Side-by-side comparison of mechanisms, dosing, interactions, and stacking potential.
| Betaine (TMG / Trimethylglycine) | Sodium Bicarbonate | |
|---|---|---|
| Category | Training Compounds | Training Compounds |
| Standard Dose | 2500mg (2.5g) daily | — |
| Timing | Split AM/PM or pre-workout. When used as methyl donor with NMN/NR, take with the NAD+ precursor. | — |
| Cycle Duration | ongoing | — |
| Evidence Level | moderate_human | Strong |
Betaine (trimethylglycine) serves as a methyl donor in the betaine-homocysteine methyltransferase (BHMT) reaction, converting homocysteine to methionine — this is the alternative methyl cycle pathway (parallel to the folate-dependent methionine synthase pathway). It functions as an osmolyte, protecting cells from osmotic stress by maintaining intracellular water balance (critical for kidney medulla and muscle cells). Athletic performance benefits likely derive from enhanced creatine synthesis (methyl donation), improved power output via osmotic cell protection, and reduced homocysteine-mediated vascular impairment.
2500mg (2.5g) daily
Split AM/PM or pre-workout. When used as methyl donor with NMN/NR, take with the NAD+ precursor.
ongoing
Extracellular buffer that increases bicarbonate availability and can improve repeated high-intensity performance by delaying acidosis.
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