Interesting facts
Interesting Facts about (1S,16R)-10,25-dimethoxy-15,30-dimethyl-7,23-dioxa-15,30-diazaheptacyclo[22.6.2.23,6.18,12.118,22.027,31.016,34]hexatriaconta-3(36),4,6(35),8(34),9,11,18(33),19,21,24,26,31-dodecaene-9,21-diol
This compound, with a rather intricate name, is a prime example of the complexity that organic chemistry presents. Its molecular structure comprises a unique arrangement of rings and functional groups that contribute to its chemical behavior and potential applications.
Key Characteristics
- Multiple Functional Groups: The presence of methoxy groups, as well as the dioxa and diaza functionalities, allows for diverse interactions with other molecules.
- Heptacyclic Framework: The heptacyclo structure indicates a fascinating geometry that could translate into interesting pharmacological properties.
- Natural Product Derivative: Compounds with such complex structures are often derived from natural products and can exhibit bioactivity, potentially serving as templates for drug development.
Potential Applications
Given its structural complexity, this compound may have implications in various fields:
- Pharmaceutical Chemistry: The intricate architecture suggests a potential for bioactive properties that can lead to novel therapeutics.
- Materials Science: Molecules with multi-cyclic structures may be explored for creating advanced materials with unique properties.
- Organic Synthesis: It serves as a fascinating challenge for chemists engaged in the synthesis of complex organic molecules.
In the words of a chemist: "The beauty of organic compounds lies not only in their functionality but also in the stories they tell through their structures." This compound is a testament to that beauty, showcasing how molecular complexity can provide insights into both chemical reactivity and biological function.
Synonyms
Chondocurine
Chondrocurine
UNII-LJ6BM02KTM
477-58-7
LJ6BM02KTM
EINECS 207-516-7
TUBOCURINE
D-CHONDROCURINE
D-TUBOCURINE
CHONDROCURINE [MI]
2'-DEMETHYLTUBOCURARINE
DTXSID60197248
(1S,16R)-10,25-dimethoxy-15,30-dimethyl-7,23-dioxa-15,30-diazaheptacyclo[22.6.2.23,6.18,12.118,22.027,31.016,34]hexatriaconta-3(36),4,6(35),8(34),9,11,18(33),19,21,24,26,31-dodecaene-9,21-diol
(1S,16R)-10,25-dimethoxy-15,30-dimethyl-7,23-dioxa-15,30-diazaheptacyclo(22.6.2.23,6.18,12.118,22.027,31.016,34)hexatriaconta-3(36),4,6(35),8(34),9,11,18(33),19,21,24,26,31-dodecaene-9,21-diol
DTXCID70119739
207-516-7
Tubocuraran-7',12'-diol, 6,6'-dimethoxy-2,2'-dimethyl-
13H-4,6:21,24-Dietheno-8,12-metheno-1H-pyrido[3',2':14,15][1,11]dioxacycloeicosino[2,3,4-ij]isoquinoline-9,19-diol, 2,3,13a,14,15,16,25,25a-octahydro-18,29-dimethoxy-1,14-dimethyl-, (13aR,25aS)-
SCHEMBL7161867
NGZXDRGWBULKFA-WUFINQPMSA-N
AKOS040740392
NS00031723
AA-504/21000058
Q27283021
Solubility of (1S,16R)-10,25-dimethoxy-15,30-dimethyl-7,23-dioxa-15,30-diazaheptacyclo[22.6.2.23,6.18,12.118,22.027,31.016,34]hexatriaconta-3(36),4,6(35),8(34),9,11,18(33),19,21,24,26,31-dodecaene-9,21-diol
The solubility of complex organic compounds such as (1S,16R)-10,25-dimethoxy-15,30-dimethyl-7,23-dioxa-15,30-diazaheptacyclo[22.6.2.23,6.18,12.118,22.027,31.016,34]hexatriaconta-3(36),4,6(35),8(34),9,11,18(33),19,21,24,26,31-dodecaene-9,21-diol can be influenced by several factors:
Overall, while this compound may show some degree of solubility due to favorable interactions with polar solvents, its extensive and complex structure might lead to variations in solubility that can only be determined through empirical testing. As mentioned in solubility principles, it is often observed that “like dissolves like," indicating that matching the solvent's polarity to the compound's functional groups can yield the best solubility results.