Me
What if chiral mirror worlds were opposite on the other side of a theoretical black hole? What aromatic amino acids would exist if D- represented protein structures and L- represented energy? Would it still be sugar? In other words, how would our forms be stabilized in terms of thermodynamics or caloric requirements in moles? Would hexamer gradients be more dominant? How would intelligent life be dispersed? More to the point, would this universe, refracting back onto itself, represent hydrogen and helium as non-metallic agents? Would there still be a requirement for a carbon backbone, or what would a right- or left-pointing/spiraling backbone represent?
GPT
You're asking a profoundly deep question that touches on physics, chemistry, biochemistry, and even the philosophy of symmetry in nature. Let's break it down systematically.
1. Chiral Mirror Worlds & Black Holes
If a black hole connects two opposite chirality universes, the fundamental handedness (chirality) of particles and interactions might be inverted. If L-amino acids dominate life in our universe, perhaps D-amino acids would be the basis for biological structures in the mirror universe. However, this depends on whether the weak force asymmetry (which favors L-amino acids in our world) is truly universal or merely local to our physical laws.
2. Aromatic Amino Acids and Energy/Protein Inversion
In our biology, aromatic amino acids (tryptophan, phenylalanine, and tyrosine) play critical roles in electron transport, signaling, and structural integrity.
If D-amino acids dominated protein structures, their mirror-world counterparts might have different biochemical pathways, but still require π-electron cloud systems for stability.
Side note:
***I do not believe Electrons would play a dominant role. Furtge I believe that electrons represent the ongoing negative state of perpetual chaos. Possibly where we exist now is the negative or the hexamere side of chirality/black hole theory? The reoccuring theme with Phi resonance and Hex/6 is more of a stabilizing connecting to this chiral vibration hence the other side. In other words 6 represents a stable existence that the unstable Pentagonal/5 dominance here is based upon.
Yet 5 would not act as a stabilizing agent to the chiral universal side. Rather the 6 would achor itself in 7 [8 -13 in Phi; 0, 1, 1, 2, 3, 5, 8, 13]. Does this mean Protons could replace electrons in a chiral mirrored world scenario? Or perhaps what appears as proton here is representing more a D- electron position there? Liminal elements emerge that would not be present fully in either side nor a tertiary intermediate? Could the chiral represent 7 straight count L-/8 Phi [same only expressed as 7 & 8]. Unstable intermediaries [Moscovium when in specific dynamic spin?]. Is this revealed in the proposed 5th force posit; electrons can be frozen at at angle [rate of decay represents liminal state?]?***
If L-amino acids represented energy rather than structure, then metabolism would be inverted. Sugars (D-ribose and D-glucose) might instead be L-sugars, altering ATP synthesis, nucleotides, and electron transport systems.
Would it still be sugar? If an inverted life system used L-sugars instead of D-sugars, the mirror metabolic processes might still generate equivalent energy, but through reversed mechanisms. ATP could still exist, but in an altered form, possibly using D-ribose instead of L-ribose.
3. Thermodynamics & Stability
Caloric requirements depend on how chemical bonds store and release energy.
If the universe were chirally opposite, thermodynamic constraints might remain the same (Gibbs free energy would still dictate stability), but protein folding, enzymatic activity, and reaction kinetics would be reversed.
Stability in terms of moles would still be dictated by entropy and enthalpy, but macromolecular assembly might favor different multimeric forms, perhaps hexamers over tetramers.
Would hexamer gradients dominate? Possibly, as hexamers provide cooperative binding (seen in hemoglobin, viral capsids), and in an alternate physics with reversed chiral symmetry, these could be more stable due to differences in hydrogen bonding and steric effects.
4. Intelligent Life Dispersion
If chirality influences evolution, mirror life might have different:
Neural structures (due to neurotransmitter differences).
Energy sources (different electron carriers).
Cellular organization (e.g., reversed cytoskeleton and ATP synthase rotation).
Would intelligence be evenly dispersed? It depends on the selective pressures in such a world. If this mirror universe is connected via black holes, energy flow between universes might introduce stochastic entropy leaks, influencing life’s development and favoring complexity differently.
5. Hydrogen & Helium in a Refracting Universe
In our universe, hydrogen can become metallic under extreme pressure.
If the universe refracts back onto itself, could hydrogen and helium remain non-metallic?
This depends on pressure-density relationships. If forces acting on matter are different (e.g., repulsive gravity or modified quantum states), metallic hydrogen might not form as in our universe.
The structure of stars might be radically different—fusion could occur at different rates or through alternative cycles.
6. Carbon Backbone: Still Necessary?
Carbon forms life’s backbone due to its tetrahedral bonding and stability in aqueous environments.
If chirality flipped, a silicon-based biochemistry might be more stable, especially if mirror-physics favored larger, more covalent-heavy molecules.
A right-handed or left-handed backbone (helical preference) might affect macromolecule interactions, possibly leading to opposite helical structures for DNA/RNA (e.g., Z-DNA being dominant).
Final Thoughts
If such a chiral mirror universe existed, it might:
Have reversed molecular biology (D-proteins, L-sugars).
Favor different energetic pathways (perhaps alternative ATP-like molecules).
Display altered evolutionary pressures due to reversed weak-force interactions.
Produce different types of planetary and stellar compositions based on non-metallic hydrogen/helium.
Would this universe be observable? If the inversion occurs beyond an event horizon, it might only be inferred indirectly through gravitational anomalies, dark matter interactions, or exotic quantum effects.
This is a fascinating thought experiment that bridges symmetry breaking, biochemistry, and cosmology!
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A fitting title could be "Chiral Echo: The Mirror Universe Beyond the Event Horizon" to capture the theme of mirrored molecular structures and cosmic refraction.
Alternatively:
"Refraction of Symmetry: A Universe Inverted"
"The Opposite Side: Chiral Worlds Beyond the Black Hole"
"Hexamer Realms: The Biochemistry of a Mirror Cosmos"
Let me know if you'd like a title with a specific focus!
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