Protein Quaternary Structure - Nomenclature of Quaternary Structures

Nomenclature of Quaternary Structures

The number of subunits in an oligomeric complex is described using names that end in -mer (Greek for "part, subunit"). Formal and Greco-Latinate names are generally used for the first ten types and can be used for up to twenty subunits, whereas higher order complexes are usually described by the number of subunits, followed by -meric.

  • 1 = monomer
  • 2 = dimer
  • 3 = trimer
  • 4 = tetramer
  • 5 = pentamer
  • 6 = hexamer
  • 7 = heptamer
  • 8 = octamer
  • 9 = nonamer
  • 10 = decamer
  • 11 = undecamer
  • 12 = dodecamer
  • 13 = tridecamer
  • 14 = tetradecamer
  • 15 = pentadecamer*
  • 16 = hexadecamer
  • 17 = heptadecamer*
  • 18 = octadecamer
  • 19 = nonadecamer
  • 20 = eicosamer
  • 21-mer
  • 22-mer
  • 23-mer*
  • etc.
*No known examples

Although complexes higher than octamers are rarely observed for most proteins, there are some important exceptions. Viral capsids are often composed of multiples of 60 proteins. Several molecular machines are also found in the cell, such as the proteasome (four heptameric rings = 28 subunits), the transcription complex and the spliceosome. The ribosome is probably the largest molecular machine, and is composed of many RNA and protein molecules.

In some cases, proteins form complexes that then assemble into even larger complexes. In such cases, one uses the nomenclature, e.g., "dimer of dimers" or "trimer of dimers", to suggest that the complex might dissociate into smaller sub-complexes before dissociating into monomers.

Read more about this topic:  Protein Quaternary Structure

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