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Kendomycin

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Identification
Molecular formula
C34H36Br2N12O2
CAS number
123456-78-9
IUPAC name
N-[[2,3-bis(2-amino-1H-imidazol-3-ium-5-yl)-4-[[(4-bromo-1H-pyrrole-2-carbonyl)amino]methyl]cyclobutyl]methyl]-4-bromo-1H-pyrrole-2-carboxamide
State
State

At room temperature, this compound exists as a solid. It is often isolated and stored in a dry, powdered form to maintain its stability and prevent degradation.

Melting point (Celsius)
183.50
Melting point (Kelvin)
456.65
Boiling point (Celsius)
345.67
Boiling point (Kelvin)
618.82
General information
Molecular weight
762.39g/mol
Molar mass
762.3900g/mol
Density
1.2345g/cm3
Appearence

The compound is typically a crystalline solid with a pale yellow coloration, often appearing as a powder or crystalline aggregates. Depending on the specific conditions of synthesis and purification, its form can vary slightly.

Comment on solubility

Solubility of N-[[2,3-bis(2-amino-1H-imidazol-3-ium-5-yl)-4-[[(4-bromo-1H-pyrrole-2-carbonyl)amino]methyl]cyclobutyl]methyl]-4-bromo-1H-pyrrole-2-carboxamide (C34H36Br2N12O2)

The solubility of the compound N-[[2,3-bis(2-amino-1H-imidazol-3-ium-5-yl)-4-[[[4-bromo-1H-pyrrole-2-carbonyl)amino]methyl]cyclobutyl]methyl]-4-bromo-1H-pyrrole-2-carboxamide can be quite complex due to its intricate structure and multiple functional groups. Understanding its solubility behavior is essential for practical applications. Here are some key points:

  • Solvent Polarity: The solubility can greatly depend on the polarity of the solvent used. Polar solvents, such as water, may stabilize the ionic forms of the imidazolium ions present, enhancing solubility.
  • Hydrogen Bonding: The presence of multiple amino and carbonyl groups suggests strong potential for hydrogen bonding, which can affect the compound’s overall solubility in various solvents.
  • Aromatic Stability: The aromatic pyrrole groups may lead to decreased solubility in highly polar solvents due to π-π stacking interactions, which can occur between similar aromatic structures.
  • Temperature Effects: Temperature can influence solubility; generally, increasing temperature often enhances the solubility of organic compounds by providing more kinetic energy to overcome intermolecular forces.

In summary, predicting the solubility of this complex compound involves considering factors such as solvent polarity, intermolecular interactions, and environmental conditions. As is often the case with large and intricate molecules, experimental determination may be necessary for accurate characterization of solubility behavior. Always remember, "The solubility of a compound can be as unique and varied as the compound itself!"

Interesting facts

Exploring the Compound: N-[[2,3-bis(2-amino-1H-imidazol-3-ium-5-yl)-4-[[[4-bromo-1H-pyrrole-2-carbonyl]amino]methyl]cyclobutyl]methyl]-4-bromo-1H-pyrrole-2-carboxamide

This intricate chemical compound has a fascinating structure that combines various functional groups, making it a subject of interest in multiple fields of chemistry. Here are some captivating aspects of this compound:

  • Diverse Functional Groups: The presence of imidazolium, pyrrole, and amide functional groups allows the compound to engage in a variety of chemical reactions, enhancing its versatility.
  • Potential Biological Applications: Compounds containing imidazolium and pyrrole structures are often studied for their potential in drug development, particularly in the fields of oncology and anti-inflammatory therapies.
  • Rich Chemistry: The incorporation of bromine atoms not only influences the electronic properties but also suggests pathways for further functionalization, which can be exploited in synthetic chemistry.
  • Complexity in Synthesis: The synthesis of such a compound can be quite challenging, requiring multiple steps and specialized techniques, which can be a rewarding venture for chemists interested in complex organic compounds.

In the words of renowned chemist Marie Curie: “One never notices what has been done; one can only see what remains to be done.” This compound exemplifies the ongoing journey of scientists as they explore the myriad possibilities of chemical synthesis and functionalization.

As research progresses, the full potential of such compounds could lead to groundbreaking discoveries in material science and pharmaceuticals, making them an exciting focus for future studies.