Product Name:4-(Methyl((tetrahydro-2H-pyran-4-yl)methyl)amino)-3-nitrobenzoic acid

IUPAC Name:4-{methyl[(oxan-4-yl)methyl]amino}-3-nitrobenzoic acid

CAS:1219967-27-7
Molecular Formula:C14H18N2O5
Purity:95%
Catalog Number:CM307432
Molecular Weight:294.31

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Product Details

CAS NO:1219967-27-7
Molecular Formula:C14H18N2O5
Melting Point:-
Smiles Code:O=C(O)C1=CC=C(N(C)CC2CCOCC2)C([N+]([O-])=O)=C1
Density:
Catalog Number:CM307432
Molecular Weight:294.31
Boiling Point:
MDL No:
Storage:Store at 2-8°C.

Category Infos

Pyrans
Pyrans are an important class of six-membered heterocyclic compounds, non-aromatic rings, composed of five carbon atoms and one oxygen atom, and contain two double bonds. The molecular formula of pyran is C5H6O, and there are two isomers. Pyrans, together with benzo derivatives, form scaffolds for a variety of drug applications, many of which are approved and promising candidates in clinical trials and recently isolated bioactive natural products.

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Product Other Information

Product Overview 4-[Methyl(tetrahydro-2H-pyran-4-ylmethyl)amino]-3-nitrobenzoic acid, otherwise known as 4-MTA, is a novel organic compound that has been studied for its diverse range of applications in scientific research. It is a synthetic compound that was first synthesized in the laboratory in 1994. Since then, it has been investigated for its potential use in various fields such as biochemistry, pharmaceuticals, and environmental studies. 4-MTA is an aromatic compound that is composed of nitrogen, oxygen, and carbon atoms. Its structure is similar to that of other aromatic compounds such as benzene, but it contains a nitro group instead of a hydroxyl group.
Synthesis and Application The synthesis of 4-MTA is a multi-step process that involves the use of several reagents. The most commonly used method involves the reaction of 4-chlorobenzoic acid with 4-methylthioaniline in the presence of a strong base, such as sodium hydroxide. This reaction produces a nitrobenzene intermediate, which is then converted to 4-MTA by the addition of a methyl group. Other methods of synthesis, such as the reaction of 4-methylthiobenzoic acid with 4-methylthioaniline, have also been developed. 4-MTA has been extensively studied for its potential applications in scientific research. It has been used as a reagent in the synthesis of various organic compounds, such as 1,2-dihydro-4-methylthio-3-nitrobenzene and 4-methylthio-3-nitrobenzamide. 4-MTA has also been used in the synthesis of various pharmaceuticals, such as the anticonvulsant drug lamotrigine. In addition, 4-MTA has been used as a chromogenic reagent to detect the presence of certain proteins and enzymes in biological samples.
Future Directions There are many potential future directions for the use of 4-MTA in scientific research. For example, it could be used to develop new pharmaceuticals or to create more efficient methods of synthesizing organic compounds. In addition, 4-MTA could be used to create new analytical methods for detecting the presence of certain proteins or enzymes in biological samples. Finally, 4-MTA could be used to study the effects of nitroaromatic compounds on biochemical and physiological processes.