R, T95I, G142D, Y145H, E156G, F157del, R158del, A222V, L452R, T478K, D614G, P681R, D950N		 HEK293 GCN4-IZ, His 11065-CV
Spike Protein B.1.1.318
T95I, Y144del, E484K, D614G, P681H, D796H		 HEK293 GCN4-IZ, His 10856-CV
Spike Protein B.1.1.519
T478K, D614G, P681H, T732A		 HEK293 GCN4-IZ, His 10883-CV
Spike Protein Eta Variant B.1.525
Q52R, A67V, H69del, V70del, Y145del, E484K, D614G, Q677H, F888L		 HEK293 GCN4-IZ, His 10794-CV
Spike Protein Iota Variant B.1.526
D253G, E484K, D614G, A701V		 HEK293 GCN4-IZ, His 10848-CV
Spike Protein B.1.526.1
D80G, Y144del, F157S, L452R, D614G, T791I, T859N, D950H		 HEK293 GCN4-IZ, His 10895-CV
Spike Protein B.1.526.2
D253G, S477N, D614G, Q957R		 HEK293 GCN4-IZ, His 10874-CV
Spike Protein B.1.616
H66D, G142V, Y144del, D215G, V483A, D614G, H655Y, G669S, Q949R, N1187D		 HEK293 GCN4-IZ, His 10933-CV
Spike Protein B.1.620
P26S, His69del, V70del, V126A, Y144del, K242del, A243del, K244del, H245Y, S477N, E484K, D614G, P681H, T1027I, D1118H		 HEK293 GCN4-IZ, His 10917-CV
Spike Protein B.1.630
C136F, Y144del, A222V, A243del, L244del, L452R, T478R, E484Q, D614G, H655T, D950N		 HEK293 GCN4-IZ, His 11071-CV
Spike Protein B.1.640                                                                  E96Q, C136del-Y144del, R190S, I210T, R346S, N394S, Y449N, F490R, N501Y, D614G, P681H, T859N, D936H  HEK293 GCN4-IZ, His 11076-CV
Spike Protein C.1.2
P25L, C136F, Y144del, R190S, D215G, A243del, L244del, Y449H, E484K, N501Y, L585F, D614G, H655Y, D679K, T716I, T859N		 HEK293 GCN4-IZ, His 11007-CV
Spike Protein C.36.3
H69del, V70del, W152R, R346S, L452R, D614G, Q677H, A899S, R682S, R685S, K986P, V987P		 HEK293 GCN4-IZ, His 10886-CV
Spike Protein Lambda Variant C.37
G75V, T76I, RSYLTPG246-252del, D253N, L452Q, F490S, D614G, T859N		 HEK293 GCN4-IZ, His 10887-CV
GCN4-IZ, His, Avi-tag AVI10887
Spike Protein Mu Variant B.1.621
T95I, Y144T, Y145S, ins145N, R346K, E484K, N501Y, D614G, P681H, D950N		 HEK293 GCN4-IZ, His 10899-CV
Spike Protein CAL.20C
W152C, L452R, D614G		 HEK293 GCN4-IZ, His 10849-CV
Spike Protein Mink Cluster-5 variant
H69del, V70del, Y453F, D614G, I692V 		 HEK293 His 10736-CV
Spike Protein P.1.8
