Unlocking Cancer’s Code: DNA Methylation, Repair, and Electromagnetic Forces

Introduction

Cancer is a formidable enemy, capable of hijacking biological processes, disrupting cellular functions, and exploiting genetic vulnerabilities. Central to its destructive prowess is the interplay between DNA methylation, gene expression, and DNA repair mechanisms. This article delves into how targeting these processes, along with the innovative application of electromagnetic forces, can create a comprehensive and potent framework for cancer treatment.

1. The Role of DNA Methylation in Cancer

Epigenetic Regulation:

DNA methylation is a crucial epigenetic mechanism that regulates gene expression. Proper methylation patterns ensure that tumor suppressor genes are active, while oncogenes are kept in check. In cancer, however, these patterns are often disrupted, leading to the silencing of protective genes and the activation of pathways that promote tumor growth and metastasis.

Cancer as a Disruptor:

Cancer cells manipulate methylation processes to create a chaotic epigenetic landscape that favors tumor survival, reinforcing cancer's role as a destructive force within the body.

2. Leveraging DNA Repair Mechanisms