Proline

For Research Use Only.
Category
Alkaloids
Cat.No.
NP0500
CAS
147-85-3
Product Name
Proline
Structure

Product Details

Description
L-Proline, also known as 2-Pyrrolidinecarboxylic acid, is an α-amino acid that is used in the biosynthesis of proteins. L-Proline is usually used as an amino acid and precursor (with vitamin C) for collagen, the building block of the structure of tendons, ligaments, arteries, veins and muscles. Our body can synthesize it from L-glutamate.
Protein supplement in health care products.
Synonyms
H-Pro-OH; (-)-2-Pyrrolidinecarboxylic Acid; (-)-Proline; (S)-(-)-Proline; (S)-2-Carboxypyrrolidine; (S)-2-Pyrrolidinecarboxylic Acid
IUPAC Name
(2S)-pyrrolidine-2-carboxylic acid
Molecular Weight
115.13
Molecular Formula
C5H9NO2
Canonical SMILES
C1CC(NC1)C(=O)O
InChI
InChI=1S/C5H9NO2/c7-5(8)4-2-1-3-6-4/h4,6H,1-3H2,(H,7,8)/t4-/m0/s1
InChIKey
ONIBWKKTOPOVIA-BYPYZUCNSA-N
Boiling Point
252.2 °C / 760 mmHg
Melting Point
220-222°C
Flash Point
106.3°C
Purity
>98%
Density
1.35g/cm3
Solubility
1.41 M;Solubility in 100 mL of water: 127 g at 0 deg C; 162 g at 25 deg C; 206.7 g at 50 deg C; 239 g at 65 deg C;Solubility in alcohol: 1.55% at 35 deg C; insoluble in ether, butanol, isopropanol;Very soluble in water, alcohol; insoluble in ether;Very soluble in water; slightly soluble in ethanol, acetone, benzene; insoluble in ether, propanol;162.0 mg/mL;
Appearance
White Solid
Application

Proline is a non-essential amino acid that plays a vital role in drug discovery due to its unique properties and widespread applications in medicinal chemistry. Its unique structural properties and widespread presence in biological systems make it an attractive building block for the design and synthesis of pharmaceutical compounds with desired biological activities.

Proline has a cyclic structure and a pyrrolidine ring, which are known for imparting structural rigidity to peptides and proteins. Because of this structural characteristic, proline is a crucial part of the design of peptidomimetics, which are artificial substances that resemble peptides in both structure and function but are more accessible and stable. Researchers can improve the pharmacological properties and therapeutic potential of peptide-based medications by adding proline or proline derivatives to improve their stability, bioavailability, and specificity.

One key application of proline in drug discovery is its role in the development of enzyme inhibitors. Proline-containing compounds have been used as enzyme inhibitors against a variety of biological targets, including proteases, kinases, and other enzymes involved in disease pathways. By maximizing binding interactions with the target enzyme's active site, proline's structural rigidity makes it easier to build strong and targeted enzyme inhibitors.

In addition, proline has been widely used in the design of peptidomimetics, which are synthetic compounds that mimic the structure and function of peptides but have improved drug-like properties. Proline-containing peptidomimetics have been developed as inhibitors of protein-protein interactions, which play a vital role in various disease processes including cancer and inflammation. By constructing peptidomimetics with proline-derived scaffolds, researchers can modulate protein-protein interactions with high affinity and selectivity, providing new avenues for drug discovery and development.

Another important application of proline in drug discovery is its use in the design of conformationally constrained molecules. Proline's distinct structure can be utilized to improve the bioactivity, selectivity, and stability of therapeutic compounds by introducing conformational limitations. Improved pharmacokinetic and pharmacodynamic properties of receptor ligands, enzyme inhibitors, and antibacterial medicines have all been developed using conformationally restricted proline derivatives.

In addition, proline and its derivatives have been applied in the development of peptide drugs with enhanced oral bioavailability. Proline-containing peptides are made to be more stable and permeable across biological membranes because peptides are easily broken down by enzymes and have a low oral absorption rate. Researchers can overcome the drawbacks of peptide therapies by enhancing the oral bioavailability and metabolic stability of peptide medications by introducing proline or its derivatives into peptide sequences.

In addition to its role in drug design, proline has become a valuable tool in drug delivery systems. Proline-based prodrugs have been developed to improve the solubility, stability, and bioavailability of poorly water-soluble drug molecules. Proline conjugation to drug molecules enhances their water solubility and facilitates their passage across biological barriers, thereby improving therapeutic efficacy and reducing side effects.

In addition, proline has been used to design multifunctional drug carriers for targeted drug delivery. Proline-containing polymers, liposomes, and nanoparticles have been designed to encapsulate and deliver therapeutic agents to specific disease sites, thereby achieving site-specific drug release and enhancing therapeutic efficacy. By incorporating proline moieties into drug carriers, researchers can modulate their physicochemical properties and biological interactions, thereby achieving efficient drug delivery and improving patient outcomes.

Overall, the application of proline in drug discovery covers a wide range of areas, including enzyme inhibition, peptide mimetic design, conformational constraints, oral bioavailability enhancement, prodrug development, and targeted drug delivery. The unique structural properties of proline make it a versatile building block for the design and synthesis of drug compounds with improved pharmacological properties and therapeutic potential. As researchers continue to explore the diverse applications of proline in drug discovery, the development of innovative proline drugs is expected to make significant contributions to advances in medicine and treatment.

Storage
Store at RT
Color
Pale Yellow to Light Yellow
Form
Solid
MDL
MFCD00064318
Stability
Stable. Incompatible with strong oxidizing agents.
Vapor Pressure
3.02X10-8 mm Hg at 25 deg C (est);
WGK Germany
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