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Catalog Number:
15925
CAS Number:
1049740-41-1
(R)-γ-(2-Naphthalenylmethyl)-L-proline·HCl
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$72.31 /25MG
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Product Information

(R)-g-(2-Naphthalenylmethyl)-L-proline·HCl is a specialized compound that serves as a valuable building block in pharmaceutical research and development. This hydrochloride salt of L-proline is notable for its unique structural features, which include a naphthylmethyl group that enhances its biological activity. Researchers utilize this compound in the synthesis of various bioactive molecules, particularly in the development of novel therapeutics targeting neurological disorders and other medical conditions. Its chiral nature allows for the exploration of stereochemistry in drug design, making it an essential tool for medicinal chemists.

The compound's ability to modulate biological pathways has garnered attention in the field of drug discovery, where it is employed in the design of enzyme inhibitors and receptor modulators. Its distinct properties make it an attractive candidate for studies focused on improving drug efficacy and reducing side effects. With its relevance in both academic research and industrial applications, (R)-g-(2-Naphthalenylmethyl)-L-proline·HCl stands out as a compound with significant potential for advancing therapeutic innovations.

CAS Number
1049740-41-1
Molecular Formula
C16H17NO2·HCl
Molecular Weight
291.78
MDL Number
MFCD06659418
PubChem ID
53398249
Conditions
Store at 0-8°C
General Information
CAS Number
1049740-41-1
Molecular Formula
C16H17NO2·HCl
Molecular Weight
291.78
MDL Number
MFCD06659418
PubChem ID
53398249
Conditions
Store at 0-8°C
Properties
Additional property information coming soon!
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Safety and Regulations
Hazmat
No
Antibiotic
No
DEA-regulated
No
Warnings
-
Applications

(R)-g-(2-Naphthalenylmethyl)-L-proline·HCl is widely utilized in research focused on

  • Pharmaceutical Development: This compound serves as a crucial building block in the synthesis of various pharmaceuticals, particularly in developing drugs targeting neurological disorders. Its unique structure allows for enhanced binding to specific receptors.
  • Biochemical Research: Researchers use this compound to study protein interactions and enzyme mechanisms. Its ability to mimic natural substrates makes it valuable for understanding complex biochemical pathways.
  • Materials Science: The compound is explored in the creation of novel materials, such as polymers and nanomaterials, due to its unique chemical properties that can enhance material strength and flexibility.
  • Chiral Catalysis: It acts as a chiral catalyst in asymmetric synthesis, providing a more efficient and selective route to produce enantiomerically pure compounds, which is essential in the production of many agrochemicals and pharmaceuticals.
  • Drug Delivery Systems: The compound is investigated for its potential in drug delivery applications, where its properties can be utilized to improve the solubility and bioavailability of therapeutic agents.

Citations