DNA as a quantum system in evolution
Fig 2
Quantum state evolution of DNA under varying conditions of cosmic perturbations.
(A) Quantum amplitude distributions without external perturbations. Coding regions (not shown) exhibit more stable and uniform amplitude values, reflecting their role as stable quantum circuits. Non-coding regions display broader variability in amplitudes (T-test, p = 2.76 × 10^-56). (B) Evolution of quantum states under external perturbations (34 GHz cosmic radiation), simulated over the first 1,000 steps. (C) Power spectrum analysis of phase oscillations under external perturbations with a simulated Doppler-shifted 34 GHz signal. The Fast Fourier Transform (FFT) was applied to the phase data to compute the spectral power, highlighting how DNA regions respond to specific frequency ranges. The average power ratio (real data: 2.77, control: 1.32) showed that different DNA regions have distinct behavior.