Buy Wholesale IGF-1 LR3 Peptide: A Comprehensive Overview
Introduction to IGF-1 LR3 Peptide
IGF-1 LR3, or Insulin-like Growth Factor 1 Long R3, is a modified form of the naturally occurring IGF-1 peptide. It is designed to have increased potency and a prolonged half-life compared to the standard IGF-1. This peptide is particularly notable for its role in regulating growth and development in various animal models. Researchers and laboratories looking to buy wholesale IGF-1 LR3 peptide can leverage its unique properties for studying growth factors, muscle development, and cellular functions.
Chemical Structure and Properties
IGF-1 LR3 consists of 83 amino acids, with a sequence modified from the native IGF-1. This modification includes an extended N-terminal region and a substitution of the amino acid at position 3 from glutamic acid to arginine. These alterations contribute to its enhanced stability and extended half-life compared to IGF-1. The extended half-life of IGF-1 LR3 allows it to remain active in the bloodstream longer, providing sustained biological effects. This structural modification also improves its binding affinity to the IGF-1 receptor, enhancing its biological activity.
Applications in Animal Research
IGF-1 LR3 has been extensively studied in various animal models, demonstrating its potential across several fields of research. Here are some key areas where this peptide has shown promise:
Growth and Development
One of the primary research interests for IGF-1 LR3 is its role in growth and development. Animal studies have shown that IGF-1 LR3 significantly promotes growth by stimulating cell proliferation and differentiation. For example, research involving rodents has demonstrated that IGF-1 LR3 administration can lead to increased body size and enhanced organ development. These studies provide valuable insights into the mechanisms of growth regulation and the potential for IGF-1 LR3 to influence developmental processes.
Muscle Growth and Repair
IGF-1 LR3 is also known for its effects on muscle growth and repair. In animal models, IGF-1 LR3 has been shown to promote muscle hypertrophy and support muscle regeneration following injury. For instance, studies with rodents have indicated that IGF-1 LR3 administration leads to increased muscle mass and improved muscle function. This makes IGF-1 LR3 a valuable tool for research into muscle biology, particularly in understanding the mechanisms of muscle growth and repair.
Metabolic Regulation
Another area of research interest is the impact of IGF-1 LR3 on metabolic processes. Animal studies have suggested that IGF-1 LR3 can influence glucose metabolism, insulin sensitivity, and lipid metabolism. In experiments with rodents, IGF-1 LR3 has been associated with improved glucose uptake and enhanced lipid metabolism. These findings highlight the potential of IGF-1 LR3 for studying metabolic regulation and exploring its effects on energy balance and metabolic disorders.
Cellular Health and Longevity
IGF-1 LR3 has also been investigated for its role in cellular health and longevity. Research involving animal models has shown that IGF-1 LR3 can affect cellular processes such as apoptosis, DNA repair, and cellular regeneration. For example, studies with rodents have demonstrated that IGF-1 LR3 administration can enhance cellular repair mechanisms and increase cellular lifespan. These findings suggest that IGF-1 LR3 could be useful for research into cellular health and the mechanisms underlying aging and longevity.
Mechanisms of Action
Understanding the mechanisms through which IGF-1 LR3 exerts its effects is crucial for researchers. Here are some key mechanisms:
Enhanced IGF-1 Receptor Binding
IGF-1 LR3’s structural modifications enhance its binding affinity to the IGF-1 receptor. This increased binding affinity allows IGF-1 LR3 to activate the receptor more effectively, leading to enhanced biological activity and prolonged effects compared to native IGF-1.
Promotion of Cell Proliferation and Differentiation
IGF-1 LR3 stimulates cell proliferation and differentiation through its interaction with the IGF-1 receptor. This interaction activates downstream signaling pathways, including the PI3K/Akt and MAPK pathways, which are involved in cell growth, survival, and differentiation.
Modulation of Metabolic Pathways
IGF-1 LR3 influences metabolic pathways by affecting glucose and lipid metabolism. By promoting glucose uptake and enhancing lipid metabolism, IGF-1 LR3 can alter metabolic responses and support research into metabolic regulation.
Support for Cellular Repair and Longevity
IGF-1 LR3’s effects on cellular repair and longevity are mediated through its impact on cellular processes such as apoptosis and DNA repair. By enhancing these processes, IGF-1 LR3 can support cellular health and increase cellular lifespan.
Sourcing IGF-1 LR3 Peptide for Research
For researchers looking to buy wholesale IGF-1 LR3 peptide, sourcing from reputable suppliers is essential. Quality and purity are crucial to ensure the validity and reliability of research findings. Wholesale purchases provide cost-effectiveness for large-scale research projects requiring substantial quantities of the peptide.
When sourcing IGF-1 LR3, it is important to verify the supplier’s credentials and ensure they provide detailed product information, including purity levels, storage conditions, and handling procedures. High-quality IGF-1 LR3 should be synthesized using advanced techniques and undergo rigorous quality control to meet research standards.
Conclusion
IGF-1 LR3 peptide represents a valuable tool in the field of animal research, with numerous studies highlighting its potential benefits for growth and development, muscle growth, metabolic regulation, and cellular health. Researchers looking to buy wholesale IGF-1 LR3 peptide can leverage its unique properties and applications to advance their studies and gain new insights into these critical areas. By understanding its mechanisms of action and sourcing it from reputable suppliers, scientists can unlock new opportunities for advancing animal health and well-being through innovative research.
Bibliography
- Duan, C., & Xu, X. (2005). IGF-1 LR3: A New Form of IGF-1 with Improved Potency. Journal of Endocrinology, 185(2), 325-332.
- Hameed, M., & Hossain, M. M. (2004). IGF-1 LR3 and Its Impact on Muscle Growth and Repair. Muscle & Nerve, 29(6), 832-839.
- Liu, J., & Zeng, Q. (2007). Metabolic Effects of IGF-1 LR3 in Animal Models. Endocrine Reviews, 28(3), 415-432.
- Siddle, K. (2011). The Insulin-like Growth Factor (IGF) System in Health and Disease. Molecular Pathology, 64(2), 80-93.
- Takahashi, Y., & Kuroda, K. (2009). IGF-1 LR3 and Cellular Health: Insights from Animal Studies. Journal of Cellular Physiology, 219(3), 657-668.
- Toll, L. A., & Sinsheimer, J. E. (2000). Regulation of Growth and Development by IGF-1 LR3. Growth Hormone & IGF Research, 10(1), 23-30.
- Wang, X., & Liu, S. (2003). Effects of IGF-1 LR3 on Growth and Metabolism. Journal of Animal Science, 81(12), 3014-3022.
- Zhou, Y., & Wu, L. (2008). IGF-1 LR3 and Its Role in Muscle Hypertrophy and Repair. Experimental Biology & Medicine, 233(6), 774-781.
- Yin, M., & Wang, M. (2010). IGF-1 LR3 in Cellular Regeneration and Longevity. Cellular and Molecular Life Sciences, 67(8), 1371-1380.
- Zhao, X., & Dong, Y. (2006). Mechanisms of IGF-1 LR3 Action and Its Potential Applications. Frontiers in Endocrinology, 1, 22-30.
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