L18F, T20N, P26S, D138Y, T470N, E484K, N501Y, D614G, H655Y, P681R, T1027I, V1176F		 HEK293 GCN4-IZ, His 11046-CV
Spike Protein P.2                                                                         E484K, D614G, V1176F HEK293 GCN4-IZ, His 11108-CV
Spike Protein P.3
L141del, G142del, V143del, E484K, N501Y, D614G, P681H, E1092K, H1101Y, V1176F		 HEK293 GCN4-IZ, His 10855-CV
Spike Protein R.1.S
W152L, E484K, D614G, G769V, R682S, R685S, K986P, V987P		 HEK293 GCN4-IZ, His 11026-CV
S1 Subunit A222V HEK293 His 10725-CV
S1 Subunit D614G HEK293 His 10609-CV
CHO His 10618-CV
S1 Subunit 20A.EU1
A222V, D614G		 HEK293 His 10768-CV
S1 Subunit 20A.EU2
S477N, D614G		 HEK293 His 10780-CV
S1 Subunit CAL.20C
W152C, L452R, D614G		 HEK293 His 10779-CV
S1 Subunit 20C-US
D614G, Q677H		 HEK293 His 10778-CV
20C-US
D614G, Q677P		 HEK293 His 10822-CV
Spike RBD Mu Variant B.1.621
R346K, E484K, N501Y		 HEK293 His 10897-CV
Mu Variant B.1.621
R346K, K417N, E484K, N501Y		 HEK293 His 10981-CV
C.36.3
R346S, L452R		 HEK293 His 10881-CV
V367F HEK293 His 10626-CV
V367F, E484K HEK293 His 10825-CV
E406W HEK293 His 10793-CV
K417E HEK293 His 10816-CV
Delta Plus AY.1/AY.2
K417N, K452R, T478K		 HEK293 His 10905-CV
P.1.8
K417T, T470N, E484K, N501Y		 HEK293 His 11036-CV
N439K HEK293 His 10714-CV
AV.1
N439K, E484K		 HEK293 His 10882-CV
N440D HEK293 His 10823-CV
K444Q HEK293 His 10814-CV
V445A HEK293 His 10819-CV
B.1.630
L452R, T478R, E484Q		 HEK293 His 11047-CV
Lambda Variant C.37
K462Q, F490S		 HEK293 His 10880-CV
HEK293 His, Avi-tag AVI10880
G446I HEK293 His 10810-CV
G446V HEK293 His 10809-CV
C.1.2
Y449H, E484K, N501Y		 HEK293 His 10997-CV
L452R HEK293 His 10787-CV
Y453F HEK293 His 10744-CV
Fc 10792-CV
L455F ­HEK293 His 10817-CV
A475V HEK293 His 10813-CV
G476S HEK293 His 10627-CV
S477N HEK293 His 10713-CV
B.1.620
S477N, E484K		 HEK293 His 10907-CV
T478K HEK293 His 10875-CV
B.1.640                                                                   346S, N394S, Y449N, F490R, N501Y HEK293 His 11077-CV
B.1.324.1
E484K, S494P, N501Y		 HEK293 His 10830-CV
F486I HEK293 His 10790-CV
F486V HEK293 His 10812-CV
Y489H HEK293 His 10811-CV
F490S HEK293 His 10815-CV
Q493K HEK293 His 10791-CV
S494P HEK293 His 10789-CV
V483A HEK293 His 10628-CV

