IGF1 DES 1mg

$49.99

  • 1mg
  • Made in the USA
75 Items sold in last 30 days
Add $69.99 to cart and get free shipping!
Purchase this product now and earn 50 Points!
SKU: PEP0007 Category:
Buy 5, save 10%
Buy 10 or more, save 15%!
Description

Buy IGF1 DES Online

IGF1 DES is a variant of the insulin-like growth factor 1 (IGF-1) protein, which has garnered significant interest in scientific research due to its unique properties and extensive applications. IGF1 DES is particularly noted for its high potency and ability to stimulate muscle growth and repair. This makes it an invaluable tool for studying various physiological processes and their underlying mechanisms.

Structural Composition and Mechanism of Action

IGF1 DES is a truncated version of IGF-1, consisting of 67 amino acids compared to the 70 amino acids in the full-length IGF-1. This slight modification increases its biological activity by reducing its binding affinity to IGF-binding proteins. This allows IGF1 DES to exert stronger and more prolonged effects on target tissues.

The primary mechanism of action for IGF1 DES involves binding to the IGF-1 receptor on the surface of cells. This binding activates intracellular signaling pathways, particularly the PI3K-AKT pathway, which plays a crucial role in cellular growth, differentiation, and survival. By activating these pathways, IGF1 DES promotes anabolic processes, making it a valuable compound for research focused on muscle and tissue growth.

Key Research Areas

  1. Muscle Growth and Repair: One of the primary research areas for IGF1 DES is its impact on muscle growth and repair. Researchers are particularly interested in how IGF1 DES stimulates muscle hypertrophy and accelerates muscle recovery. Studies focus on understanding the molecular mechanisms behind these processes and exploring the potential applications of IGF1 DES in muscle physiology research.
  2. Cellular Differentiation and Growth: IGF1 DES is extensively studied for its effects on cellular differentiation and growth. By influencing the IGF-1 receptor, IGF1 DES can promote the differentiation of various cell types, including muscle cells, osteoblasts, and neurons. Researchers investigate how IGF1 DES modulates these processes and its potential applications in regenerative medicine and tissue engineering.
  3. Neuroprotective Effects: Another significant area of research involves the neuroprotective effects of IGF1 DES. IGF-1 is known to have protective effects on neural tissues, and IGF1 DES’s ability to mimic these effects makes it an attractive candidate for studying neuroprotection. Researchers explore how IGF1 DES impacts neural cells and its potential implications for neurodegenerative diseases.
  4. Bone Density and Health: IGF1 DES’s effects on bone density and health are also a critical area of study. IGF-1 plays a key role in bone growth and remodeling, and IGF1 DES’s enhanced activity makes it a valuable tool for investigating bone metabolism. Researchers examine how IGF1 DES influences bone density and its potential applications in conditions like osteoporosis.
  5. Metabolic Studies: The role of IGF1 DES in metabolic regulation is another key area of interest. By influencing insulin-like growth factor pathways, IGF1 DES can affect various metabolic processes, including glucose metabolism and lipid metabolism. Researchers investigate how IGF1 DES modulates these pathways and its potential implications for metabolic disorders.

Applications in Scientific Research

IGF1 DES is widely used in scientific research due to its potent effects on muscle growth, cellular differentiation, neuroprotection, bone health, and metabolism. Its applications span multiple fields, including muscle physiology, regenerative medicine, neurobiology, and metabolic research.

In muscle physiology, IGF1 DES is used to study the mechanisms of muscle growth and repair. Researchers investigate how IGF1 DES promotes muscle hypertrophy and accelerates muscle recovery, providing insights into muscle biology and potential therapeutic applications.

In regenerative medicine, IGF1 DES’s role in cellular differentiation and growth is a key focus. Studies explore how IGF1 DES influences the differentiation of various cell types and its applications in tissue engineering and regenerative therapies.

In neurobiology, IGF1 DES’s neuroprotective properties are examined. Researchers study how IGF1 DES impacts neural cell health and its potential applications in neurodegenerative disease models.

In bone health research, IGF1 DES is utilized to explore its effects on bone density and metabolism. Studies focus on how IGF1 DES modulates bone growth and maintenance, offering potential applications in treating bone-related conditions.

In metabolic research, IGF1 DES’s role in regulating metabolic pathways is investigated. Studies explore how IGF1 DES affects glucose and lipid metabolism, providing insights into metabolic regulation and potential treatments for metabolic disorders.

Conclusion

IGF1 DES is a powerful variant of the IGF-1 protein with significant potential in scientific research. Its ability to stimulate muscle growth, promote cellular differentiation, protect neural cells, enhance bone health, and regulate metabolic processes makes it invaluable for studying various physiological mechanisms. As research continues, IGF1 DES remains a critical focus for advancing our understanding of these complex biological processes and their potential applications.

Read more about IGF1 Des on Wikipedia

Molecular Formula C319H501N91O96S7
Molecular Weight 7371.4
CAS N/A
Terms The products we offer are intended for laboratory research use only. Please familiarize yourself with our terms of service prior to ordering.

ALL PRODUCTS OFFERED ON THIS WEBSITE ARE INTENDED FOR LABORATORY RESEARCH USE ONLY

Additional information
Weight 0.001 g
Shipping & Delivery
Free Shipping: 6 to 7 Days
Priority: 3 to 5 Days
Express: 1 to 2 days