GAA science – Research Library

Research Articles

Brings forth the most in-depth body of knowledge relating to guanidinoacetic acid metabolism, pathophysiology and nutritional supplementation

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Review Articles

Summarizing recent progress in guanidinoacetic acid research, from its role in neuromuscular diseases to GAA shortfall in clinical medicine

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Fasting reduces GAA levels

September 10, 2023 Human Nutrition

The authors studied the effects of 24-h fasting on serum levels of GAA, creatine, and creatinine in 24 non-vegetarian…

Arginine, GAA and citrulline for bone morphology

August 01, 2023 Feed Additive

The alterations in feed ingredients and the nutrient matrix to produce reduced-protein diets may affect bone morphology and mineralization…

GAA, fermentation and nutrient flow

July 10, 2023 Feed Additive

Eight dual-flow continuous culture fermenters were used in 2 periods (7 adaptation and 3 sampling days) to evaluate the…

GAA and gas composition

June 27, 2023 Feed Additive

This study explores whether guanidinoacetic acid (GAA) addition can regulate nutrient degradability, rumen fermentation characteristics, and gas composition in…

About GAA Science

GAA-science.com is an educational portal established to collect, classify and present the scientific studies on guanidinoacetic acid (GAA) in one place. The papers are collected from peer-reviewed academic journals and publications, and relevant scientific events.

Our mission is to collect unbiased data and provide current best evidence in making decisions about the use of GAA in health and disease.

Physiological roles of GAA

GAA could affect many aspects of human metabolism, including cellular bioenergetics, neuromodulation, or oxidant-antioxidant status.

Latest events

23rd European Symposium on Poultry Nutrition (ESPN 2023)

21-24 June 2023

CCDS Virtual Conference

07-08 August 2020

6th EAAP International Symposium on Energy and Protein Metabolism and Nutrition

09-12 September 2019

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JOURNAL ARTICLES

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HUMAN TRIALS

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Papers in 2023

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).

PubChem Summary

Age related reference values for urine creatine and GAA in children

Carla Valongo, Maria Luís Cardoso, Pedro Domingues, et al.

Publisher's website

Creatine and GAA transport at blood-brain and and blood‐CSF barriers

Olivier Braissant

Publisher's website

Tackling guanidinoacetic acid for advanced cellular bioenergetics

Sergej M Ostojic

Publisher's website

Creatine and guanidinoacetate content of human milk and infant formulas

Erica E Edison, Margaret E Brosnan, Khalid Aziz, John T Brosnan

Publisher's website

Dr. Sergej Ostojic

GAA-science.com was created and administered by a research group headed by Sergej M. Ostojic, MD, PhD, Professor of Nutrition at the University of Agder and the University of Novi Sad, who has been involved in GAA research for over a decade.