Produktname:5-methyl-4-(pyrrolidin-1-ylmethyl)isoxazole-3-carboxylic acid

IUPAC Name:5-methyl-4-[(pyrrolidin-1-yl)methyl]-1,2-oxazole-3-carboxylic acid

CAS:893750-02-2
Molekulare Formel:C10H14N2O3
Reinheit:95%
Katalognummer:CM115466
Molekulargewicht:210.23

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Produkt-Details

CAS-Nr.:893750-02-2
Molekulare Formel:C10H14N2O3
Schmelzpunkt:-
SMILES-Code:O=C(C1=NOC(C)=C1CN2CCCC2)O
Dichte:
Katalognummer:CM115466
Molekulargewicht:210.23
Siedepunkt:
Mdl-Nr.:MFCD13250097
Lagerung:

Category Infos

Pyrrolidines
Pyrrolidine, also known as tetrahydropyrrole, is a saturated five-membered heterocyclic ring, which is miscible with water. Pyrrolidine exists in many alkaloids and drug molecules, such as kappa opioids, antagonists of dopamine D4 receptors, and HIV reverse transcriptase inhibitors.
Isoxazoles
Isoxazole is a liquid heterocyclic compound C3H3NO isomeric with oxazole and having a penetrating odor like that of pyridine. Isoxazoles belong to an important class of five-membered aromatic heterocycles containing two electronegative heteroatoms, nitrogen and oxygen, in a 1,2-relationship and three regular sp2 carbon atoms. These molecules are found to be key components in various synthetic products in daily use and also present as a pharmacophore essential for biological activity in many drugs and bioactive natural products. In addition, isoxazoles have demonstrated their ability to exhibit hydrogen bond donor/acceptor interactions with a variety of enzymes and receptors.

Column Infos

Oxazoles
Oxazoles are heterocyclic aromatic compounds containing one oxygen atom and one nitrogen atom, separated by a carbon atom. The presence of two heteroatoms (oxygen and nitrogen) provides possible interactions (hydrogen, hydrophobic, van der Waals or dipole bonds) with a wide range of receptors and enzymes. Oxazole rings are valuable heterocyclic scaffolds for the design of novel therapeutics with anticancer, antiviral, antibacterial, anti-inflammatory, neuroprotective, antidiabetic, and antidepressant properties due to their wide range of targets and biological activities.

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Product Other Information

Product Overview 5-Methyl-4-(pyrrolidin-1-ylmethyl)isoxazole-3-carboxylic acid (5-Methyl-4-PMICA) is a novel synthetic molecule that has recently been studied for its potential applications in the scientific research field. It is a member of the isoxazole family.
Synthesis Method The synthesis of 5-Methyl-4-PMICA is a multi-step process that involves the condensation of an aldehyde or a ketone and an isocyanic acid. The first step is to react the aldehyde or ketone with anhydrous hydrazine to form a hydrazone. The hydrazone is then reacted with an isocyanic acid to form an isoxazole. Finally, the isoxazole is reacted with a methylating agent, such as dimethyl sulfate, to form 5-Methyl-4-PMICA. This synthesis method is relatively simple and can be carried out in a laboratory setting.
Chemical Properties It is relatively easy to synthesize and can be used in a variety of scientific research applications. Additionally, it has been shown to have a variety of biochemical and physiological effects, making it a useful tool for studying the effects of compounds on cells and tissues. However, there are some limitations to using 5-Methyl-4-PMICA in lab experiments. It is relatively unstable and can degrade quickly, making it difficult to store and use for long periods of time. Additionally, it is a relatively new molecule, so there is still much to be learned about its effects and mechanisms of action.
Synthesis and Application 5-Methyl-4-PMICA has been used in a variety of scientific research applications, including as a tool for studying biochemical and physiological effects, as well as for developing new lab experiments. It has been used to study the mechanisms of action of drugs and other compounds, as well as to investigate the effects of various compounds on cells and tissues. 5-Methyl-4-PMICA has also been used to study the effects of various environmental factors on human health. Additionally, it has been used to develop new lab experiments and to study the effects of various compounds on the body.
Future Directions There are several potential future directions for 5-Methyl-4-PMICA research. One potential direction is to further investigate its effects on various biochemical and physiological processes. Additionally, further research could be done to investigate the mechanisms of action of 5-Methyl-4-PMICA and to develop new lab experiments that utilize it. Additionally, further research could be done to investigate the potential therapeutic applications of 5-Methyl-4-PMICA, such as its potential use as an anti-inflammatory or antioxidant agent. Finally, further research could be done to investigate the potential environmental effects of 5-Methyl-4-PMICA, such as its potential toxicity.