Interesting facts
Interesting Facts about 6-methylsulfanyl-7H-purine
6-methylsulfanyl-7H-purine is a fascinating compound that belongs to the purine family, known for its crucial role in biochemistry and molecular biology. Here are some intriguing aspects of this compound:
- Biological Importance: Purines, including this compound, are fundamental building blocks of nucleic acids such as DNA and RNA. They serve as essential components in various biochemical processes.
- Methylsulfanyl Group: The presence of the methylsulfanyl group introduces unique properties, affecting the compound's interaction with enzymes and other biological molecules.
- Potential Applications: Compounds like 6-methylsulfanyl-7H-purine are being studied for their pharmacological properties, including potential roles in anti-inflammatory and anti-cancer therapies.
- Structural Similarity: This compound shares structural similarities with caffeine and other xanthines, which are known for their stimulant effects and metabolic functions.
- Research Significance: Scientists continue to investigate purines for their role in cellular signaling and energy transfer through ATP (adenosine triphosphate) mechanisms.
- Observation in Nature: Purines are widely found in nature and are often derived from both dietary sources and metabolic pathways in organisms.
As we delve deeper into the chemistry of compounds like 6-methylsulfanyl-7H-purine, it becomes evident that their studying can lead to substantial developments in health sciences and biochemistry.
Synonyms
6-Methylmercaptopurine
6-(Methylthio)purine
50-66-8
6-Methylthiopurine
6-methylsulfanyl-7H-purine
6-(methylsulfanyl)-9H-purine
1H-Purine, 6-(methylthio)-
6-Methyl MP
6-(Methylthio)-9H-purine
PURINE, 6-(METHYLTHIO)-
S-Methyl-6-mercaptopurine
6-(Methylsulfanyl)-7H-purine
Thiopurine S-methylether
SQ 8343
6-Methylsulfanyl-9H-purine
NSC 20105
Purine, 6-methylthio-
MFCD00005576
6-MMP
6-Methylthiopurin-9-yl
CHEBI:28279
6V404DV25O
NSC-20105
133762-85-3
EINECS 200-057-3
6-(methylthio)-7h-purine
UNII-6V404DV25O
AI3-26418
6-(Methylthio)-9H-purine; 6-(Methylthio)purine; NSC 20105; S-Methyl-6-mercaptopurine; SQ 8343;
6-methyl-thiopurine
Maybridge4_001828
a thiopurine S-methylether
CHEMBL1178
MLS000101250
BIDD:GT0117
SCHEMBL240979
7H-Purine, 6-(methylthio)-
PU08
METHYLMERCAPTOPURINE, 6-
SCHEMBL20615083
BDBM92421
DTXSID50901654
HMS1526D02
NSC20105
Sq 8,343
STK791073
AKOS001030430
AKOS006221849
FM25872
HR-0385
HY-W097453
SDCCGMLS-0065452.P001
6-METHYLMERCAPTOPURINE [WHO-DD]
NCGC00081884-02
PD150800
SMR000017401
DB-026410
CS-0150095
NS00015090
AB00172295-02
AB00172295-03
BRD-K43675242-001-01-9
Q27103606
Z56759523
F0578-0178
6-(Methylthio)-9H-purine;6-(Methylthio)purine;NSC 20105
XQG
Solubility of 6-methylsulfanyl-7H-purine (C6H6N4S)
6-methylsulfanyl-7H-purine is an intriguing compound, particularly when it comes to its solubility characteristics. The solubility of such chemical compounds can often vary significantly based on several factors. Here are key considerations regarding the solubility of this compound:
As quoted from solubility principle experts, "The interaction between solute and solvent significantly dictates the extent of solubility." Hence, understanding the solubility behavior of 6-methylsulfanyl-7H-purine requires careful consideration of its chemical interactions.
In conclusion, while this compound's precise solubility profile is not extensively documented, its unique structural attributes suggest that it may have variable solubility in different solvents. Therefore, testing in various conditions is essential for a comprehensive understanding.