What is the Difference Between Isoelectric and Isoionic Point?
🆚 Go to Comparative Table 🆚The isoelectric point and isoionic point are related concepts, but they have slightly different meanings. The isoelectric point is defined as the pH at which a molecule has no net charge, meaning that the positive and negative charges balance each other out. In contrast, the isoionic point is defined as the pH at which there is no net charge on the molecule, and the dissociable groups of the substance combine equally and only with hydrogen and hydroxyl ions.
Key differences between isoelectric and isoionic points include:
- The isoelectric point is applicable to a wider range of molecules, while the isoionic point only applies to zwitterionic substances in pure water.
- The isoelectric point is determined by several factors, such as titration or electrokinetic methods, while the isoionic point can only be determined by an electrokinetic method.
- The isoelectric and isoionic points of some soluble proteins may be approximately the same, but for insoluble materials, especially those with a more crystalline nature, the isoelectric and isoionic points may be far apart.
In summary, the isoelectric point refers to the pH at which a molecule has no net charge, while the isoionic point refers to the pH at which a molecule has no net charge and its dissociable groups combine equally with hydrogen and hydroxyl ions. Although the terms are often used interchangeably, they have slightly different meanings and apply to different types of molecules and conditions.
Comparative Table: Isoelectric vs Isoionic Point
The main difference between the isoelectric point and the isoionic point lies in the conditions under which they are defined and their applicability. Here is a table highlighting the differences:
| Isoelectric Point | Isoionic Point |
|---|---|
| The isoelectric point is the pH at which the average charge of a polyprotic acid is zero (0). | The isoionic point is the pH at which a pure, neutral polyprotic acid is dissolved in water, and the concentrations of the acid and its base are in equilibrium with each other. |
| The isoelectric point can be applied to any polyprotic system, such as proteins and peptides. | The isoionic point is more specific and only applies to zwitterionic substances in pure water. |
| The isoelectric point is used in the isoelectric focusing technique for the separation of proteins and peptides. | The isoionic point is used to describe the behavior of amino acids and other polyprotic systems in a solution. |
In summary, the isoelectric point is more general and can be applied to various polyprotic systems, while the isoionic point is more specific and applies only to zwitterionic substances. The isoelectric point is used in the separation of proteins and peptides, while the isoionic point is used to describe the behavior of amino acids and other polyprotic systems.
- Isoelectronic vs Isosteres
- Isotonic vs Isoelectronic Species
- Isotonic vs Isosmotic
- Chromatofocusing vs Isoelectric Focusing
- Isotope vs Ion
- Zeta Potential vs Point of Zero Charge
- Isotonic vs Isometric
- Isotropic vs Orthotropic
- Isohyets vs Isotherms
- Ionic vs Electrostatic Interactions
- Ionization vs Dissociation
- Isostructural vs Isomorphous
- Anisotropy vs Isotropy
- Homogeneous vs Isotropic
- Isotopes vs Isomers
- Isotopes vs Isobars vs Isotones
- Protonation vs Ionization
- Isotopes vs Isobars
- Fixed Point vs Equilibrium Point