A reaction-diffusion simulation in finite 2D domains indicates that boundary constraints and spatial coupling can drive chiral domain formation and geometry-dependent stereochemical organization.
L -Amino Acids Promote Calcitonin Release via a Calcium-Sensing Receptor: Gq/11-Mediated Pathway in Human C -Cells
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Spatial confinement and boundary constraints governing biological chirality: a simulation study
A reaction-diffusion simulation in finite 2D domains indicates that boundary constraints and spatial coupling can drive chiral domain formation and geometry-dependent stereochemical organization.