Papain: Difference between revisions
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Papain is a relatively simple enzyme, consisting of a single 212 residue chain. A majority of papain's residues are <scene name='Papain/Hydrophobicity_papain/1'>hydrophobic</scene> as shown in fuchsia. As with all proteins, it is primarily the exclusion of these residues by water that leads to papain's assumption of a globular form. Despite its apparent simplicity and small size, papain folds into two distinct, evenly sized <scene name='Papain/Sk_two_domains/2'>domains</scene>, each with its own <scene name='Papain/Sk_hydrophobic_core/2'>hydrophobic core</scene> (surface residues are transparent, hydrophobic-core residues are colored and opaque, and the remaining are polar, non-surface residues).<ref name="Structure">PMID:6502713</ref> | Papain is a relatively simple enzyme, consisting of a single 212 residue chain. A majority of papain's residues are <scene name='Papain/Hydrophobicity_papain/1'>hydrophobic</scene> as shown in fuchsia. As with all proteins, it is primarily the exclusion of these residues by water that leads to papain's assumption of a globular form. Despite its apparent simplicity and small size, papain folds into two distinct, evenly sized <scene name='Papain/Sk_two_domains/2'>domains</scene>, each with its own <scene name='Papain/Sk_hydrophobic_core/2'>hydrophobic core</scene> (surface residues are transparent, hydrophobic-core residues are colored and opaque, and the remaining are polar, non-surface residues).<ref name="Structure">PMID:6502713</ref> | ||
These two subunits are held together with <scene name='Papain/Armcrossing/1'>"arm" linkage</scene>, where each protein domain holds the opposite domain. In papain's case the "arm" crossing primarily occurs on or near the surface.<ref>[http://kinemage.biochem.duke.edu/teaching/anatax/html/anatax.2i.html] Jane S. Richardson</ref> It is between these two domains that the <scene name='Papain/9pap_bindingpocket_wrtdomains/4'>substrate binding pocket</scene> is situated. The two domains interact with one another via hydrophobic | These two subunits are held together with <scene name='Papain/Armcrossing/1'>"arm" linkage</scene>, where each protein domain holds the opposite domain. In papain's case the "arm" crossing primarily occurs on or near the surface.<ref>[http://kinemage.biochem.duke.edu/teaching/anatax/html/anatax.2i.html] Jane S. Richardson</ref> It is between these two domains that the <scene name='Papain/9pap_bindingpocket_wrtdomains/4'>substrate binding pocket</scene> is situated. The two domains interact with one another via <scene name='Papain/Valine_19/2'>hydrophobic</scene>, involving Val-32, Lys-174, Ala-162, and Pro-129, <scene name='Papain/Twodomainshbonds/2'>hydrogen bonds</scene> (shown in white), and electrostatic interactions in this cleft. For example, <scene name='Papain/Gln_19/3'>Gln-19</scene> hydrogen bonds multiple times with the oxygen atoms of Ser-176. Electrostatic interactions are seen between <scene name='Papain/Glu_35/1'>Glu-35 and Lys-174</scene> where the carboxyl group of Glu-35 forms an ionic bond with the ammonia group of the Lys-174 residue. Additionally, there are several <scene name='Papain/Clash/1'>clashes</scene> that occur between the two domains, illustrated in orange. The <scene name='Papain/Twodomainsallncbonds/1'>sum total</scene> of interactions within the cleft between the two domains ensures that the lobes do not move with respect to one another. <ref>[http://books.google.com/books?hl=en&lr=&id=fk1hbZdPTEgC&oi=fnd&pg=PA79&dq=aromatic+residues+in+papain&ots=L8SvlkQaZU&sig=xZ2l8kj52PD7DzuiAQ1zah0CU2M#v=onepage&q=aromatic%20residues%20in%20papain&f=false] The Structure of Papain </ref> | ||
In addition to hydrophobic residues, papain contains a variety of <scene name='Papain/Sk_polar_residues/2'>polar residues</scene>, some carrying a <scene name='Papain/Sk_acidic_residues/2'>negative charge</scene>, shown in gray at physiological pH, and are therefore acidic; others a <scene name='Papain/Sk_basic_residues/2'>positive charge</scene>, shown in purple, and are therefore basic. The rest of the <scene name='Papain/Sk_basic_residues/3'>polar residues</scene>, shown in a light gray, are neutral. As expected, the charged <scene name='Papain/Termini/3'>termini</scene> face outward due to their hydrophilic nature. | In addition to hydrophobic residues, papain contains a variety of <scene name='Papain/Sk_polar_residues/2'>polar residues</scene>, some carrying a <scene name='Papain/Sk_acidic_residues/2'>negative charge</scene>, shown in gray at physiological pH, and are therefore acidic; others a <scene name='Papain/Sk_basic_residues/2'>positive charge</scene>, shown in purple, and are therefore basic. The rest of the <scene name='Papain/Sk_basic_residues/3'>polar residues</scene>, shown in a light gray, are neutral. As expected, the charged <scene name='Papain/Termini/3'>termini</scene> face outward due to their hydrophilic nature. | ||