Blueprint genes are sets of blueprint particles that are present within all elementary particles and dictate their properties. All of the blueprint particles are in a binary state ("on" or "off"). These genes are written in the most efficient binary language logically possible, although nobody yet has been able to decipher this language. The more mass a particle has, the larger its blueprint gene. However, the blueprint gene is not the only place where there are blueprint particles in other particles.
Mutation[]
Blueprint genes are very hard to change, but it is possible to change a blueprint gene by a process called quantum mutation. Mutated particles will have different properties than their normal counterpart. Here is a list of mutations the particle can get:
- More mass (M+)
- Less mass (M-)
- Positive charge (C2+)
- Negative charge (C2-)
- Stronger charge (C+)
- Weaker charge (C-)
- Charge removal (CZ)
- Positive spin (S2+)
- Negative spin (S2-)
- More spin (S+)
- Less spin (S-)
- Spin removal (SZ)
- Higher lifetime (L+)
- Lower lifetime (L-)
- Complete stability (LΩ)
- More hadron compatibility (H+)
- Less hadron compatibility (H-)