Discover the power of Recombinant Human Insulin Like Growth Factor-I Receptor, a premium-quality biochemical that unlocks new possibilities in cellular and molecular biology research. This versatile compound, with the CAS number Not Available and Ref # 54-BITP1382, boasts exceptional purity and reliability, making it an indispensable tool for your scientific endeavors. Crafted with meticulous attention to detail, this recombinant receptor offers a unique blend of functionality and precision, allowing you to explore the intricate mechanisms of growth factor signaling with unparalleled accuracy. Embrace the potential of this remarkable biochemical and elevate your research to new heights, all while navigating the complexities with ease.
Caution: This product is classified as an irritant, so handle with care and ensure proper safety measures are in place.
Unlock the power of cellular signaling with our Recombinant Human Insulin Like Growth Factor-I Receptor, a meticulously crafted biochemical marvel that holds the key to unlocking new frontiers in scientific research. This versatile receptor, identified by the reference number 54-BITP1382, is a testament to the relentless pursuit of excellence in the realm of cellular and molecular biology.
At the heart of this remarkable compound lies a profound understanding of the intricate mechanisms that govern cellular communication and growth. The Recombinant Human Insulin Like Growth Factor-I Receptor, or IGF-1R, is a transmembrane protein that plays a pivotal role in mediating the effects of insulin-like growth factor-I (IGF-I), a crucial signaling molecule involved in a wide range of physiological processes. By harnessing the power of this receptor, researchers can delve deeper into the complex interplay between cellular signaling pathways, paving the way for groundbreaking discoveries in fields such as endocrinology, oncology, and regenerative medicine.
The Recombinant Human Insulin Like Growth Factor-I Receptor is a masterpiece of molecular engineering, crafted to mimic the natural structure and function of its native counterpart. Its high purity and precise recombinant nature ensure reliable and consistent results, empowering researchers to explore the intricate mechanisms that govern cellular growth, differentiation, and survival.
This receptor's versatility extends beyond its primary function, as it can also serve as a valuable tool in the development of novel therapeutic strategies. By understanding the role of IGF-1R in various disease states, scientists can devise innovative approaches to target and modulate its activity, potentially leading to groundbreaking treatments for conditions ranging from metabolic disorders to cancer.
The Recombinant Human Insulin Like Growth Factor-I Receptor is not merely a biochemical compound; it is a gateway to a world of scientific discovery. By incorporating this receptor into their research, scientists can delve into the complex interplay between cellular signaling pathways, unraveling the mysteries that underlie human health and disease.
Whether you are a seasoned researcher or a budding scientist, the Recombinant Human Insulin Like Growth Factor-I Receptor offers a wealth of opportunities to push the boundaries of your work. Its high purity, consistent performance, and versatile applications make it an indispensable tool in the arsenal of any laboratory dedicated to advancing the frontiers of cellular and molecular biology.
Embark on a journey of scientific exploration with the Recombinant Human Insulin Like Growth Factor-I Receptor. This exceptional compound, with its CAS number not available and reference number 54-BITP1382, is a testament to the relentless pursuit of excellence in the field of biochemistry. Unlock the potential of your research and unlock the secrets of cellular communication by incorporating this remarkable receptor into your experimental design.
Discover the transformative power of the Recombinant Human Insulin Like Growth Factor-I Receptor and unlock new possibilities in your scientific endeavors. Elevate your research to new heights and contribute to the advancement of our understanding of the human body and its intricate workings.