Foods (Sep 2024)

A Review of Electromagnetic Fields in Cellular Interactions and Cacao Bean Fermentation

  • Tania María Guzmán-Armenteros,
  • Jenny Ruales,
  • Luis Ramos-Guerrero

DOI
https://doi.org/10.3390/foods13193058
Journal volume & issue
Vol. 13, no. 19
p. 3058

Abstract

Read online

The influence of magnetic fields on biological systems, including fermentation processes and cocoa bean fermentation, is an area of study that is under development. Mechanisms, such as magnetosensitivity, protein conformational changes, changes to cellular biophysical properties, ROS production, regulation of gene expression, and epigenetic modifications, have been identified to explain how magnetic fields affect microorganisms and cellular processes. These mechanisms can alter enzyme activity, protein stability, cell signaling, intercellular communication, and oxidative stress. In cacao fermentation, electromagnetic fields offer a potential means to enhance the sensory attributes of chocolate by modulating microbial metabolism and optimizing flavor and aroma development. This area of study offers possibilities for innovation and the creation of premium food products. In this review, these aspects will be explored systematically and illustratively.

Keywords