Wave and quantum properties of peptide strings: defining a helix in spacetime

TL;DR

This paper introduces a quantitative framework for peptide strings, proposing they propagate via wave phenomena governed by quantum principles, with potential applications in medicine and quantum optics.

Contribution

It is the first study to quantify peptide string phenomena and link their propagation to wave and quantum mechanics.

Findings

Peptide strings propagate as waves influenced by Planck's energy equation.

Quantitative modeling of peptide strings opens new avenues in molecular medicine.

Potential applications in quantum optics are identified.

Abstract

Previous studies have described the concept of peptide strings in qualitative terms and illustrated it by applying its corrolaries in order to elucidate basic questions in oncology and rheumatology. The present investigation is the first to quantify these potential sub- and transcellular phenomena. Accordingly, the propagation of peptide strings is proposed here to occur by way of waves that in turn are subject to the energy equation established by Planck. As a result of these insights, widespread future applications can now be envisaged for peptide strings both in molecular medicine and quantum optics.