Biochemistry For Dummies. John T. Moore
ion is the conjugate acid (CA), and the species with one less hydrogen ion is the conjugate base (CB).
The a subscript means that this expression represents an acid. The square brackets refer to the molar equilibrium concentrations of the species present. You can express the Ka as a pKa. The calculation of pKa is similar to the calculation of pH:
In terms of conjugate acids and bases, every Ka expression appears as
Like an acid, a base has a Kb value (the subscript b meaning base). A weak base, like ammonia, is part of the following equilibrium:
The equilibrium constant expression for this equilibrium is
The generic form of a Kb expression is
As with a Ka expression, a Kb expression has no variations other than the actual formulas of the conjugate acid and base.
Every acid has a Ka, and its corresponding conjugate base has a Kb. The Ka and the Kb of a conjugate acid-base pair are related by the Kw — the ionization constant for water. For a conjugate acid-base pair,
The Kb for the acetate ion, the conjugate base of acetic acid, would be associated with the following equilibrium expression:
The Ka for the ammonium ion, the conjugate acid of ammonia, would be associated with the following equilibrium expression:
An acid may be capable of donating more than one hydrogen ion. A biologically important example of this type of acid is phosphoric acid (H3PO4), which is a triprotic acid (meaning it can donate three hydrogen ions, one at a time). The equilibria for this acid are
The subscripts are modified to indicate the loss of hydrogen 1, hydrogen 2, or hydrogen 3. The associated Ka expressions are all of the form
Here’s the breakdown for each Ka:
TABLE 2-2 The Ka Values for Biologically Important Acids
| Acid | Ka1 | Ka2 | Ka3 |
|---|---|---|---|
| Acetic acid (CH3COOH) |
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| Pyruvic acid (CH3COCOOH) |
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| Lactic acid (CH3CHOHCOOH) |
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| Succinic acid (HOOCCH2CH2COOH) |
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| Carbonic acid (H2CO3) |
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| Phosphoric acid (H3PO4) |
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