113408-53-0Relevant academic research and scientific papers
Method for synthesizing glutamic acid-1-methyl ester-5-tert-butyl ester
-
Paragraph 0021; 0023, (2019/04/13)
The invention discloses a method for synthesizing glutamic acid-1-methyl ester-5-tert-butyl ester. The method comprises the following steps: generating dimethyl glutamate by using glutamic acid as aninitial raw material in methyl alcohol under the effect of thionyl chloride; reacting the dimethyl glutamate with triphenylchloromethane to generate dimethyl glutamate with triphenylmethyl protected amino; taking off methyl ester on the 5 position of the dimethyl glutamate with triphenylmethyl protected amino under the effect of sodium hydroxide to generate triphenylmethyl-glutamic acid-1-methyl ester; reacting the triphenylmethyl-glutamic acid-1-methyl ester-5-tert-butyl ester with trichloroacetic imine tert-butyl ester to generate triphenylmethyl-glutamic acid-1-methyl ester-5-tert-butyl ester, adding a small amount of triisopropylsilane into the triphenylmethyl-glutamic acid-1-methyl ester-5-tert-butyl ester in a low-concentration dichloromethane trifluoroacetate solution to take off triphenylmethyl to generate the glutamic acid-1-methyl ester-5-tert-butyl ester. The method is simple in operation, has few byproduct which can be extremely easy to treat and high product yield, and cansolve the problem of large operation difficulty in an existing synthesizing method.
A convenient synthesis of amino acid p-nitroanilides; synthons in the synthesis of protease substrates
Rijkers, Dirk T. S.,Adams, Hans P. H. M.,Hemker, H. Coenraad,Tesser, Godefridus I.
, p. 11235 - 11250 (2007/10/02)
A method is described for the synthesis of N(α)-protected bi- and trifunctional amino acid p-nitroanilides. The reaction uses phosphorus oxychloride as the condensing agent. The synthesis is simple, rapid, free of racemization and affords yields between 70-90%. The synthesis can be performed not only with amino acid derivatives of the urethane type including acid-labile (Z, Boc) and base-labile (Fmoc, Msc) N(α)-protective functions or allyl-derived protections, but also with N(α)-trityl amino acids, albeit in lower yield. The reaction runs in pyridine and its mechanism implies carboxyl activation by formation of a mixed anhydride with phosphorodichloridic acid (HOPOCl2).
