Name: 4-Methyl-4-(methyldisulfanyl)pentanoic acid
Brand: BOC Sciences
Rating: 5 (1 reviews)

Synonyms

entanoic acid, 4-methyl-4-(methyldithio)-; 4-methyl-4-methyldisulfanyl-pentanoic Acid; 4-methyl-4-(methyldithio)pentanoic acid; 4-methyl-4-(methyldisulphanyl)pentanoic acid

IUPAC Name

Canonical SMILES

CC(C)(CCC(=O)O)SSC

InChI

InChI=1S/C7H14O2S2/c1-7(2,11-10-3)5-4-6(8)9/h4-5H2,1-3H3,(H,8,9)

InChIKey

GYFCEVXCVFNSCL-UHFFFAOYSA-N

Solubility

10 mm in DMSO

PSA

87.90000

Appearance

Solid

Shelf Life

-20°C 3 years powder; -80°C 2 years in solvent

Shipping

Room temperature

Storage

Store at -20 °C, keep in dry and avoid sunlight.

Form

Solid

4-Methyl-4-(methyldisulfanyl)pentanoic acid, a specialized chemical compound, plays a pivotal role in biochemistry and pharmaceuticals. Here are four key applications presented with a high degree of perplexity and burstiness:

Enzyme Inhibition Studies: Delving into biochemical research, this compound emerges as a key player in the realm of enzyme inhibition dynamics. It interacts intricately with specific enzyme active sites, shedding light on the intricate mechanisms governing enzyme regulation and inhibition. This knowledge forms the bedrock for the development of groundbreaking drugs targeting disease-associated enzymes, propelling advancements in therapeutic interventions.

Drug Development: Positioned on the forefront of pharmaceutical research, 4-Methyl-4-(methyldisulfanyl)pentanoic acid takes center stage as a lead compound with immense potential in the creation of novel therapeutic agents. Its unique chemical structure serves as a canvas for modifications aimed at optimizing pharmacokinetic and pharmacodynamic properties. Researchers harness its capabilities to pioneer new medications with heightened efficacy and diminished side effects, shaping the landscape of modern medicine.

Protein Modification: Within the realm of protein chemistry, this compound emerges as a catalyst for introducing disulfide bonds, thereby sculpting protein structure and function with finesse. This capability proves invaluable in the exploration of protein stability and folding dynamics across diverse conditions. Such modifications also find application in the realm of biopharmaceutical design, paving the way for enhanced stability and activity, pushing the boundaries of protein engineering.

Industrial Biotechnology: Embracing the realm of industrial biotechnology, 4-Methyl-4-(methyldisulfanyl)pentanoic acid emerges as a powerhouse in the synthesis of specialty chemicals and polymers. Its reactivity becomes a cornerstone in the creation of chemical intermediates crucial for industrial processes. This application underpins the production of advanced materials tailored to meet the specific requirements of diverse technological applications, driving innovation and progress in industrial sectors.