Nithin 6wxd
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| - | SARS-CoV-2 Non-structural Protein 9 (Nsp9) – Structure and Peptide-Binding Insights | ||
| - | This page provides a structural and functional overview of the SARS-CoV-2 Nsp9 protein, | ||
| - | based on the 2020 iScience study that solved its crystal structure in both apo and | ||
| - | unexpected peptide-bound forms. | ||
| - | In this study , the researchers produced SARS-CoV-2 Nsp9 in the lab and sloved its X-ray crystal structure | ||
| - | <StructureSection load='6wxd' size='340' side='right'caption='[[6wxd]], [[Resolution|resolution]] 2.00Å' scene=''> | ||
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| - | == Introduction == | ||
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| - | The SARS-CoV-2 Non-structural protein 9 (Nsp9) is a small but essential RNA-binding protein encoded by | ||
| - | SARS-CoV-2. It contributes to viral replication by stabilizing viral RNA and assisting the | ||
| - | replication–transcription machinery. Nsp9 is highly conserved across coronaviruses, indicating | ||
| - | that its structure is crucial for efficient genome replication. | ||
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| - | crystal structure in two states: | ||
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| - | * **Apo Nsp9** – Nsp9 without any ligand | ||
| - | * **Peptide-bound Nsp9** – unexpectedly containing a short peptide (**LEVL**) derived from a | ||
| - | rhinovirus 3C protease cleavage tag used during purification | ||
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| - | The peptide was found bound close to the **dimer interface**, causing subtle but significant | ||
| - | changes in the relative orientation of the two Nsp9 monomers. Since Nsp9 functions as a | ||
| - | homodimer during RNA binding, even small shifts in this interface may influence replication | ||
| - | efficiency and protein–RNA interactions. | ||
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| - | The structure confirmed that SARS-CoV-2 Nsp9 maintains a highly conserved **oblong β-barrel | ||
| - | fold**, similar to Nsp9 structures from SARS-CoV and other coronaviruses. The discovery of an | ||
| - | unexpected peptide-binding site suggests that Nsp9 may interact with regulatory elements or | ||
| - | protein partners during viral replication. | ||
| - | </structureSection> | ||
| - | == Structure == | ||
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| - | The SARS-CoV-2 Nsp9 monomer adopts a compact **7-stranded β-barrel fold**, a hallmark feature | ||
| - | of the Nsp9 family. Two monomers form a **homodimer**, which is necessary for RNA-binding | ||
| - | function. | ||
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| - | === β-Barrel Core === | ||
| - | The Nsp9 monomer contains **seven antiparallel β-strands** arranged into a barrel-like fold. | ||
| - | This β-barrel provides rigidity and forms the structural foundation needed for RNA interaction. | ||
| - | The fold is nearly identical to SARS-CoV Nsp9, highlighting strong evolutionary conservation. | ||
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| - | === Dimer Interface === | ||
| - | Nsp9 functions as a **homodimer**. The dimer interface is primarily stabilized by: | ||
| - | * β5–β6 region interactions | ||
| - | * Hydrophobic packing | ||
| - | * A conserved **GxGxG motif** situated near the dimerization surface | ||
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| - | The alignment of the two monomers creates a positively charged groove thought to accommodate | ||
| - | viral RNA. | ||
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| - | === Peptide-Binding Site (LEVL peptide) === | ||
| - | In the peptide-bound structure (6WXD), a short peptide (**LEVL**) occupies a groove near the | ||
| - | dimer interface. This interaction was **not biologically intended** but arose from purification | ||
| - | artifacts involving the rhinovirus 3C protease. | ||
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| - | Nevertheless, the peptide influences monomer orientation, providing insight into how small | ||
| - | ligands or interacting partners may modulate Nsp9 dimer architecture. | ||
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| - | Key features: | ||
| - | * Peptide binds in a shallow hydrophobic groove | ||
| - | * Contacts β-barrel residues at the interface | ||
| - | * Causes measurable shifts in dimer alignment | ||
| - | * Suggests the site may be relevant for RNA or protein interactions | ||
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| - | == Conserved Motif == | ||
| - | A highly conserved **Gly-rich GxGxG loop** is found near the dimerization surface. | ||
| - | Evolutionary conservation suggests this motif stabilizes the fold and may contribute to RNA | ||
| - | association. Mutations in this region in related coronaviruses reduce replication efficiency. | ||
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| - | == Biological Significance == | ||
| - | Nsp9 is essential for: | ||
| - | * Assembly of the replication–transcription complex | ||
| - | * Stabilization of viral RNA | ||
| - | * Viral protein–protein interactions | ||
| - | * Efficient SARS-CoV-2 genome replication | ||
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| - | The structural analysis in this paper showed: | ||
| - | * Nsp9’s β-barrel is rigid and conserved | ||
| - | * Dimerization is critical for function | ||
| - | * The unexpected LEVL peptide reveals a **potential regulatory pocket** | ||
| - | * Small ligands may modulate Nsp9 dimer dynamics | ||
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| - | Because Nsp9 lacks close human homologs, identifying druggable sites on this protein could | ||
| - | offer future antiviral opportunities. | ||
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| - | == References == | ||
| - | [1] iScience (2020). Structural Basis of SARS-CoV-2 Main Protease Inhibition. https://doi.org/10.1016/j.isci.2020.101258 | ||
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| - | [2] Protein Data Bank: PDB 6WXD | ||
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