Sodium urate | Solubility of Things

Identification

Molecular formula

C₅H₃N₄NaO₃

CAS number

69-93-2

IUPAC name

sodium;6,8-dioxo-7,9-dihydro-3H-purin-2-olate

State

At room temperature, sodium urate is a solid.

Melting point (Celsius)

320.00

Melting point (Kelvin)

593.15

Boiling point (Celsius)

558.50

Boiling point (Kelvin)

831.65

General information

Molecular weight

172.09g/mol

Molar mass

172.0540g/mol

Density

1.8730g/cm³

Appearence

Sodium urate typically appears as a white or almost white powder. Its crystalline form consists of fine, needle-like crystals.

Comment on solubility

Solubility of Sodium;6,8-Dioxo-7,9-Dihydro-3H-Purin-2-Olate

The solubility of sodium;6,8-dioxo-7,9-dihydro-3H-purin-2-olate can be quite intriguing. Typically, compounds that are derived from purine structures exhibit varying solubility characteristics that are influenced by several factors. Understanding these factors can help predict how the compound will behave in different environments.

Key Factors Influencing Solubility:

pH Level: The solubility may significantly change with pH variations. In more acidic or basic conditions, the ionization of the compound can enhance solubility.
Temperature: Generally, an increase in temperature leads to an increase in the solubility of many salts.
Nature of the Solvent: The choice between polar and non-polar solvents can drastically impact solubility. Ionic compounds typically dissolve well in polar solvents like water.

As with many sodium salts, this compound is likely to show improved solubility in aqueous solutions due to the presence of the sodium ion (Na⁺), which generally promotes dissolution. It is important to note that:

The formation of hydrogen bonds with water molecules can aid in the solubilization process.
Given that it is a purine derivative, it may display solubility patterns similar to other related purine compounds.

In conclusion, while sodium;6,8-dioxo-7,9-dihydro-3H-purin-2-olate does demonstrate solubility in water, its precise behavior can be influenced by several factors. Further investigation into its solubility potential under various conditions would provide invaluable insights for applications in biochemical and pharmaceutical contexts.

Interesting facts

Interesting Facts About Sodium;6,8-Dioxo-7,9-Dihydro-3H-Purin-2-Olate

This compound, commonly known in the scientific community as a derivative of purine, plays a vital role in biochemistry and molecular biology. Here are some intriguing aspects of this compound:

Role in Metabolism: Sodium;6,8-dioxo-7,9-dihydro-3H-purin-2-olate is associated with the metabolism of nucleic acids. It is involved in the synthesis and degradation of purine nucleotides, which are fundamental for DNA and RNA structure.
Biological Importance: This compound can be found in various biological systems, influencing cellular processes such as energy transfer, signaling, and the regulation of growth and differentiation.
Potential Therapeutic Applications: Research suggests that derivatives of purine may have therapeutic potential in treating conditions such as cancer and neurological disorders due to their involvement in cell signaling pathways.
Structure Characteristics: The unique structure of this compound, including its dioxo substituents, contributes to its chemical reactivity and interaction with various biological molecules.
Analogues and Variants: Numerous analogues exist that can markedly change the biological activity, making the study of this compound and its derivatives essential in drug development.

As we delve deeper into understanding the biochemical behaviors and interactions of sodium;6,8-dioxo-7,9-dihydro-3H-purin-2-olate, we open avenues for groundbreaking research that could lead to innovative treatments in medicine. It serves as a reminder of the intricate connections between chemistry and biology, where even the smallest changes can have profound implications.

"In the world of molecules, every structure tells a story; it's our job to listen and understand."