R&D Systems Spike Proteins Beat the Competition!

Our Spike Proteins exhibit higher binding activity to ACE-2 with better purity

SARS-CoV-2 Spike Protein

ELISA – Binding Activity

Comparison of R&D Systems and a top competitor’s SARS-CoV-2 Spike proteins binding to ACE-2

R&D Systems Recombinant SARS-CoV-2 Spike (10549-CV) binds Recombinant Human ACE-2 (933-ZN) in a functional ELISA. The binding activity is approximately 4-fold greater than a top competitor’s Spike protein (full ectodomain).

SDS-PAGE

SDS-PAGE analysis of R&D Systems and a competitor’s SARS-CoV-2 Spike proteins under reducing and non-reducing conditions

SDS-PAGE of 1 µg of R&D Systems Recombinant SARS-CoV-2 Spike (10549-CV) or a competitor’s Spike protein were run under reducing or non-reducing conditions and visualized by silver staining. The R&D Systems Spike protein runs as a single band compared to the competition.

SARS-CoV-2 Spike RBD Protein

ELISA – Binding Activity

Comparison of R&D Systems and a top competitor’s SARS-CoV-2 Spike RBD proteins binding to ACE-2

R&D Systems Recombinant SARS-CoV-2 Spike RBD (10500-CV) binds Recombinant Human ACE-2 (10544-ZN) in a functional ELISA. The binding activity is approximately 3-fold greater than a top competitor’s Spike RBD protein.

SDS-PAGE

SDS-PAGE of R&D Systems and a top competitor’s SARS-CoV-2 Spike RBD proteins under reducing and non-reducing conditions

SDS-PAGE of 1 µg of R&D Systems Recombinant SARS-CoV-2 Spike RBD (10500-CV) or a competitor’s Spike RBD protein were run under reducing or non-reducing conditions and visualized by silver staining. The R&D Systems Spike protein runs as a sharper, more definitive band than the competitor’s Spike RBD protein.

Nucleocapsid, NSP, and M Proteins

Protein Source Tag Catalog # Bioactivity
SARS-CoV-2 Nucleocapsid Protein Sf21 His 10474-CV Bioactivity not tested, >95% pure by SDS-PAGE
Biotin, His BT10474
SARS-CoV-2 Nucleocapsid Protein (T205I) Sf21 His 11033-CV Bioactivity not tested, >95% pure by SDS-PAGE
SARS-CoV-2 Nucleocapsid Protein (R203K, G204R) Sf21 His 10898-CV Bioactivity not tested, >90% pure by SDS-PAGE
SARS-CoV-2 B.1.1.529 Nucleocapsid Protein Sf21 His 11099-CV Bioactivity not tested, >85% pure by SDS-PAGE
SARS-CoV-2 BA.2 Nucleocapsid Protein Sf21 His 11182-CV Bioactivity not tested, >95% pure by SDS-PAGE
SARS-CoV-2 B.1.1.7 Nucleocapsid Protein Sf21 His 11001-CV Bioactivity not tested, >90% pure by SDS-PAGE
SARS-CoV-2 B.1.2 Nucleocapsid Protein Sf21 His 11000-CV Bioactivity not tested, >95% pure by SDS-PAGE
SARS-CoV-2 B.1.2 (+D399N) Nucleocapsid Protein Sf21 His 11216-CV Bioactivity not tested, >95% pure by SDS-PAGE
SARS-CoV-2 B.1.617.2 Nucleocapsid Protein Sf21 His 10999-CV Bioactivity not tested, >90% pure by SDS-PAGE
SARS-CoV-2 P.1 Nucleocapsid Protein Sf21 His 11002-CV Bioactivity not tested, >90% pure by SDS-PAGE
SARS-CoV-2 P.2 Nucleocapsid Protein Sf21 His 11062-CV Bioactivity not tested, >90% pure by SDS-PAGE
SARS-CoV Nucleocapsid Protein Sf21 His 10710-CV Bioactivity not tested, >85% pure by SDS-PAGE
MERS-CoV Nucleocapsid Protein Sf21 His 10521-CV Bioactivity not tested, >95% pure by SDS-PAGE
HCoV-OC43 Nucleocapsid Protein Sf21 His 10709-CVB Bioactivity not tested, >90% pure by SDS-PAGE
HCoV-229E Nucleocapsid Protein Sf21 His 10708-CV Bioactivity not tested, >90% pure by SDS-PAGE
SARS-CoV-2 NSP1 E. coli His 10666-CV Bioactivity not tested, >95% pure by SDS-PAGE
SARS-CoV-2 NSP7 E. coli His 10632-CV Bioactivity not tested, >95% pure by SDS-PAGE
SARS-CoV-2 NSP8 E. coli His 10633-CV Bioactivity not tested, >90% pure by SDS-PAGE
SARS-CoV-2 NSP9 E. coli His 10631-CV Bioactivity not tested, >95% pure by SDS-PAGE
SARS-CoV-2 NSP10 E. coli His 10630-CV Bioactivity not tested, >95% pure by SDS-PAGE
SARS-CoV-2 NSP12 Sf21 His 10686-CV Bioactivity not tested, >95% pure by SDS-PAGE
SARS-CoV-2 NSP14 E. coli His 10667-CV Bioactivity not tested, >95% pure by SDS-PAGE
SARS-CoV-2 NSP16/10 Complex E. coli His 10634-CV Bioactivity not tested, >95% pure by SDS-PAGE
SARS-CoV-2 ORF-7a CHO Fc 10668-CV Bioactivity not tested, >90% pure by SDS-PAGE
SARS-CoV-2 Membrane (M) Protein CHO Fc 10690-CV Bioactivity not tested, >95% pure by SDS-PAGE

