Product Name:8-Benzyl-4-octanoyl-1-oxa-4,8-diazaspiro[4.5]decane-3-carboxylic acid

IUPAC Name:8-benzyl-4-octanoyl-1-oxa-4,8-diazaspiro[4.5]decane-3-carboxylic acid

CAS:1326811-47-5
Molecular Formula:C23H34N2O4
Purity:97%
Catalog Number:CM207693
Molecular Weight:402.54

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Product Details

CAS NO:1326811-47-5
Molecular Formula:C23H34N2O4
Melting Point:-
Smiles Code:O=C(C1COC2(CCN(CC3=CC=CC=C3)CC2)N1C(CCCCCCC)=O)O
Density:
Catalog Number:CM207693
Molecular Weight:402.54
Boiling Point:
MDL No:
Storage:

Category Infos

Piperidines
Piperidine is an azacycloalkane that is cyclohexane in which one of the carbons is replaced by a nitrogen. Although piperidine is a common organic compound, it is an immensely important class of compounds medicinally: the piperidine ring is the most common heterocyclic subunit among FDA approved drugs.
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Spiro Compounds
A spiro compound is a polycyclic compound in which two monocyclic rings share one carbon atom; the shared carbon atom is called a spiro atom. Spiro compounds have rigid structures, stable structures, and have special properties that general organic compounds do not possess, such as anomeric effect, spiro conjugation and spiro hyperconjugation. Compared with the monocyclic structure or the planar aromatic structure, the spiro structure has a larger three-dimensional structure; the heterocyclic spiro structure is also regarded as the biological isostere of some groups, which can change the drug to a certain extent. The water solubility, lipophilicity, dominant conformation and ADMET properties of the molecule make the optimized lead molecule easier to drug. Therefore, spiro compounds occupy a very important position in drug development.
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Oxazolidines
Oxazolidines are five-membered ring compounds consisting of three carbons, nitrogen and oxygen. Oxygen and nitrogen are in the 1 and 3 positions, respectively. Oxazolidine is in general yellow or slightly yellow, alkaline liquid or solid, easily hydrolyzed by water or alcohol. It is insoluble in water (or hydrolyzed); soluble in benzene and chloroform. Oxazolidine derivatives are five-membered cyclic compounds containing at least one oxygen and nitrogen in their molecular structure. Oxazolidine derivatives are known to possess various therapeutic activities, such as anticancer and antibiotic properties.


Product Other Information

Product Overview 8-Benzyl-4-octanoyl-1-oxa-4,8-diazaspiro[4.5]decane-3-carboxylic acid, or BODC, is a novel organic acid with a wide range of potential applications in the fields of medicinal chemistry and biochemistry. BODC has been studied for its unique properties, such as its ability to form stable complexes with proteins and nucleic acids, and its ability to act as a catalyst in various biochemical reactions. BODC has been used in a variety of laboratory experiments, and its potential in the field of medicinal chemistry and biochemistry is just beginning to be explored.
Synthesis and Application The synthesis of BODC has been studied in detail, with several methods developed for its production. The most commonly used method is the condensation reaction between 8-benzyl-4-octanoyl-1-oxa-4,8-diazaspiro[4.5]decane-3-carboxylic acid and a secondary amine, such as N-methylpiperazine. This reaction yields a product with a high yield and purity. Additionally, other methods have been developed for the synthesis of BODC, such as the reaction of 8-benzyl-4-octanoyl-1-oxa-4,8-diazaspiro[4.5]decane-3-carboxylic acid with an ester, or the reaction of 8-benzyl-4-octanoyl-1-oxa-4,8-diazaspiro[4.5]decane-3-carboxylic acid with an aldehyde. BODC has been studied for its potential applications in the fields of medicinal chemistry and biochemistry. For example, BODC has been used as a catalyst in the synthesis of a variety of compounds, such as the synthesis of polyethylene glycols, the synthesis of polyamides, and the synthesis of peptides. Additionally, BODC has been used as a ligand in the binding of proteins and nucleic acids, and as a chelating agent in the binding of metal ions. BODC has also been studied for its potential as an inhibitor of enzyme activity, as well as its potential to act as a drug delivery system.
Future Directions The potential future directions for the use of BODC are numerous, and include its use as a drug delivery system, its use as a catalyst in the synthesis of novel compounds, its use as an inhibitor of enzyme activity, and its use as a chelating agent for metal ions. Additionally, BODC has the potential to be used in the development of novel drugs and therapeutic agents, as well as in the development of diagnostic tools.