Wherland Sandbox 2
From Proteopedia
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| - | This is a default text for your page '''Wherland Sandbox 2'''. Click above on '''edit this page''' to modify. Be careful with the < and > signs. | ||
| - | You may include any references to papers as in: the use of JSmol in Proteopedia <ref>DOI 10.1002/ijch.201300024</ref> or to the article describing Jmol <ref>PMID:21638687</ref> to the rescue. | ||
==Intramolecular Electron Transfer in Azurin== | ==Intramolecular Electron Transfer in Azurin== | ||
| - | <StructureSection load='4azu' size='350' side='right' caption="Ps. aeruginosa Azurin [[4azu]]" scene=""> | + | <StructureSection load='4azu' size='350' side='right' caption="Ps. aeruginosa Azurin [[4azu]]" scene="PDB Entry"> |
== Introduction == | == Introduction == | ||
Azurin is a bacterial protein that has been extensively studied by bioinorganic and biophysical chemists as a prototype of a Type 1 or "blue" copper protein. It contains a single copper ion that can be in the Cu<sup>+</sup> or Cu<sup>2+</sup> or the Cu state. The intensely blue color is due to a charge transfer transition from the cysteine thiolate ligand to the Cu in the Cu<sup>2+</sup> state. It functions as an electron transfer mediator. The electron transfer reactivity of azurin has been extensively studied, including studies of its reactivity with natural and artificial partners, and intramolecular electron transfer from intrinsic and covalently attached electron transfer partners. The latter studies have been instrumental in defining and evaluating the factors influencing electron transfer reactivity through proteins. These factors include the electron transfer distance, the structure of the intervening peptide medium, the thermodynamic driving force, and the structure of the donor and acceptor. These studies have been instrumental in the iterative testing and advancing of electron transfer theory. | Azurin is a bacterial protein that has been extensively studied by bioinorganic and biophysical chemists as a prototype of a Type 1 or "blue" copper protein. It contains a single copper ion that can be in the Cu<sup>+</sup> or Cu<sup>2+</sup> or the Cu state. The intensely blue color is due to a charge transfer transition from the cysteine thiolate ligand to the Cu in the Cu<sup>2+</sup> state. It functions as an electron transfer mediator. The electron transfer reactivity of azurin has been extensively studied, including studies of its reactivity with natural and artificial partners, and intramolecular electron transfer from intrinsic and covalently attached electron transfer partners. The latter studies have been instrumental in defining and evaluating the factors influencing electron transfer reactivity through proteins. These factors include the electron transfer distance, the structure of the intervening peptide medium, the thermodynamic driving force, and the structure of the donor and acceptor. These studies have been instrumental in the iterative testing and advancing of electron transfer theory. | ||
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| - | </StructureSection> | ||
| - | == Function == | ||
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| - | == Disease == | ||
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| - | == Relevance == | ||
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| - | == Structural highlights == | ||
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| - | This is a sample scene created with SAT to <scene name="/12/3456/Sample/1">color</scene> by Group, and another to make <scene name="/12/3456/Sample/2">a transparent representation</scene> of the protein. You can make your own scenes on SAT starting from scratch or loading and editing one of these sample scenes. | ||
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| - | </StructureSection> | ||
== References == | == References == | ||
<references/> | <references/> | ||
Revision as of 06:48, 9 July 2015
Intramolecular Electron Transfer in Azurin
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