Coronavirus Proteases

Protein Species Source Tag Catalog # Bioactivity
SARS-CoV-2 Papain-like Protease SARS-CoV-2 E. coli GST E-611 Cleaves Human ISG15 (Catalog # UL-553) Cleaves Ubiquitin-Rhodamine 110 (Catalog # U-555)
SARS Virus Papain-like Protease SARS-CoV E. coli No tag E-610
MERS-CoV Papain-like Protease MERS-CoV E. coli No tag E-609
SARS-CoV-2 3CL Protease SARS-CoV-2 E. coli No tag E-720 Cleaves SARS CoV-2 3CL Protease Substrate, Rh110-conjugated (Catalog # S-720)
SARS-CoV 3CL Protease SARS-CoV E. coli No tag E-718
MERS-CoV 3CL Protease MERS-CoV E. coli No tag E-719

Receptor Recognition

Coronavirus binding to a cell surface receptor is a key mechanism of infection and a major focus of therapeutic research. Using proteins that are bioactive and have the correct conformation is critical for binding and drug development studies. Every protein listed below is QC tested for bioactivity and lot-to-lot consistency.

SARS-CoV-2 Spike Protein recognition and binding by the ACE-2 receptor

Protein Species Source Tag Catalog # Bioactivity
ACE-2 Human NS0 His 933-ZN Binds SARS-CoV-2 S Protein RBD (10499-CV)
CHO Fc 10544-ZN
Mouse CHO His 3437-ZN Cleaves the fluorogenic peptide substrate, Mca-YVADAPK(Dnp)-OH (Catalog # ES007)
Rat NS0 His 4516-ZN
Pig HEK293 His 10545-ZN
Dog HEK293 His 10566-ZN
Chicken HEK293 His 10592-ZN
Ferret HEK293 His 10635-ZN
Cyno NS0 His 10619-ZN Binds SARS-CoV-2 S Protein RBD (10499-CV)
Hamster HEK293 His 10578-ZN
Biotinylated ACE-2 Human CHO Avi-tag, His AVI10579 Binds SARS-CoV-2 S Protein RBD (10499-CV)
CHO Avi-tag, Fc AVI10544
NS0 His BT933
CHO Fc BT10544
Alexa Fluor® ACE-2 Human NS0 Alexa Fluor® 488, His AFG933  
NS0 Alexa Fluor® 647, His AFR933  
DPPIV Human NS0 His 9168-SE Cleaves the fluorogenic peptide substrate, Gly-Pro-7-amido-4-methylcoumarin (GP-AMC)
Mouse NS0 His 954-SE
Cyno HEK293 His 9637-SE
Aminopeptidase N/CD13 Human NS0 His 3815-ZN Cleaves the fluorogenic peptide substrate, Ala-7-amido-4-methylcoumarin (Ala-AMC)
Mouse NS0 His 2335-ZN
CEACAM-1 Human NS0 His 2244-CM Inhibits IL-2 secretion by T cells
LY6E Human HEK293 Fc 9970-L6 Inhibits IFN-gamma and IL-2 secretion by T cells
EMMPRIN/CD147 Human NS0 Fc, His 972-EMN Induces active MMP-1 secretion by NHLF human normal lung fibroblasts
Mouse NS0 His 772-EM
Neuropilin-1 Human NS0 His 3870-N1 Binds VEGF 165
Mouse NS0 His 5994-N1
Rat NS0 Fc, His 566-NNS
Rat Sf21 Fc, His 566-N1

Host Cell Proteases

Host cell proteases are involved in coronavirus protein processing and activation. All enzymes listed are bioactive and QC tested to ensure consistency and activity.

