Table 1.
Construction rules for designing nanohedral protein materials from dimeric and trimeric oligomerization domains
| Symmetry* | Construction | Geometry of symmetry elements† | |
|---|---|---|---|
| Cages and shells | |||
| T‡ | Dimer-trimer | 54.7° | I |
| O§ | Dimer-trimer | 35.3° | I |
| I | Dimer-trimer | 20.9° | I |
| Double-layer rings | |||
| Dn | Dimer-dimer | 180°/n | I |
| Two-dimensional layers | |||
| p6¶ | Dimer-trimer | 0° | N |
| p321 | Dimer-trimer | 90° | N |
| p3 | Trimer-trimer | 0° | N |
| Three-dimensional crystals | |||
| I213 | Dimer-trimer | 54.7° | N |
| P4132 or P4332 | Dimer-trimer | 35.3° | N |
| P23 | Trimer-trimer | 70.5° | N |
| Helical filaments | |||
| Helical‖ | Dimer-dimer | Any angle, | N |
This table gives only those symmetries that can be constructed by combining two oligomerization domains of the dimeric or trimeric type. Other kinds of oligomerization domains, such as tetramers, would give additional possibilities not listed here.
*
T, O, I, and Dn refer to tetrahedral, octahedral, icosahedral, and dihedral symmetry, respectively. The remaining symbols are denoted by their Hermann–Mauguin symbols.
†
The angle formed between the two symmetry elements is given, followed by I or N to denote intersecting or nonintersecting axes.
‡
See Fig. 2c.
§
See Fig. 1e.
¶
See Fig. 1d.
‖
See Fig. 3b.