Product name3C Protease
Origin speciesHRV-14
Expression systemProkaryotic expression
Molecular weight47.46 kDa
Buffer0.01M PBS, pH 7.4.
FormLiquid
Delivery conditionDry Ice
Delivery lead time in business days3-5 days if in stock; 3-5 weeks if production needed
Storage condition4°C for short term (1 week), -20°C or -80°C for long term (avoid freezing/thawing cycles; addition of 20-40% glycerol improves cryoprotection)
BrandAntibodySystem
Host speciesEscherichia coli (E.coli)
Fragment Type3C Protease is cloned from Human rhinovirus and expressed in E.coli.
ReferenceYVV07701
NoteFor research use only.

Description of 3C Protease

Introduction to 3C Protease

3C Protease, also known as 3C-like protease or 3CLpro, is a cysteine protease enzyme that plays a crucial role in the replication of coronaviruses. This enzyme is responsible for cleaving the polyprotein of coronaviruses into functional proteins, making it an essential target for antiviral drug development. In this article, we will explore the structure, activity, and applications of 3C Protease, with a focus on its use as a recombinant protein and antigen.

Structure of 3C Protease

The 3C Protease enzyme is a 306-amino acid protein with a molecular weight of approximately 33 kDa. It is composed of three domains: a catalytic domain, a dimerization domain, and a C-terminal domain. The catalytic domain contains the active site of the enzyme, while the dimerization domain is essential for the formation of the functional homodimer. The C-terminal domain is involved in substrate recognition and binding.

The crystal structure of 3C Protease has been extensively studied, providing valuable insights into its function and potential as a drug target. The active site of the enzyme contains a cysteine-histidine-aspartate catalytic triad, which is essential for its proteolytic activity. This triad is highly conserved among coronaviruses, making 3C Protease a promising target for broad-spectrum antiviral drugs.

Activity of 3C Protease

3C Protease is responsible for the cleavage of the polyprotein of coronaviruses into functional proteins, including the replicase polyprotein, structural proteins, and non-structural proteins. This process is crucial for the replication of the virus and its ability to cause disease. Inhibition of 3C Protease activity can prevent viral replication and potentially stop the spread of infection.

3C Protease has a preference for cleaving peptide bonds after glutamine residues, leading to the production of specific cleavage products. This unique specificity allows for the identification of 3C Protease activity in cell lysates and the development of assays for drug screening.

Applications of 3C Protease

Recombinant Protein Production

3C Protease is widely used in the production of recombinant proteins. It is commonly used as a fusion tag for the purification of target proteins, as it can be easily removed by treatment with reducing agents. The high specificity of 3C Protease for glutamine residues also allows for the generation of recombinant proteins with defined N- or C-termini, which is essential for functional studies.

Furthermore, the use of 3C Protease as a fusion tag allows for the production of large quantities of recombinant proteins in a relatively short period. This has significant implications for the development of therapeutics and vaccines, where large amounts of proteins are required for pre-clinical and clinical studies.

Antigen for Diagnostic Tests

3C Protease has also been used as an antigen in diagnostic tests for coronaviruses. The high specificity and conservation of 3C Protease among coronaviruses make it an ideal target for the development of serological assays. Antibodies against 3C Protease can be used to detect the presence of coronaviruses in patient samples, providing a rapid and sensitive diagnostic tool.

Moreover, the use of recombinant 3C Protease as an antigen allows for the production of large quantities of highly pure protein, ensuring the accuracy and reproducibility of diagnostic tests.

Drug Development

Given its crucial role in viral replication, 3C Protease has been identified as a potential target for the development of antiviral drugs against coronaviruses. Several inhibitors of

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