Pactamycin | Solubility of Things

Identification

Molecular formula

C₂₈H₃₈N₄O₇

CAS number

1718-34-9

IUPAC name

[(2R,5R,7S,11R,14S,15R,16S)-16-benzyl-5-hydroxy-5,7,14-trimethyl-13-methylene-6,18-dioxo-17-azatricyclo[9.7.0.01,15]octadeca-3,9-dien-2-yl] acetate

State

Pactamycin is typically a solid at room temperature, presenting itself as a relatively stable, crystalline powder.

Melting point (Celsius)

158.00

Melting point (Kelvin)

431.15

Boiling point (Celsius)

125.00

Boiling point (Kelvin)

398.15

General information

Molecular weight

545.63g/mol

Molar mass

545.6000g/mol

Density

1.3800g/cm³

Appearence

Pactamycin typically appears as a white to off-white powder. It may vary slightly in shade depending on the exact conditions of crystallization and preparation.

Comment on solubility

Solubility of [(2R,5R,7S,11R,14S,15R,16S)-16-benzyl-5-hydroxy-5,7,14-trimethyl-13-methylene-6,18-dioxo-17-azatricyclo[9.7.0.01,15]octadeca-3,9-dien-2-yl] acetate

The solubility of the compound [(2R,5R,7S,11R,14S,15R,16S)-16-benzyl-5-hydroxy-5,7,14-trimethyl-13-methylene-6,18-dioxo-17-azatricyclo[9.7.0.01,15]octadeca-3,9-dien-2-yl] acetate can be influenced by several factors:

Polarity: The presence of polar functional groups, such as hydroxyl (-OH), typically enhances solubility in polar solvents.
Molecular Size: The large size and complex structure can hinder solubility in many common solvents.
Temperature: Increased temperature often improves solubility for organic compounds, making higher temperatures preferable for dissolving.
Solvent Type: This compound may exhibit better solubility in organic solvents like ethanol or acetone compared to water due to the hydrophobic characteristics of the alkyl and aromatic parts.

In conclusion, the solubility of this intricate compound is expected to be limited in water, while potentially more favorable in organic solvents, highlighting the importance of considering both chemical structure and environment when predicting solubility behavior.

Interesting facts

Interesting Facts About the Compound

This compound, known for its complex structure, belongs to a unique class of chemical compounds that exhibit fascinating properties and potential applications. Here are some remarkable insights about this compound:

Biological Importance: Compounds similar to this molecule are often studied for their roles in nature, particularly in plant chemistry and pharmacology. They can possess bioactive properties that might contribute to potential medicinal effects.
Synthetic Challenge: The synthesis of such intricately structured molecules provides a significant challenge to chemists. Their multi-step synthesis often employs advanced techniques such as asymmetric synthesis and protecting group strategies to achieve the desired stereochemistry.
Applications in Medicine: The unique arrangement of functional groups may allow this compound to interact with biological systems in specific ways, making it a subject of interest in drug development and therapeutic applications.
Natural Sources: Many compounds of this kind are derived from natural sources such as plants. The study of these compounds can lead to the discovery of new natural products that could serve as lead compounds for pharmaceutical research.
Structure-Activity Relationship (SAR): Understanding how the structure of this compound relates to its biological activity can help scientists design more effective drugs and understand their mechanisms of action.
Research Areas: This compound might find its use in various fields such as:
- Medicinal chemistry
- Natural product synthesis
- Chemical ecology
- Pharmaceutical formulation

In conclusion, the exploration of this compound opens doors to a multitude of research opportunities and highlights the interplay between structure, function, and applicability in the diverse field of chemistry.