Stable isotope labeling allows researchers to study metabolic pathways in vivo in a safe manner.
Stable isotope-labeled compounds are used as environmental pollutant standards for the detection of air, water, soil, sediment and food.
In addition to treating various diseases, isotopes are used for imaging, diagnosis, and newborn screening.
Small molecule compounds labeled with stable isotopes can be used as chemical reference for chemical identification, qualitative, quantitative, detection, etc. Various types of NMR solvents can be used to study the structure, reaction mechanism and reaction kinetics of compounds.
Stable isotope labeling allows researchers to study metabolic pathways in vivo in a safe manner.
Stable isotope-labeled compounds are used as environmental pollutant standards for the detection of air, water, soil, sediment and food.
General Information |
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Catalog: BLP-007072 |
Molecular Formula: C5[13C]H12O6 |
Molecular Weight: 181.15 |
Chemical Structure |
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Description | Isotope labelled analogue of D-Allose is a rare naturally occurring monosaccharide, known to exert anti-proliferative effects on cancer cells. |
Synonyms | D-Allose-3-13C; D-[3-13C]allose |
Related CAS | 2595-97-3 (non-labeled) |
D-Allose-[3-13C], a stable isotope-labeled sugar molecule, serves as a versatile tracer in a multitude of biochemical and physiological investigations. Here are the key applications of D-Allose-[3-13C]:
Metabolic Pathway Tracking: Delving into cellular systems, D-Allose-[3-13C] emerges as a pivotal tool for tracing metabolic pathways. By integrating this labeled sugar, researchers unveil the intricate conversion processes and pinpoint the pivotal stages within metabolic pathways. This meticulous tracking sheds light on metabolic fluxes and amplifies insights into the nuanced regulation of biochemical processes.
Glycobiology Research: Stepping into the realms of glycobiology, D-Allose-[3-13C] takes center stage in unraveling the mysteries of complex carbohydrates. The isotopic label acts as a beacon, guiding researchers through the labyrinth of allose incorporation into glycoproteins and glycolipids. This elucidation aids in unveiling the functional intricacies of sugars in cellular recognition, signaling pathways, and immune responses, painting a vivid portrait of cellular interactions.
Structural Biology: Unlocking the secrets of structural dynamics, D-Allose-[3-13C] becomes a cornerstone in NMR spectroscopy studies. The 13C label elevates the resolution of NMR signals, unveiling a tapestry of molecular interactions and conformational changes. This granular insight is indispensable for deciphering the intimate relationships between structure and function within biomolecules, paving the way for groundbreaking discoveries in the field of structural biology.
Nutrition and Health Research: Embarking on a journey through nutrition and health, researchers harness the power of D-Allose-[3-13C] to explore the effects of rare sugars on human physiology. By meticulously tracking the labeled allose, scientists unravel its impact on glucose metabolism and insulin responses. These studies offer a treasure trove of insights into the potential health benefits of rare sugars, offering new avenues for managing conditions like diabetes and obesity through innovative therapeutic approaches.
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