Molecular Dynamics Simulation from Symmetry Breaking Changing to Asymmetrical Phospholipid Membranes Due to Variable Capacitors during Resonance with Helical Proteins

Biological symmetry breaking is a mechanism in biosystems that necessary for human survival, and depends on chemical physics concepts at both microscopic macroscopic scales. In this work, we present few mechanisms of the signaling phenomenon have been studied various tissues origin. We exhibit anatomical asymmetry structure membrane can produce flow extracellular fluid. Furthermore, misbalance composition aqueous phases interaction forces with protein trans-membrane. Various biological membranes such as DPPC, DMPC, DLPC, so on, considerable electrostatic voltages extend across phosphor lipids bilayer. For studying these phenomena, modeled DLPC lipid bilayers net charge phospholipids. Because asymmetric create shifted among tissues, effect makes misbalances cause voltage 1.3 V DPPC bilayer 0.8 DMPC This subject exhibits importance structures potential gradients. Finally, exhibited quantum was created small parts cell’s thickness due to asymmetrical phospholipid bilayers.