Protein Species Source Tag Catalog # Bioactivity
Cathepsin B Human NS0 His 953-CY Cleaves the fluorogenic peptide substrate Z-LR-AMC (Catalog # ES008)
Mouse NS0 His 965-CY
Cathepsin L Human NS0 His 952-CY Cleaves the fluorogenic peptide substrate Z-LR-AMC (Catalog # ES008)
Mouse NS0 His 1515-CY
Furin Human NS0 His 1503-SE Cleaves the fluorogenic peptide substrate pERTKR-AMC (Catalog # ES013)
Mouse CHO His 6450-SE
Elastase/ELA2 Human CHO His 9167-SE Cleaves the fluorogenic peptide substrate, MeOSuc-Ala-Ala-Pro-Val-7-amido-4-methylcoumarin (MeOSuc-AAPV-AMC
Mouse NS0 His 4517-SE
Alexa Fluor is a registered trademark of Molecular Probes, Inc., Eugene, OR.

Find More Tools for Coronavirus Research

Browse our complete collection of products for SARS-CoV-2 research. From antibodies and assay kits to cell culture products and small molecules, we have the tools that you need to advance your SARS-CoV-2 research. 

 

Custom Protein Services

Are you looking for something unique? Contact our Custom Protein Team to see how you can leverage over 30 years of protein development experience to meet your needs.

Bulk Proteins

Contact us and see how much you can save by buying in bulk. Supply agreements available. Contact us to request a quote.

Coronavirus Protein FAQs and Videos

Find out the answers to some of your frequently asked questions about our coronavirus proteins.

Do you have UK, South African, and Brazilian Variant spike protein mutants?

Yes, we offer multiple mutant spike proteins for the SARS-CoV-2 UK, South African, and Brazilian variants as well as many more. There are over 30 spike protein mutants to choose from.

View spike variants

Do you have an active recombinant SARS-CoV-2 Spike protein?

Yes, we offer SARS-CoV-2 active trimer proteins capable of binding to ACE-2. We also have spike subunits spike RBD proteins, and a chimeric spike-Fc fusion protein. Bulk and custom options are also available.

View our spike proteins

 

How may I assess the bioactivity of your proteins?

ELISA or SPR binding assays are currently the best option for bioactivity testing of Spike, S1, RBD, and ACE2. Most researchers will be using these proteins in binding assays, as such we have focused our in-house validation on that application. Low nanomolar binding for most of the Spike, S1, RBD in assays with ACE2 is currently regarded as the gold standard.

What is the difference between the full length ectodomain SARS-CoV-2 Spike (Active Trimer) and SARS-CoV-2 Spike (GCN4-IZ)?

The only difference between the two proteins is presence or lack of the GCN4-IZ domain. The full ectodomain in both proteins is the same sequence (Val16-Lys1211), however both Active Trimer and GCN4-IZ Spike proteins contain the endogenous HR1/HR2 trimerization domains. The SARS-CoV-2 Spike (GCN4-IZ) also includes an ectopic GCN4-IZ (Isoleucine Zipper) trimerization domain in addition to the natural HR1/HR2 trimerization motifs  We made versions of Spike protein both with and without this additional GCN4-IZ motif in case the endogenous HR1/HR2 domains were not sufficient to form trimers when these spike proteins were made as recombinant proteins.

The SARS-CoV-2 Active Trimer products made in CHO and HEK293 cells are true trimers when analyzed by Size Exclusion Chromatography (SEC) analysis, demonstrating that the natural HR1/HR2 motifs are sufficient to form Spike trimers.  Addition of the GCN4-IZ domain results in trimeric species and some slightly more oligomerized species in SEC analysis resulting in a more active trimer protein when used as a ligand with ACE2 proteins in ELISAs. 

