Interesting facts
Exploring 2-[(4-carbamoylphenyl)-(carboxymethylsulfanyl)arsanyl]sulfanylacetic acid
This intriguing compound combines elements of both organic and inorganic chemistry, showcasing the versatility of arsenic in biological systems. Here are some fascinating aspects to consider:
- Multi-functional Groups: The compound is characterized by a complex structure that includes a carbamoyl group, carboxymethylsulfanyl, and sulfanyllic acid, enabling it to participate in various chemical reactions and interactions.
- Arsenic-containing Compounds: Arsenic has a notorious reputation often associated with toxicity; however, its derivatives can exhibit remarkable biological activities. Some studies suggest that arsenic-containing compounds could provide therapeutic benefits in certain medical contexts.
- Structural Insights: The presence of both aromatic and aliphatic components in its structure allows for diverse solubility characteristics and reactivity, making this compound an interesting subject for further research in medicinal chemistry.
- Potential Applications: Given its unique composition, this compound may have potential applications in drug design, particularly in targeting specific metabolic pathways in diseases triggered by aberrant sulfur metabolism.
- Research Opportunities: As a relatively novel compound, there is ample opportunity for research into its properties, biological effects, and potential applications in pharmacology and environmental chemistry.
In summary, 2-[(4-carbamoylphenyl)-(carboxymethylsulfanyl)arsanyl]sulfanylacetic acid presents a captivating opportunity for study and exploration. As with many chemical compounds, understanding its behavior and properties could lead to significant advancements in both science and medicine.
Synonyms
Thiacetarsamide
Arsenamide
Thioarsenite
531-72-6
Dithioglycolyl p-arsenobenzamide
p-(Bis(carboxymethylmercapto)arsino)benzamide
VMF4ELY9TZ
4-Carbamylphenyl bis(carboxymethylthio)arsenite
Bis(carboxymethylmercapto)(p-carbamylphenyl)-arsine
2-[(4-carbamoylphenyl)-(carboxymethylsulfanyl)arsanyl]sulfanylacetic acid
4-Carbamylphenyl biscarboxymethylthioarsenite
Capariside
Thiacetarsamidum
Thiacetarsamide [USP]
UNII-VMF4ELY9TZ
BRN 3438926
(((4-(Aminocarbonyl)phenyl)arsinidine)bis(thio))biacetic acid
Acetic acid, 2,2'-(((4-(aminocarbonyl)phenyl)arsinidene)bis(thio))bis-
Benzamide, p-bis(carboxymethylmercapto)arsino-
Thiacetarsamide [INN:DCF]
THIACETARSAMIDE [MI]
3-16-00-00978 (Beilstein Handbook Reference)
SCHEMBL381665
THIACETARSAMIDE [MART.]
DTXSID10201182
ACETIC ACID, MERCAPTO-, p-CARBAMOYLDITHIOBENZENEARSONITE (2:1)
AKOS040754184
Disodium salt of the S,S-diester of p-carbamoyldithiobenzenearsonous acid with mercaptoacetic acid
HY-122406
NS00126829
BENZAMIDE, P-BIS(CARBOXYMETHYLMERCAPTO)ARSINO
Q4796424
(((P-CARBAMOYLPHENYL)ARSYLENE)DITHIO)DIACETIC ACID
2,2'-(((4-(AMINOCARBONYL)PHENYL)ARSINIDENE)BIS(THIO))BISACETIC ACID
Solubility of 2-[(4-carbamoylphenyl)-(carboxymethylsulfanyl)arsanyl]sulfanylacetic acid
The solubility of 2-[(4-carbamoylphenyl)-(carboxymethylsulfanyl)arsanyl]sulfanylacetic acid can be influenced by a variety of factors, which are important to consider when examining its behavior in different solvents. This compound possesses both acidic and polar functional groups that significantly affect its solubility profile.
Key factors affecting solubility:
As a general observation, it could be expected that:
In conclusion, while specific solubility data for 2-[(4-carbamoylphenyl)-(carboxymethylsulfanyl)arsanyl]sulfanylacetic acid may require experimental determination, considerations of polarity, hydrogen bonding, and solvent interactions can provide substantial insights into its expected behavior in various environments. As always, further empirical studies are essential to confirm these predictions.