H-p-Nitro-Phe-OMeHCl CAS:17193-40-7
Catalog Number | XD95768 |
Product Name | H-p-Nitro-Phe-OMeHCl |
CAS | 17193-40-7 |
Molecular Formula | C10H13ClN2O4 |
Molecular Weight | 260.67 |
Storage Details | Ambient |
Product Specification
Appearance | White powder |
Assay | 99% min |
H-p-Nitro-Phe-OMeHCl, also known as N-(4-nitrophenyl)-L-phenylalanyl methyl ester hydrochloride, is a compound with several notable effects and applications. Here are some key effects associated with H-p-Nitro-Phe-OMeHCl:Inhibition of Enzymes: H-p-Nitro-Phe-OMeHCl can act as an inhibitor of certain enzymes. It may specifically target proteases, which are enzymes involved in breaking down proteins. By inhibiting specific proteases, this compound has the potential to interfere with cellular processes, leading to various biological effects.Anticancer Activity: Studies have shown that H-p-Nitro-Phe-OMeHCl and its derivatives possess anticancer activity. They can inhibit the growth of cancer cells and induce apoptosis (programmed cell death). The compound's ability to interfere with proteases involved in tumor progression and metastasis contributes to its potential as an anticancer agent.Anti-inflammatory Effects: H-p-Nitro-Phe-OMeHCl has been found to possess anti-inflammatory properties. Inflammation is a natural response of the immune system, but excessive or chronic inflammation can lead to various diseases. The compound's ability to inhibit proteases involved in the inflammatory response can help reduce inflammation and alleviate related symptoms.Use as a Molecular Probe: H-p-Nitro-Phe-OMeHCl can serve as a molecular probe in biochemical and biophysical studies. Its unique structural features and reactivity make it a valuable tool to investigate protein-protein interactions, enzyme activities, and protein folding. By using this compound as a probe, scientists can gain insights into the molecular mechanisms underlying various biological processes.Synthetic Applications: H-p-Nitro-Phe-OMeHCl can also be used as a starting material for the synthesis of other compounds. Its nitro group can be manipulated through chemical reactions to introduce different functional groups, allowing for the production of diverse derivatives. These derivatives can then be evaluated for their biological activity or used in further synthetic transformations to create more complex molecules.It is important to note that handling H-p-Nitro-Phe-OMeHCl should be done with caution due to its potential toxicity. Proper laboratory safety practices should be followed to ensure safe handling and storage of the compound.In summary, H-p-Nitro-Phe-OMeHCl exhibits diverse effects and applications in various fields, including enzyme inhibition, anticancer activity, anti-inflammatory effects, and its use as a molecular probe. Additionally, it has synthetic potential, making it valuable for researchers in the fields of medicinal chemistry, biochemistry, and chemical biology.