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Plakortolide P

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Identification
Molecular formula
C37H46O10
CAS number
163774-01-2
IUPAC name
[1,3,5-triacetoxy-7,8-dimethyl-7-(3-methylpenta-2,4-dienyl)-1,3,5,6,6a,8,9,10-octahydrobenzo[d]isobenzofuran-10-yl] 4-hydroxybenzoate
State
State

Plakortolide P is generally isolated as an oily liquid at room temperature. However, it can form semi-solid crystalline states of varying clarity depending on its temperature and purity.

Melting point (Celsius)
176.00
Melting point (Kelvin)
449.15
Boiling point (Celsius)
350.00
Boiling point (Kelvin)
623.15
General information
Molecular weight
634.76g/mol
Molar mass
634.7630g/mol
Density
1.2103g/cm3
Appearence

Plakortolide P typically appears as a colorless oil that is amorphous in nature. It can contain wax or resinous deposits and can manifest as a clear, oily liquid. Generally, researchers study this compound in solution form due to its reactivity and biological activity.

Comment on solubility

Solubility of [1,3,5-triacetoxy-7,8-dimethyl-7-(3-methylpenta-2,4-dienyl)-1,3,5,6,6a,8,9,10-octahydrobenzo[d]isobenzofuran-10-yl] 4-hydroxybenzoate

The compound with the chemical formula C37H46O10 presents an interesting case when it comes to solubility. Given its complex molecular structure with multiple functional groups, one can expect varying degrees of solubility in different solvents. Here’s a brief overview:

  • Polar Solvents: Generally, compounds containing hydroxyl groups tend to be more soluble in polar solvents like water and alcohols. However, the overall *hydrophobic character* of this compound may hinder complete solubility.
  • Non-Polar Solvents: Due to its large organic structure and acetoxy groups, this compound is likely to exhibit better solubility in non-polar solvents, such as hexane or chloroform.
  • Factors Influencing Solubility:
    • Molecular Weight: The high molecular weight can lead to reduced solubility in many solvents.
    • Functional Groups: The presence of acetate and hydroxyl groups usually increases affinity for polar solvents; yet, the bulky hydrophobic sections might counteract this effect.
    • Temperature: Increasing the temperature can enhance solubility for many compounds, making it a relevant factor to consider.

In conclusion, while this compound may exhibit some degree of solubility in specific solvents, it is essential to conduct empirical tests to determine the precise solubility behavior. "Solubility is the key to versatility" in many applications, so understanding this aspect is crucial for practical use.

Interesting facts

Interesting Facts about [1,3,5-triacetoxy-7,8-dimethyl-7-(3-methylpenta-2,4-dienyl)-1,3,5,6,6a,8,9,10-octahydrobenzo[d]isobenzofuran-10-yl] 4-hydroxybenzoate

This intricate compound is a fascinating example of organic chemistry, showcasing both complexity and elegance in its structure. Here are some engaging insights:

  • Structural Components: The compound features multiple functional groups, illustrating the interplay between acetoxy, hydroxy, and various alkyl chains. Each of these elements contributes to its unique chemical behavior.
  • Natural Product Inspiration: Compounds resembling this structure are often derived from natural products. Researchers frequently explore such molecules for potential medicinal properties, drawing inspiration from nature's rich chemical diversity.
  • Synthetic Routes: The synthesis of compounds like this requires advanced techniques and understanding of organic reactions. It challenges chemists to design pathways that are efficient, sustainable, and yield high-purity products.
  • Potential Applications: Beyond its structural allure, this compound has potential applications in pharmaceuticals, possibly serving as a precursor for drugs or as a tool in biochemical research.
  • Research Opportunities: The study of such compounds opens avenues for research in areas like medicinal chemistry, natural product isolation, and molecular pharmacology, making it a prime candidate for scientists seeking new discoveries.

As a part of a broader family of chemical compounds, this molecule exemplifies how small structural changes can profoundly influence biological activity and interactions. Engaging with such compounds not only enhances our understanding of chemistry but also builds a bridge toward innovative solutions in healthcare and beyond.