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2-(AMINOMETHYL)-5-METHYLPYRAZINE is a synthetic compound that has a wide range of applications in the chemical industry.
This compound is commonly used as a building block for the synthesis of various chemicals, drugs, and other products.
The synthetic routes to 2-(AMINOMETHYL)-5-METHYLPYRAZINE can be classified into several categories, including classical synthetic routes, semi-synthetic routes, and total synthetic routes.
Classical synthetic routes refer to the traditional methods of synthesizing this compound.
These routes typically involve several steps, including the preparation of starting materials, the reaction of the starting materials, and the purification of the product.
The classical synthetic routes to 2-(AMINOMETHYL)-5-METHYLPYRAZINE include the use of reagents such as hydrazine and methylamine, as well as the use of various organic reactions such as condensation reactions, substitution reactions, and reduction reactions.
One of the classical synthetic routes to 2-(AMINOMETHYL)-5-METHYLPYRAZINE involves the use of hydrazine and methylamine.
The first step in this route is the preparation of a compound called 3-methylpicolinic acid.
This compound is then treated with hydrazine and methylamine to produce 2-(AMINOMETHYL)-5-METHYLPYRAZINE.
Another classical synthetic route to 2-(AMINOMETHYL)-5-METHYLPYRAZINE involves the use of the condensation reaction of salicylaldehyde and pyridine.
This reaction produces a compound called 5-methylpyrazine-2-carboxaldehyde, which is then treated with methylamine to produce the desired product.
Semi-synthetic routes refer to synthetic methods that involve the use of natural products or their derivatives as starting materials.
These routes typically involve one or more steps that involve the modification of the natural product or its derivatives.
The semi-synthetic routes to 2-(AMINOMETHYL)-5-METHYLPYRAZINE include the use of natural products such as quinine and strychnine, as well as their derivatives.
One of the semi-synthetic routes to 2-(AMINOMETHYL)-5-METHYLPYRAZINE involves the use of quinine as a starting material.
The first step in this route is the conversion of quinine to the cyclized compound quinoline.
This compound is then treated with various reagents to produce 2-(AMINOMETHYL)-5-METHYLPYRAZINE.
Total synthetic routes refer to synthetic methods that involve the total synthesis of the target compound from simple starting materials.
These methods typically involve a large number of steps and require a high level of expertise and sophisticated equipment.
The total synthetic routes to 2-(AMINOMETHYL)-5-METHYLPYRAZINE involve the use of various organic reactions such as condensation reactions, substitution reactions, and reduction reactions.
One of the total synthetic routes to 2-(AMINOMETHYL)-5-METHYLPYRAZINE involves the use of the Edwards condensation reaction.
This reaction involves the condensation of two aromatic aldehydes in the presence of a base to produce a compound called 2-(2-nitrophenyl)chroman.
This compound is then treated with various reagents to produce the desired product.
In conclusion, the synthetic routes to 2-(AMINOMETHYL)-5-METHYLPYRAZINE are many and varied.
These routes can be class
