Sandbox 11
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NAPase
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| 2oua, resolution 1.85Å () | |||||||||
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| Ligands: | , , , | ||||||||
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| Resources: | FirstGlance, OCA, PDBsum, RCSB | ||||||||
| Coordinates: | save as pdb, mmCIF, xml | ||||||||
Nocardiopsis alba Protease A, or NAPase, is an acid-resistant homolog of alpha-lytic protease. As such, NAPase and alp are both kinetically stable proteases, meaning it is the large barrier to unfolding that keeps this protease in its folded, active state. This is different from most other proteins, which stay in their folded, or native, state because of the energy difference between their native and unfolded states, with the native state being lower in energy. These proteases gain a significant advantage in half-life because of their kinetic stability, but it comes with a price. The barrier to folding is large, with alpha-lytic protease's half life for folding is 1800 years. Luckily, these proteases have coevolved a pro region that can assist with folding while covalently attached, or while in solution with the unfolded protease. Once the protease has been guided to its native state by the pro region, it mercilessly proteolyzes the pro region that helped it gain its protein-degrading ability.
The NAPase molecule provided shows two NAPase molecules that are mirror images, so here is just . NAPase, along with the rest of the trypsin family, has an active site that consists of the "catalytic triad." This is made up of three amino acid residues (H57, D102, and S195) that play a major role in binding the substrate and catalyzing proteolysis. The distance between these residues on the protein chain, and the complexity of folding one might imagine is occurring, helps to demonstrate the value of the Pro region.
One of the major features of NAPase is that each protease has two domains, an N domain and a C domain. In this , one can see the N domain (red, orange, yellow), so-called because it contains the N-terminal amino acid, is connected covalently through the protein to the C domain (green, blue, violet). The horizontal axis of this scene is the main dividing line between the domains, with few chains crossing the barrier.
Kelch (2007) [1], looks at
ReferencesReferences
- ↑ Kelch BA, Eagen KP, Erciyas FP, Humphris EL, Thomason AR, Mitsuiki S, Agard DA. Structural and mechanistic exploration of acid resistance: kinetic stability facilitates evolution of extremophilic behavior. J Mol Biol. 2007 May 4;368(3):870-83. Epub 2007 Feb 22. PMID:17382344 doi:10.1016/j.jmb.2007.02.032