Translations:Flavin adenine dinucleotide/7/en: Difference between revisions

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Message definition (Flavin adenine dinucleotide)
FAD can be [[redox|reduced]] to FADH<sub>2</sub> through the addition of 2 H<sup>+</sup> and 2 e<sup>−</sup>. FADH<sub>2</sub> can also be [[redox|oxidized]] by the loss of 1 H<sup>+</sup> and 1 e<sup>−</sup> to form FADH. The FAD form can be recreated through the further loss of 1 H<sup>+</sup> and 1 e<sup>−</sup>. FAD formation can also occur through the reduction and dehydration of flavin-N(5)-oxide. Based on the oxidation state, flavins take specific colors when in [[aqueous solution]].  [[Amine oxide|flavin-N(5)-oxide]] (superoxidized) is yellow-orange, FAD (fully oxidized) is yellow, FADH (half reduced) is either blue or red based on the [[pH]], and the fully reduced form is colorless. Changing the form can have a large impact on other chemical properties. For example, FAD, the fully oxidized form is subject to [[Nucleophilic substitution|nucleophilic attack]], the fully reduced form,  FADH<sub>2</sub> has high [[polarizability]], while the half reduced form is unstable in aqueous solution.FAD is an [[aromatic]] ring system, whereas FADH<sub>2</sub> is not. This means that FADH<sub>2</sub> is significantly higher in energy, without the stabilization through [[resonance]] that the aromatic structure provides.  FADH<sub>2</sub> is an energy-carrying molecule, because, once oxidized it regains aromaticity and releases the energy represented by this stabilization.

FAD can be reduced to FADH2 through the addition of 2 H+ and 2 e. FADH2 can also be oxidized by the loss of 1 H+ and 1 e to form FADH. The FAD form can be recreated through the further loss of 1 H+ and 1 e. FAD formation can also occur through the reduction and dehydration of flavin-N(5)-oxide. Based on the oxidation state, flavins take specific colors when in aqueous solution. flavin-N(5)-oxide (superoxidized) is yellow-orange, FAD (fully oxidized) is yellow, FADH (half reduced) is either blue or red based on the pH, and the fully reduced form is colorless. Changing the form can have a large impact on other chemical properties. For example, FAD, the fully oxidized form is subject to nucleophilic attack, the fully reduced form, FADH2 has high polarizability, while the half reduced form is unstable in aqueous solution.FAD is an aromatic ring system, whereas FADH2 is not. This means that FADH2 is significantly higher in energy, without the stabilization through resonance that the aromatic structure provides. FADH2 is an energy-carrying molecule, because, once oxidized it regains aromaticity and releases the energy represented by this stabilization.

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