IGF-1 LR3 1mg Peptides Europe – Purity HPLC ≥99%
🌟 Redefining Standards in Biomedical Research
Long-R3-IGF-I, the analogue of Insulin-like Growth Factor-I (IGF-I) with human Arginine at position 3, is an advanced research molecule in the fields of biotechnology and biomedical sciences.
Its optimized structure enables in-depth study of cellular regeneration, tissue proliferation, and key metabolic pathway modulation.
🧬 Cellular Stimulation & Regeneration
Long-R3-IGF-I promotes cell proliferation and differentiation, allowing researchers to explore:
🔹 Regeneration of damaged tissues
🔹 Cellular repair after stress or trauma
🔹 Maintenance of cellular homeostasis and health
💎 Exceptional Purity
Our peptide is extremely pure, with a purity level close to 99.9%, verified by HPLC, ensuring:
🔹 Reliability and consistency in experiments
🔹 Minimization of contaminants or impurities
🔹 Accurate and reproducible results for advanced research
💪 Protein Synthesis & Cellular Metabolism Modulation
Through its effect on protein synthesis, Long-R3-IGF-I is a valuable tool for analyzing:
🔹 Cellular hypertrophy and growth
🔹 Cellular response to stress or injury
🔹 Molecular mechanisms of tissue growth
⏱️ Extended Biological Half-Life
The N-terminal modification of the peptide provides:
🔹 Enhanced stability under experimental conditions
🔹 Prolonged activity, suitable for chronic or long-term studies
🔹 Improved reproducibility of results
🧫 Stability & Resistance to Degradation
The Arginine substitution at position 3 makes the peptide:
🔹 More resistant to degrading enzymes
🔹 Stable in various experimental models
🔹 Reliable for studying cellular and tissue biology
🔬 Research Applications
Long-R3-IGF-I is a preferred tool for advanced studies on:
IGF-I signaling and cell proliferation
Muscle and tissue biology
Bone and cartilage regeneration
Neuronal biology and neuroprotection
Cellular and metabolic pathway modulation
⚡ Additional Scientific Benefits
🌿 Analysis of anti-aging mechanisms at the cellular level
💧 Studies on metabolic regulation and growth factor sensitivity
🧠 Tools for research on neuronal plasticity and survival
⚠️ Research Use Only – Not for Human Consumption
This product is strictly intended for laboratory research purposes.
Not approved for human or veterinary use.
For use by qualified professionals only, following all appropriate handling and safety procedures.
📚 References
Wang, Q., Chen, W., & Strong, J. (2019). Military Medicine Research, 6(1), 1-10.
Hill, M., & Goldspink, G. (2003). Journal of Physiology, 549(2), 409–418.
Clayton, Z., & Brown, A. (2018). Int. J. Mol. Sci., 19(6), 1-19.
Kicman, A. T., & Cowan, D. A. (2003). Br. J. Pharmacol., 154(3), 502–521.
Sonntag, W. E., & Ramsey, M. (1998). Growth Hormone & IGF Research, 8(Suppl A), 133–142.