

GAA intake affects free amino acid profile
As a nutritive feed additive, guanidine acetic acid (GAA) participates in the metabolism of energy and proteins. This study…


GAA as multiple sclerosis therapeutics
Tackling impaired bioenergetics in multiple sclerosis (MS) has been recently recognized as an innovative approach with therapeutic potential. GAA…


Degradation of GAA in engineered cells
Here the authors report the engineering of human red blood cells with an entire metabolic pathway as a potential…


Dietary GAA and growth in lambs
Guanidinoacetic acid (GAA) is the only precursor for the creatine synthesis of vertebrates. Creatine (Cr) and phosphocreatine (PCr) are…
About GAA Science


Physiological roles of GAA
GAA could affect many aspects of human metabolism, including cellular bioenergetics, neuromodulation, or oxidant-antioxidant status.
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GAA Fundamentals
Guanidinoacetic acid (also known as glycocyamine or betacyamine) is a normal constituent of human blood, urine, and breast milk.
Being a natural amino acid derivative and a metabolite in the urea cycle, GAA also appears as an intermediate in metabolic pathways of several amino acids, including glycine, serine and arginine. GAA is direct precursor of creatine, a key substrate for cellular energy.
- CAS Registry # 362-97-6
- PubChem CID 763
- Chemical formula C3H7N3O2
- Molar mass 117.1 g/mol
The natural daily turnover of GAA is balanced between endogenous production and kidney excretion; only a minimal amount of GAA is available from food sources (e.g. 10 mg of GAA per kg of meat).
Dr. Sergej Ostojic
GAA-science.com was created and administered by a research group headed by Sergej M. Ostojic, MD, PhD, Professor of Biomedical Sciences at the University of Novi Sad and the University of Belgrade, who has been involved in GAA research for many years.
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