User:Bradley Duncan/Sandbox 1
From Proteopedia
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| - | In this depiction of the monomer<scene name='User:Bradley_Duncan/Sandbox_1/Cationic_residues/1'>Cationic Residues</scene>, the cationic amino acid residues on the protein (blue) can interact with anionic, functionalized nanoparticles. After the nanoparticle-protein complex is formed chymotrypsin then displays a preference for cationic substrates due to interaction with the anionic nanoparticle. The active site of chymotrypsin is shown in red. | + | In this depiction of the monomer <scene name='User:Bradley_Duncan/Sandbox_1/Cationic_residues/1'>Cationic Residues</scene>, the cationic amino acid residues on the protein (blue) can interact with anionic, functionalized nanoparticles. After the nanoparticle-protein complex is formed chymotrypsin then displays a preference for cationic substrates due to interaction with the anionic nanoparticle. The active site of chymotrypsin is shown in red. |
Revision as of 21:18, 30 April 2010
One of the CBI Molecules being studied in the University of Massachusetts Amherst Chemistry-Biology Interface Program at UMass Amherst and on display at the Molecular Playground.
Chymotrypsin () is a proteolytic enzyme which cleaves peptide bonds. The enzyme shows selectively to peptides with aromatic sidechains on the carboxyl side of the peptide bond. This is due to a “hydrophobic pocket” near the active site of the enzyme. The protein also contains a large number of cationic residues.
In this depiction of the monomer , the cationic amino acid residues on the protein (blue) can interact with anionic, functionalized nanoparticles. After the nanoparticle-protein complex is formed chymotrypsin then displays a preference for cationic substrates due to interaction with the anionic nanoparticle. The active site of chymotrypsin is shown in red.
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Molecular Playground banner: Chymotrypsin is a digestive enzyme that breaks down proteins
