BRS4-FM5-PM7 - Mitochondrial Biogenesis
1. Definition
Formation of new mitochondria through pathways such as PGC-1α, AMPK, and related transcriptional regulators.
Within BRS4, this PM captures longer-term mitochondrial capacity building, where exercise and repeated signalling drive adaptation while diet provides permissive substrate and cofactor support through BRS4(FM5) - Mitochondrial Capacity Expansion & Adaptation [1][2][3].
2. Target Functional Outcome / Phenome
These mappings are translational relationships, not single-mechanism outcome claims. Phenomes are emergent functional patterns supported by multiple interacting PMs across the BRAIN Framework.
No direct functional outcome relationship currently mapped.
3. Intervention Breakdown
Behavioural/Lifestyle Dominant
4. Functional Role
↑ mitochondrial density; ↑ energy capacity
5. Mechanistic Basis
Summary
BRS4-FM5-PM7 links repeated exercise and adaptation signals to greater mitochondrial density and long-term energetic capacity, with nutrition acting as enabling support rather than the primary driver [1][2][3].
Mitochondrial biogenesis and adaptive capacity
(Adaptation rather than acute fuel effect)
Mitochondrial biogenesis is a built adaptation: it depends on repeated signalling, training stimulus, and recovery rather than a single meal-level intervention.
(Diet as permissive context)
Adequate energy intake, B-vitamin support, and magnesium help create the biochemical environment in which adaptive mitochondrial expansion can proceed, while polyphenols and related signals may provide secondary support [1][2][3].
(Cross-BRS context)
Because broader glucose appearance and feeding-state context affect adaptation signalling, this PM links outward to BRS6-FM1-PM1 - Glucose Appearance Kinetics.
6. Connected BRS4 Mechanisms
6.1 Overarching Functional Mechanism
6.2 Connected Primary Mechanisms
- None listed
7. Connected Mechanisms
8. Dietary Levers
8.1 Direct Dietary Levers
- NAD⁺-supportive nutrition ← niacin-rich foods and protein-rich whole foods
- Micronutrient support ← whole grains, legumes, leafy greens, animal foods
- Polyphenol-rich foods ← berries, tea, extra virgin olive oil
8.2 Cofactors and Supporting Inputs
- B2
- B3
- magnesium
8.3 KCs (Key Constraints)
9. Lifestyle Levers
Lifestyle
- Exercise is the primary signal for this PM.
- Recovery quality, sleep, and repeated training exposure matter more than meal-level optimisation alone.
10. Scoreable Inputs & Modulation Signals
This PM is scoreable primarily through lifestyle-adaptation signals, with diet contributing permissive support.
Scoreable Input Categories
| Input Category | Example Inputs | PM2 Relevance |
|---|---|---|
| Functional Property Potentials | training_adaptation_support; mitochondrial_cofactor_density | May support mitochondrial biogenesis capacity. |
| Realised Functional States | adequate_recovery_context; consistent_training_pattern | Reflect adaptation conditions relevant to this PM. |
| Preparation Transformations | whole_food_matrix; minimally_processed | Helps preserve supportive nutrient density. |