An introduction to DNA

• Structure and function

• Base pairs

• Codons

• Gene expression: the interface between transcription factors, RNA and mRNA Mitochondrial interface 

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The role of light

• Tubulin, gap junctions and cell to cell communication

• Vitamins, minerals, enzymes, the role of maximum wavelength absorption

• Epigenetics and light

• Neurotransmission and light

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Gene expression and energy generation

• Aerobic versus anaerobic energy generation, the role of polarisation, light and H+

• The Krebs cycle

• Oxidative phosphorylation

• Generation of Reactive Oxygen species and the significance of ROS generation in respect of overall health and energy levels

• What can go wrong: an exploration of photonics, polarisation and potential pathology

 

Trauma and its downstream effects on systems biology and photonics

 

The interface between gene expression and the Hypothalamic/ Pituitary/ Adrenal axis and detoxification capacity

• The role of the HPA axis in homeostasis

• The role of the hypothalamus, its regulating nodes and set point

• A deep dive into liver function: the role of CYP450 phase 1 liver enzymes, methylation and conjugation pathways in the stabilisation of the genome and its effects on health

• The role of polarity, fourth phase water and light

• Interface between gene expression and immune balance and tolerance, with specific reference to autoimmunity, autoinflammation and chronic complex disease and quantum biological considerations: proton tunnelling and the role of H+

• The synchrony of the innate and immune response in detail. The role of inflammation and its significance T cells, B cell, Natural Killer cells, T Regulatory cells and cellular communication. Putting it all together: the relationship between immune function, detoxification capacity, energy generation and genomic expression and health and what it means for the clients healing process