Neurolinguistic Programming of Synthetic Biology Systems: A Linguistic-Driven Paradigm for Bio-Circuit Control

Abstract

This paper proposes a revolutionary approach to synthetic biology by introducing linguistic inputs as a direct mechanism for controlling biological circuits, bypassing traditional genetic manipulation. Unlike conventional methods that edit DNA sequences or rely on computational intermediaries, this framework harnesses neurolinguistic principles to construct, regulate, and adapt bioengineered systems. By integrating computational neurolinguistics, cognitive signal processing, and synthetic biomolecular engineering, we envision a transformative interface where human language orchestrates biological function. This paradigm establishes an unexplored subdiscipline at the nexus of linguistic computation and bio-automation, with applications ranging from programmable therapeutics to bio-intelligent systems. Distinct from molecular or software-based programming, this methodology redefines human-biological interaction through cognitive intent alone.