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2.8: Polyprotic Acids

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    Polyprotic acids are capable of donating more than one proton. The most important polyprotic acid group from a biological standpoint is triprotic phosphoric acid. Because phosphoric acid has three acidic protons, it also has three \(pK_a\) values.

    The three pKa values for phosphoric acid are 2.1, 7.2, and 12.3.

    The \(pK_a\) values for any polyprotic acid always get progressively higher, because it becomes increasingly difficult to stabilize the additional electron density that results from each successive proton donation. \(H_3PO_4\) is a strong acid because the (single) negative charge on its conjugate base \(H_2PO_4^-\) can be delocalized over two oxygen atoms.

    \(H_2PO_4^-\) is substantially less acidic, because proton donation now results in the formation of an additional negative charge: a –2 charge is inherently higher in energy than a –1 charge because of negative-negative electrostatic repulsion. The third deprotonation, resulting in formation of a third negative charge, has an even higher \(pK_a\). We will have more to say about the acidity of phosphate groups in chapter 9, when we study the reactions of phosphate groups on biomolecules.

    Exercise 7.8.1

    In a buffer at physiological \(pH\), what form(s) of phosphoric acid predominate? What is the average net charge?

    Free amino acids are polyprotic, with \(pK_a\) values of approximately 2 for the carboxylic acid group and 9-10 for the ammonium group. Alanine, for example, has the acid constants \(pK_{a1} = 2.3\) and \(pK_{a2} = 9.9\).

    The cation at low pH a hydroxide with pKa of 2.7 and amine with a pKa of 9.9. The zwitterion has pH of 7. the anion at high pH has a negative charge on the oxygen and an NH2.

    The Henderson-Hasselbalch equation tells us that alanine is almost fully protonated and positively charged when dissolved in a solution that is buffered to \(pH 0.5\). At \(pH 7\), alanine has lost one proton from the carboxylic acid group, and thus is a zwitterion (it has both a negative and a positive formal charge). At \(pH\) levels above 12, the ammonium group is fully deprotonated, and alanine has a negative overall charge.

    Some amino acids (arginine, lysine, aspartate, glutamate, tyrosine, and histidine) are triprotic, with a third \(pK_a\) value associated with an ionizable functional group on the side chain.

    Many biological organic molecules have several potentially ionizable functional groups and thus can be considered polyprotic acids. Citric acid, found in abundance in oranges, lemons, and other citrus fruits, has three carboxylic acid groups and \(pK_a\) values of 3.1, 4.8, and 6.4.

    Citric acid with its three acidic groups highlighted in red.

    This page titled 2.8: Polyprotic Acids is shared under a CC BY-NC-SA 4.0 license and was authored, remixed, and/or curated by Tim Soderberg via source content that was edited to the style and standards of the LibreTexts platform; a detailed edit history is available upon request.