Why are there mutations in the full-length spike ectodomain proteins?

In the SARS-CoV-2 Spike Protein, the two mutations K986P and V987P are the corresponding mutations to K968P and V969P in the SARS-CoV Spike Protein, which promote the prefusion conformation (Kirchdoerfer et al. 2018). Two additional mutations in the SARS-CoV-2 Spike Protein R682S and R685S eliminate a furin protease cleavage site, making the Spike Protein resistant to furin cleavage.

Do you have an ACE-2 recombinant protein?

Yes, we have several ACE-2 proteins from different species including human, mouse, rat, hamster, and pig. These have been raised in HEK293, CHO, or NS0 host expression systems. We also have biotinylated versions of human ACE-2.

 

What is the difference in ACE-2 binding affinity of the glycosylated Spike protein and non-glycosylated Spike protein?

Glycosylation of the SAS-CoV-2 Spike RBD protein does not appear to affect its binding affinity to ACE-2. However, it is an important consideration when using these spike proteins as antigen to generate relevant blocking antibodies. In addition, researchers may want to consider glycosylation if using the spike proteins in serological diagnostic assays such as antigen-down ELISAs or lateral flow tests.

Which of the COVID-19 related proteases do you supply?

We have SARS and SARS-CoV-2 virus Papain-like Protease, and the 3CL protease. We also have the related MERS-COV Papain like protease, and its respective 3CL protease.

View Coronavirus Proteases

Read Article: Key Protease Targets for COVID-19

What is the difference between SARS CoV-2 proteins made in different source cells such as HEK293 and CHO?

SARS CoV-2 proteins can be highly glycosylated. When made in eukaryotic cell types such as CHO, HEK293, Sf21, or Tn5, this glycosylation pattern can differ depending on the cell type used. Antibodies made using these proteins might recognize cell type-specific glycan epitopes. In addition, glycans can affect receptor binding interactions, and proteins from a given source cell may work better in your specific assay.

Read Application Note: Glycosylation of the receptor binding domain of COVID-19 virus spike protein.

 

Can your proteins be used in serological assays and release testing assays?

Yes, we have maximized yields to meet the large mass demands required of serological assays and quality control release testing assays. In addition, we have data over multiple lots that demonstrate consistency in our manufacturing process.

If you would like to easily measure human ACE-2 levels by ELISA, our ACE-2 DuoSet® ELISA kit is designed and validated to deliver you the matched antibody pair, protein controls, and detection reagents you need to quantify natural or recombinant ACE-2. A Quantikine ELISA is also in development.

Please contact us for details on specific products and additional data.

Can you synthesize me a COVID-19 related protein conjugated to my fluorophore of choice?

Yes, we are happy to help with custom conjugation requests. We can either start with one of our existing catalog proteins, or custom synthesize a protein and conjugate it to your desired fluorophore.

View Custom Services

Can you synthesize the pro form of IL-1F7b as a treatment for the COVID-19 hyperinflammatory response?

Yes. We can produce custom research-grade proteins suitable for proof-of-concept studies in vitro and in vivo in animal models. We can also produce GMP-compliant proteins for ex vivo use. Our products are not pharmaceutical grade and are not suitable direct injection into human patients.

View Custom Services

Do you have a reliable and accurate serological assay for COVID-19?

Bio-Techne has partnered with Kantaro Biosciences to develop, scale, manufacture, and distribute an antibody test utilizing the Mount Sinai assay as the underlying technology. Kit production capacity is expected to enable laboratories to conduct in excess of 10 million tests.

This IgG antibody test kit is an enzyme-linked immunosorbent assay or ELISA, designed to measure the presence or absence of anti-SARS-CoV-2 antibodies in addition to measuring the titer (level) of antibodies in a sample. It utilizes two virus antigens, the full-length Spike protein, and its Receptor Binding Domain, which is necessary for viral cell entry and is potentially linked with neutralization. The test kit will use a simple patient blood draw and is designed to be easily run by any laboratory in the world without costly proprietary equipment.

