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Catalog Number:
32886
CAS Number:
88899-22-3
Chlorhydrate de Bz-Phe-Val-Arg-AMC
Synonym(s):
Substrat de thrombine III, fluorogénique
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$102.85 /5 mg
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Product Information

Bz-Phe-Val-Arg-AMC hydrochloride salt is a highly specialized peptide compound that serves as a valuable tool in biochemical research and drug development. This compound is particularly notable for its role as a substrate in protease assays, enabling researchers to study enzyme activity and inhibition with precision. Its unique structure, featuring a benzoyl phenylalanine and a valine-arginine sequence, enhances its specificity and reactivity, making it an ideal choice for applications in enzymology and pharmacology.

In addition to its use in protease studies, Bz-Phe-Val-Arg-AMC hydrochloride salt is also employed in the development of targeted therapies, particularly in cancer research, where understanding protease activity can lead to breakthroughs in treatment strategies. Its ability to provide clear and quantifiable results in enzyme activity assays positions it as a preferred choice among researchers looking to advance their work in proteomics and therapeutic development. With its robust performance and versatility, this compound stands out as an essential reagent for professionals in the life sciences.

Synonyms
Substrat de thrombine III, fluorogénique
CAS Number
88899-22-3
Molecular Formula
C37H43N7O6 · HCl
Molecular Weight
718.25
MDL Number
MFCD00039018
PubChem ID
3644636
Conditions
Conserver à ≤ -10 °C
General Information
Synonyms
Substrat de thrombine III, fluorogénique
CAS Number
88899-22-3
Molecular Formula
C37H43N7O6 · HCl
Molecular Weight
718.25
MDL Number
MFCD00039018
PubChem ID
3644636
Conditions
Conserver à ≤ -10 °C
Properties
Additional property information coming soon!
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Safety and Regulations
Hazmat
Non
Antibiotic
Non
DEA-regulated
Non
Warnings
-
Applications

Bz-Phe-Val-Arg-AMC hydrochloride salt is widely utilized in research focused on:

  • Protease Activity Measurement: This compound serves as a substrate for various proteases, allowing researchers to measure enzyme activity in biological samples. Its specificity helps in distinguishing between different protease classes.
  • Drug Development: In pharmaceutical research, it is used to screen potential drug candidates that target proteolytic enzymes, aiding in the development of therapeutic agents for diseases like cancer and inflammation.
  • Biochemical Assays: The compound is employed in high-throughput screening assays to evaluate the efficacy of inhibitors against specific proteases, streamlining the drug discovery process.
  • Cellular Studies: Researchers use it to study cellular processes involving proteolysis, providing insights into cell signaling and regulation, which is crucial for understanding various diseases.
  • Diagnostic Applications: Its role in protease activity can be leveraged in diagnostic tests, helping to identify specific diseases based on enzyme activity profiles in patient samples.

Citations