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Cyclobuxine D

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Identification
Molecular formula
C26H39NO6
CAS number
14071-33-1
IUPAC name
(1S,7S,11S,19R,20R,23R)-5,15,19,23-tetrahydroxy-13,20-dimethyl-8,12,21-trioxahexacyclo[17.2.2.02,18.04,16.06,14.07,11]tricosa-2(18),4,6(14),15-tetraene-3,9,17-trione
State
State

Under standard laboratory conditions, Cyclobuxine D is in a solid state. It is a stable compound often used in chemical and pharmacological research, typically stored in airtight containers to avoid moisture uptake.

Melting point (Celsius)
313.50
Melting point (Kelvin)
586.70
Boiling point (Celsius)
707.80
Boiling point (Kelvin)
981.00
General information
Molecular weight
481.58g/mol
Molar mass
481.5770g/mol
Density
1.3400g/cm3
Appearence

Cyclobuxine D appears as a crystalline solid that can vary in color from white to off-white. It typically presents in a powdered form and is notable for its luster and crystalline clarity when observed under a microscope.

Comment on solubility

Solubility Characteristics

The compound (1S,7S,11S,19R,20R,23R)-5,15,19,23-tetrahydroxy-13,20-dimethyl-8,12,21-trioxahexacyclo[17.2.2.02,18.04,16.06,14.07,11]tricosa-2(18),4,6(14),15-tetraene-3,9,17-trione exhibits intriguing solubility behavior that can significantly influence its practical applications. Understanding its solubility is essential, particularly in the context of biological systems, pharmaceutical formulations, and chemical reactions.

General Solubility Insights

Key factors that impact the solubility of this compound include:

  • Hydroxy Groups: The presence of multiple hydroxy (–OH) groups enhances the potential for hydrogen bonding, which typically increases solubility in polar solvents such as water.
  • Molecular Structure: The complex cyclic structure may affect how the molecule interacts with solvents, potentially leading to limited solubility in non-polar solvents.
  • Polarity: Overall polarity plays a significant role; as a hydrophilic compound, it is expected to have better solubility in polar media.
  • Concentration: Solubility can also vary with concentration, and undersaturated solutions might suggest enhanced solubility features.

As a wider point of note, solubility can be defined by the following points:

  1. Temperature: Generally, as temperature increases, the solubility of solids in liquids also increases.
  2. pH Levels: For compounds with functional groups that can gain or lose protons, pH can significantly affect solubility.
  3. Presence of Other Solutes: The solubility can be affected by the presence of salts or other solutes which may cause precipitation or complexation.

In conclusion, the solubility of this compound is multifaceted and requires careful consideration of its structural components and environmental conditions. Experimental testing remains essential to acquire precise solubility data.

Interesting facts

Interesting Facts About (1S,7S,11S,19R,20R,23R)-5,15,19,23-tetrahydroxy-13,20-dimethyl-8,12,21-trioxahexacyclo[17.2.2.02,18.04,16.06,14.07,11]tricosa-2(18),4,6(14),15-tetraene-3,9,17-trione

This compound, with its complex and intriguing structure, belongs to a class of organic molecules known as polycyclic compounds. Its intricate network of rings and functional groups offers a fascinating glimpse into the world of molecular architecture. Here are some captivating points that showcase its significance:

  • Structural Complexity: The compound features multiple hydroxyl (-OH) groups, which are known for their ability to participate in hydrogen bonding, enhancing its reactivity and solubility in various environments.
  • Natural Occurrence: Compounds with similar structural characteristics are often found in nature, contributing to the defense mechanisms of plants and playing essential roles in biological pathways.
  • Potential Applications: Given its distinctive properties, it could have potential applications in fields such as medicinal chemistry, where understanding its reactivity may lead to the development of new therapeutic agents.
  • Research Interest: Researchers are fascinated by scaffolds like this one for their potential to be modified into more complex molecules, opening new doors in drug discovery and polymer science.

As scientist Alexander K. noted, “The beauty of chemistry lies in the connections formed between atoms and the stories they tell in the structure.” The profound complexity of this compound serves as a remarkable example of this idea, as it encapsulates the interconnectedness of cyclic structures and functionalization that govern chemical behavior and functionality.

This compound not only reflects the intricacies of chemical synthesis but also the ever-expanding horizon of explorations within organic chemistry. Its potential contributions to various scientific disciplines make it an exciting subject of study.

Synonyms
SCHEMBL526421