Zwitter Ion: Difference between revisions

Revision as of 22:33, 3 December 2015

A Zwitterion is formed when an amino acid is at it's isoelectric point. Most Zwitterion's have no net charge and therefore will not migrate in a charged field. This is because they accept a proton (H⁺) at their N-terminus and lose a proton at their C-terminus. However, it is possible for the R-group of an amino acid to interact in the same way, which can give the Zwitterion a net charge eg. if the R-group contains a carboxyl group (COOH) it may also donate the H⁺from this group, creating a net charge of +1.

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	A ~~Zwitter [[Ions\|Ion]]~~ is formed when an [[~~amino~~ acid\|amino acid]] is at it's [[Isoelectric point\|isoelectric point]]. Most ~~Zwitter ion~~'s have no net charge, and therefore will not migrate in a charged field~~, it has both accepted~~ a proton (H<sup>+</sup>) at ~~it's~~ N-terminus and ~~lost~~ a proton at ~~it's~~ [[C-terminus\|C-terminus]]. However, it is possible for the [[R-group\|R-group]] of an amino acid to interact in the same way, which can give the ~~Zwitter ion~~ a net charge eg. if the R-group contains a carboxyl group (COOH) it may also donate the H<sup>+ </sup>from this group, creating a net charge of +1.		A Zwitterion is formed when an [[Amino acid\|amino acid]] is at it's [[Isoelectric point\|isoelectric point]]. Most Zwitterion's have no net charge and therefore will not migrate in a charged field. This is because they accept a [[Proton\|proton]] (H<sup>+</sup>) at their N-terminus and lose a proton at their [[C-terminus\|C-terminus]]. However, it is possible for the [[R-group\|R-group]] of an amino acid to interact in the same way, which can give the Zwitterion a net charge eg. if the R-group contains a [[Carboxyl_group\|carboxyl group]] (COOH) it may also donate the H<sup>+ </sup>from this group, creating a net charge of +1.

Zwitter Ion: Difference between revisions

Revision as of 22:33, 3 December 2015

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