Sandbox 167: Difference between revisions
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== Structure == | == Structure == | ||
Composed of residues 868-1218, domain 3 (D3)also consists of a 20aa c domain, but said region was unable to be solved due to high disorder in the region. Composed of 7 α-helices and 16 β-strands, D3 is further organized into subdomains. The main portion of the enzyme appears to be a β-barrel structure composed of 10 antiparrallel strands connected via a Gly rich sequence to a 3 helix bundle. This bundle is stabilized by a hydrophobic core region as well as a multitude of H-bonding patterns. The β-barrel structure actually has some homology with the human muscle fatty acid binding protein (m-FABP, pdb= 1HMT). This, and other related proteins, form a "β-clam" subdomain structure for binding of hydrophobic molecules. However, other known β-clam structures do not possess enzymatic activity. | Composed of residues 868-1218, domain 3 (D3) also consists of a 20aa c domain, but said region was unable to be solved due to high disorder in the region. Composed of 7 α-helices and 16 β-strands, D3 is further organized into subdomains. The main portion of the enzyme appears to be a β-barrel structure composed of 10 antiparrallel strands connected via a Gly rich sequence to a 3 helix bundle. This bundle is stabilized by a hydrophobic core region as well as a multitude of H-bonding patterns. The β-barrel structure actually has some homology with the human muscle fatty acid binding protein (m-FABP, pdb= 1HMT). This, and other related proteins, form a "β-clam" subdomain structure for binding of hydrophobic molecules. However, other known β-clam structures do not possess enzymatic activity. | ||
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== Luciferase Reaction == | == Luciferase Reaction == | ||
Typically, luciferases produce light through a high energy complex with a luciferin cofactor, and Mg-ATP. The structure of luciferin is different from organism to organism, and in ''L. polyedrum'', is a chlorophyll-derived tetrapyrrole. Below is the dinoflagellate luciferase reaction. | Typically, luciferases produce light through a high energy complex with a luciferin cofactor, and Mg-ATP. The structure of luciferin is different from organism to organism, and in ''L. polyedrum'', is a chlorophyll-derived tetrapyrrole. Below is the dinoflagellate luciferase reaction, showing the oxidation site. | ||
[[Image:Luciferase_reaction.jpg]] | [[Image:Luciferase_reaction.jpg]] | ||
''Image courtesy of L. Wayne Schultz.'' | |||