Interesting facts
Interesting Facts about 5,6',12-Trihydroxy-6,7'-dimethoxy-7,21,30-trimethyl-27-oxo-spiro[17,19,28-trioxa-24-thia-13,30-diazaheptacyclo[12.9.6.13,11.02,13.04,9.015,23.016,20]triaconta-4(9),5,7,15,20,22-hexaene-26,1'-3,4-dihydro-2H-isoquinoline]-22-yl Acetate
This complex organic compound is a remarkable example of the intricacies of chemical synthesis and the diversity of molecular structures that can arise from relatively simple organic components. It belongs to a category of compounds that have potential applications in various fields, including medicinal chemistry and materials science. Here are some fascinating insights about this compound:
- Chemical Diversity: The elaborate structure features multiple functional groups and cyclic components, showcasing the potential for rich chemical reactivity.
- Biological Relevance: Compounds with such complex structures often exhibit interesting biological activities, which makes them attractive for further research and development in pharmaceuticals.
- Structure-Activity Relationship (SAR): Understanding how different components of this compound influence its activity is crucial in drug design, illustrating the relationship between molecular structure and biological efficacy.
- Cross-Disciplinary Applications: Given its intricate architecture, research on this compound could span multiple disciplines including organic synthesis, medicinal chemistry, and polymer science.
- Historical Context: Compounds with similar backbone structures have historically been used as frameworks for designing drugs, signifying the ongoing importance of traditional medicinal chemistry in modern pharmaceutical development.
As researchers continue to explore such complex molecules, they unravel new possibilities for innovation in drug discovery and beyond. The study of this compound highlights the importance of detailed chemical knowledge combined with creative synthesis techniques, reminding us of the beauty and complexity found in the world of chemistry.
Synonyms
ecteinascidin 743
(5,6',12-Trihydroxy-6,7'-dimethoxy-7,21,30-trimethyl-27-oxospiro[17,19,28-trioxa-24-thia-13,30-diazaheptacyclo[12.9.6.13,11.02,13.04,9.015,23.016,20]triaconta-4(9),5,7,15,20,22-hexaene-26,1'-3,4-dihydro-2H-isoquinoline]-22-yl) acetate
DTXSID30861227
BCP09790
DB-015030
5-(acetyloxy)-3',4',6,6a,7,13,14,16-octahydro-6',8,14-trihydroxy-7',9-dimethoxy-4,10,23-trimethyl-,[6R-(6a,6a3,73,133,143,16a,20R*)]
6',8,14-Trihydroxy-7',9-dimethoxy-4,10,23-trimethyl-19-oxo-3',4',6,7,12,13,14,16-octahydro-2H,2'H,6aH-spiro[7,13-epimino-6,16-(epithiopropanooxymethano)[1,3]dioxolo[7,8]isoquinolino[3,2-b][3]benzazocine-20,1'-isoquinolin]-5-yl acetate
Solubility of 5,6',12-trihydroxy-6,7'-dimethoxy-7,21,30-trimethyl-27-oxo-spiro[17,19,28-trioxa-24-thia-13,30-diazaheptacyclo[12.9.6.13,11.02,13.04,9.015,23.016,20]triaconta-4(9),5,7,15,20,22-hexaene-26,1'-3,4-dihydro-2H-isoquinoline]-22-yl acetate (C2H3O2-)
The solubility of the compound 5,6',12-trihydroxy-6,7'-dimethoxy-7,21,30-trimethyl-27-oxo-spiro[17,19,28-trioxa-24-thia-13,30-diazaheptacyclo[12.9.6.13,11.02,13.04,9.015,23.016,20]triaconta-4(9),5,7,15,20,22-hexaene-26,1'-3,4-dihydro-2H-isoquinoline]-22-yl acetate is influenced by its complex structure and functional groups. Understanding its solubility is essential for various applications in the field of chemistry.
Factors Influencing Solubility:
Generally, compounds containing both polar and non-polar characteristics can exhibit amphipathic behavior, allowing for solubility in various solvent systems. Solubility studies further reveal that for the acetate ion (C2H3O2-), solvation can be characterized by:
In conclusion, the solubility of this complex compound is contingent upon both its extensive functional groups and the solvent environment, leading to diverse applications and interactions in chemical processes.