Adenosine 5'-triphosphate disodium salt (ATP-Na2), identified by CAS number 987-65-5, is a cornerstone molecule in life science research, primarily due to its pivotal role in cellular energy metabolism. This nucleotide derivative is synthesized within cells and serves as the primary carrier of chemical energy, fueling a vast array of biological processes. Understanding its scientific applications is crucial for researchers seeking to leverage its power in their laboratory work.

At its core, ATP-Na2 functions as an energy shuttle. The breaking of its high-energy phosphate bonds releases energy that cells utilize for activities such as muscle contraction, nerve impulse transmission, active transport of molecules across membranes, and the synthesis of essential compounds like DNA and proteins. This makes it an indispensable reagent for studying cellular energetics and metabolic pathways. Researchers looking to buy ATP Disodium Salt often seek it for its role in powering enzymatic reactions or maintaining cellular homeostasis.

In the realm of biochemistry, ATP-Na2 is a common substrate or cofactor for numerous enzymes. Its presence is critical for assays designed to measure enzyme activity, particularly those involved in energy metabolism or signaling cascades. For example, kinase assays, which are fundamental to understanding cell signaling and regulation, heavily rely on ATP as a phosphate donor. The availability of high-purity ATP-Na2 from a reliable supplier ensures that these assays are sensitive and reproducible.

Beyond energy transfer, ATP-Na2 also functions as an extracellular signaling molecule. It can bind to purinergic receptors on cell surfaces, triggering intracellular responses that modulate various physiological processes, including inflammation, immune responses, and cell growth. This signaling capacity opens up avenues for research in areas such as neuroscience and immunology, where understanding cell-to-cell communication is key. Researchers interested in these complex interactions often seek to purchase ATP Disodium Salt to stimulate or modulate these signaling pathways.

For drug discovery and development, ATP-Na2 can serve as a benchmark or a component in assay development. Its fundamental role in cellular energy makes it relevant for studying diseases where energy metabolism is disrupted. Pharmaceutical scientists might utilize ATP-Na2 in screening assays to identify compounds that modulate ATP-dependent enzymes or pathways. Sourcing this material from a trusted manufacturer in China or elsewhere ensures that the active pharmaceutical ingredient (API) development pipeline receives consistent, high-quality biochemicals.

When selecting ATP Disodium Salt, considering its physical properties is also important. It typically appears as a white powder and is soluble in water, making it easy to prepare solutions for experimental use. Storage recommendations, usually at low temperatures like -20°C due to its hygroscopic nature, are crucial for maintaining its stability and potency. By understanding these scientific nuances and partnering with reputable suppliers, laboratories can effectively utilize ATP-Na2 to drive their research forward.