Other resources

Recombinant Proteins

Additional Products for SARS-CoV-2 Research and Detection

VersaClone cDNA Clones for Coronavirus Research

Article: ACE-2: The Receptor for SARS-CoV-2

Significant Events in the History of Virology Poster

Virus Detection and Induction of Anti-Viral Signaling Pathways by RIG-I-like Receptors

Infectious Diseases Research Area page

 

About Coronavirus Proteins

COVID-19 research and drug development speed along at an unprecedented pace as the scientific community searches for a cure. At R&D Systems, we understand the importance of quality recombinant proteins and enzymes with documented bioactivity and consistent performance for studying SARS-CoV-2 and other coronaviruses. We offer a range of different Spike RBD, S1 subunit, S2 subunit, and Spike full ectodomain proteins, as well as bioactive Papain-like proteases and 3CL proteases. With over 95% purity, the SARS-CoV-2 Nucleocapsid protein is an ideal antigen. Trusted for over 35 years, R&D Systems is the leading provider of recombinant proteins to the life science community.

Spike Protein

The Coronavirus Spike protein (S Protein) is one of four major structural proteins covering the surface of each virion. The Spike protein is a highly glycosylated, type I transmembrane protein responsible for host cell entry. Structurally, there are two domains, S1 and S2, that play major roles in receptor binding and membrane fusion. Within the N-terminal S1 domain is the receptor binding domain (Spike RBD protein). The Spike RBD binds to the host cell and initiates viral infection. The SARS-CoV-2 Spike RBD tightly associates with human ACE-2. Once the Spike S1 domain binds to its host receptor, conformational changes occur in the Spike S2 domain allowing for membrane attachment and eventually transfer of the nucleocapsid into the cell. Because of its essential role during Coronavirus infection, the Spike protein is major therapeutic target.

Nucleocapsid Protein

The Coronavirus Nucleocapsid protein (N Protein) is a multifunctional RNA-binding protein required for viral RNA transcription, replication, and packaging. The Nucleocapsid protein consists of three domains, an N-terminal RNA-binding domain, a central intrinsically disordered region, followed by a C-terminal dimerization domain. The RNA-binding domain contains multiple positively charged binding surfaces that form charged interactions with RNA promoting its helical arrangement. The Nucleocapsid protein is highly antigenic making it an attractive target for vaccine development and serological assays.

Papain-like Protease

The Coronavirus Papain-like protease (PLPro) is one of several nonstructural proteins (nsps) and along with 3CL Protease, is responsible for processing of viral proteins into functional, mature subunits during maturation. For example, PLPro cleaves a site at the amino-terminal end of the viral replicase region. In addition to its role in viral protein maturation, Papain-like protease exhibits both a deubiquitinating and deISG15ylating activity. In vivo, this protease antagonizes innate immunity by acting on IFN beta and NF- kappa B signaling pathways. Purified PLPro is used in vitro with polyubiquitin substrates demonstrating a strong preference for K48 linkages.

3CL Protease

The Coronavirus 3CL protease (3CLpro) is the other main protease in addition to the Papain-like protease and is required for processing of viral polypeptides into distinct, functional proteins. The SARS-CoV-2 3CL Protease is a C30-type cysteine protease located within the non-structural proteins 3 (NS3) region of the viral polypeptide. Analysis of the Coronavirus genome reveals at least 11 sites of cleavage for the 3CL Protease, many containing the amino acid sequence LQ[S/A/G]. In addition to the Papain-Like Protease, 3CLpro presents a promising therapeutic target for COVID-19. One attractive advantage of 3CLpro is that no human proteases are known to have a similar cleavage specificity making inhibitors of 3CLpro unlikely to cause mechanism-based toxicity.

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