Zwitterion

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An amino acid, in its (1) nominal (unionized) and (2) usual, zwitterionic forms.

A zwitterion (first part pronounced "tsvitter", from German "Zwitter" â€” "hybrid," "hermaphrodite") is a chemical compound that carries a total net charge of 0, thus electrically neutral but carries formal positive and negative charges on different atoms. Some chemists restrict this term to refer to compounds with non-adjacent positive and negative charges.^[1] This would exclude compounds such as N-oxides. Zwitterions are polar and are usually very water-soluble, but poorly soluble in most organic solvents.

Ampholytes are molecules that contain both acidic and basic groups (and are therefore amphoteric) and will exist mostly as zwitterions in a certain range of pH. The pH at which the average charge is zero is known as the molecule's isoelectric point.

[edit] Applications

Ampholytes are used to establish a stable pH gradient for use in isoelectric focusing.

Typical examples of zwitterions are:

Most amino acids at physiological pH are for the most part zwitterionic. Used as buffering agents in Good's buffers:

The amino-sulfonic acid based MES, MOPS, HEPES, PIPES or CAPS The amino-carboxylic acid (amino acid) based glycine, its derivatives bicine and tricine, and alanine

Used as detergents:

CHAPSO

Natural products like the alkaloids psilocybin and lysergic acid. Betaines

Less common examples of zwitterions are:

Quinonoid zwitterions. Drugs such as Fexofenadine (Allegra) and Cephaloridine. decaphenylferrocene [(Î·⁵-C₅Ph₅)₂Fe] has been shown to have a zwitterionic linkage isomer [(Î·⁵-C₅Ph₅)Fe⁺(Î·⁶-C₆H₅C₅Ph₄^âˆ’)].