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D-(-)-3-methoxyphenylglycine is a chiral chemical compound that belongs to the class of phenylglycines. It possesses a specific conformation and is known for its unique structure and properties, making it a valuable tool in the development of new drug molecules with specific biological activities.

25698-23-1

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25698-23-1 Usage

Uses

Used in Pharmaceutical Industry:
D-(-)-3-methoxyphenylglycine is used as a building block for the synthesis of various pharmaceuticals. Its unique structure allows for the development of drug molecules with specific biological activities, contributing to the advancement of medicine.
Used in Agrochemical Industry:
D-(-)-3-methoxyphenylglycine is also utilized as a building block in the synthesis of agrochemicals. Its specific conformation aids in the development of effective compounds for agricultural applications.
Used in Therapeutic Applications:
D-(-)-3-methoxyphenylglycine has been studied for its potential as a therapeutic agent for various conditions, including neurological disorders and inflammation. Its unique properties make it a promising candidate for the treatment of these conditions.

Check Digit Verification of cas no

The CAS Registry Mumber 25698-23-1 includes 8 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 5 digits, 2,5,6,9 and 8 respectively; the second part has 2 digits, 2 and 3 respectively.
Calculate Digit Verification of CAS Registry Number 25698-23:
(7*2)+(6*5)+(5*6)+(4*9)+(3*8)+(2*2)+(1*3)=141
141 % 10 = 1
So 25698-23-1 is a valid CAS Registry Number.

25698-23-1Downstream Products

25698-23-1Relevant academic research and scientific papers

One-Pot Enantioselective Synthesis of d-Phenylglycines from Racemic Mandelic Acids, Styrenes, or Biobased l-Phenylalanine via Cascade Biocatalysis

Zhou, Yi,Wu, Shuke,Li, Zhi

supporting information, p. 4305 - 4316 (2017/11/21)

Enantiopure d-phenylglycine and its derivatives are an important group of chiral amino acids with broad applications in thepharmaceutical industry. However, the existing synthetic methods for d-phenylglycine mainly rely on toxic cyanide chemistry and multistep processes. To provide green and safe alternatives, we envisaged cascade biocatalysis for the one-pot synthesis of d-phenylglycine from racemic mandelic acid, styrene, and biobased l-phenylalanine, respectively. Recombinant Escherichia coli (LZ110) was engineered to coexpress four enzymes to catalyze a 3-step reaction in one pot, transforming mandelic acid (210 mM) to give enantiopure d-phenylglycine in 29.5 g L?1 (195 mM) with 93% conversion. Using the same whole-cell catalyst, twelve other d-phenylglycine derivatives were also produced from the corresponding mandelic acid derivatives in high conversion (58–94%) and very high ee (93–99%). E. coli (LZ116) expressing seven enzymes was constructed for the transformation of styrene to enantiopure d-phenylglycine in 80% conversion via a one-pot 6-step cascade biotransformation. Twelve substituted d-phenylglycines were also produced from the corresponding styrene derivatives in high conversion (45–90%) and very high ee (92–99%) via the same cascade reactions. A nine-enzymeexpressing E. coli (LZ143) was engineered to transform biobased l-phenylalanine to enantiopure d-phenylglycine in 83% conversion via a one-pot 8-step transformation. Preparative biotransformations were also demonstrated. The high-yielding synthetic methods use cheap and green reagents (ammonia, glucose, and/or oxygen), and E. coli whole-cell catalysts, thus providing green and useful alternative methods for manufacturing d-phenylglycine. (Figure presented.).

Practical and convenient enzymatic synthesis of enantiopure α-amino acids and amides

Wang, Mei-Xiang,Lin, Shuang-Jun

, p. 6542 - 6545 (2007/10/03)

Catalyzed by the nitrile hydratase and the amidease in Rhodococcus sp. AJ270 cells under very mild conditions, a number of α-aryl- and α-alkyl-substituted DL-glycine nitriles 1 rapidly underwent a highly enantioselective hydrolysis to afford D-(-)-α-amino acid amides 2 and L-(+)-α-amino acids 3 in high yields with excellent enantiomeric excesses in most cases. The overall enantioselectivity of the biotransformations of nitriles originated from the combined effects of a high L-enantioselective amidase and a low enantioselective nitrile hydratase. The influence of the substrates on both reaction efficiency and enantioselectivity was also discussed in terms of steric and electronic effects. Coupled with chemical hydrolysis of D-(-)-α-phenylglycine amide, biotransformation of DL-phenylglycine nitrile was applied in practical scale to produce both D- and L-phenylglycines in high optical purity.

Production of ring-substituted D-phenylglycines by microbial or enzymatic hydrolysis/deracemisation of the corresponding DL-hydantoins

Garcia, Maria J.,Azerad, Robert

, p. 85 - 92 (2007/10/03)

A series of 17 ring-mono and -disubstituted D-phenylglycine derivatives was prepared in high enantiomeric purity by enzymatic hydrolysis and deracemisation of the corresponding DL-hydantoins, using D-hydantoinase activities of microorganisms or purified enzymes, followed by diazotation of the resulting N-carbamyl-D-amino acids. No significant L-hydantoinase activity was found to produce the corresponding L-enantiomers.

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