(2R)-4-Amino-2-hydroxybutyric acid
Overview
Description
The description of a compound typically includes its molecular formula, structure, and other identifiers like CAS number or IUPAC name. It may also include information about its natural occurrence or synthesis .
Synthesis Analysis
This involves detailing the methods used to synthesize the compound. It may include the types of reactions used, the reagents and conditions required, and the yield of the product .Molecular Structure Analysis
This involves determining the 3D structure of the molecule using techniques like X-ray crystallography or NMR spectroscopy .Chemical Reactions Analysis
This involves studying the reactions that the compound undergoes. It includes understanding the reaction mechanism, the products formed, and the conditions under which the reaction occurs .Physical And Chemical Properties Analysis
This involves studying properties like solubility, melting point, boiling point, acidity or basicity (pKa), reactivity, and stability .Scientific Research Applications
Bioplastic Production from Methane
(2R)-4-Amino-2-hydroxybutyric acid, also known as 4-Hydroxybutyric acid (4-HB), has been studied for its potential in bioplastic production. Nguyen and Lee (2021) reconstructed the 4-HB biosynthetic pathway in Methylosinus trichosporium OB3b, a Type II methanotroph. By engineering these strains, they were able to synthesize 4-HB from methane, demonstrating a novel approach to produce bioplastics and related monomers from an unconventional carbon source like methane (Nguyen & Lee, 2021).
Stereoselective Synthesis
Swift and Sutherland (2007) explored a stereoselective synthesis of a structurally similar compound, (2R,3S)-2-amino-3,4-dihydroxybutyric acid, using an ether directed aza-Claisen rearrangement. This method could be a significant step toward the efficient production of similar amino acid derivatives (Swift & Sutherland, 2007).
Renin Inhibitors
In the field of medicinal chemistry, Thaisrivongs et al. (1987) discussed the synthesis of novel angiotensinogen analogues containing a similar dipeptide isostere (2R,3R,4R,5S)-5-amino-3,4-dihydroxy-2-isopropyl-7-methyloctanoic acid. These compounds were potent inhibitors of human plasma renin, indicating potential for therapeutic applications (Thaisrivongs et al., 1987).
Enoyl-CoA Hydratase Reaction Studies
The stereochemistry of substrates like 4-Hydroxybutyric acid in enzymatic reactions has been explored by Willadsen and Eggerer (1975). Their research provided insights into the enzymatic mechanisms involving compounds like 4-Hydroxybutyric acid, a fundamental aspect for understanding metabolic pathways and designing new enzymes (Willadsen & Eggerer, 1975).
Chelation Properties
Research by Braibanti et al. (1971) on DL-2-amino-4-hydroxybutyric acid highlighted its chelation properties with divalent metals, suggesting potential applications in areas like metal recovery and environmental remediation (Braibanti et al., 1971).
Safety And Hazards
Future Directions
properties
IUPAC Name |
(2R)-4-amino-2-hydroxybutanoic acid |
Source
|
|---|---|---|
| Source | PubChem | |
| URL | https://pubchem.ncbi.nlm.nih.gov | |
| Description | Data deposited in or computed by PubChem | |
InChI |
InChI=1S/C4H9NO3/c5-2-1-3(6)4(7)8/h3,6H,1-2,5H2,(H,7,8)/t3-/m1/s1 |
Source
|
| Source | PubChem | |
| URL | https://pubchem.ncbi.nlm.nih.gov | |
| Description | Data deposited in or computed by PubChem | |
InChI Key |
IVUOMFWNDGNLBJ-GSVOUGTGSA-N |
Source
|
| Source | PubChem | |
| URL | https://pubchem.ncbi.nlm.nih.gov | |
| Description | Data deposited in or computed by PubChem | |
Canonical SMILES |
C(CN)C(C(=O)O)O |
Source
|
| Source | PubChem | |
| URL | https://pubchem.ncbi.nlm.nih.gov | |
| Description | Data deposited in or computed by PubChem | |
Isomeric SMILES |
C(CN)[C@H](C(=O)O)O |
Source
|
| Source | PubChem | |
| URL | https://pubchem.ncbi.nlm.nih.gov | |
| Description | Data deposited in or computed by PubChem | |
Molecular Formula |
C4H9NO3 |
Source
|
| Source | PubChem | |
| URL | https://pubchem.ncbi.nlm.nih.gov | |
| Description | Data deposited in or computed by PubChem | |
DSSTOX Substance ID |
DTXSID90415326 |
Source
|
| Record name | (2R)-4-AMINO-2-HYDROXYBUTYRIC ACID | |
| Source | EPA DSSTox | |
| URL | https://comptox.epa.gov/dashboard/DTXSID90415326 | |
| Description | DSSTox provides a high quality public chemistry resource for supporting improved predictive toxicology. | |
Molecular Weight |
119.12 g/mol |
Source
|
| Source | PubChem | |
| URL | https://pubchem.ncbi.nlm.nih.gov | |
| Description | Data deposited in or computed by PubChem | |
Product Name |
(2R)-4-Amino-2-hydroxybutyric acid | |
CAS RN |
31771-40-1 |
Source
|
| Record name | (2R)-4-AMINO-2-HYDROXYBUTYRIC ACID | |
| Source | EPA DSSTox | |
| URL | https://comptox.epa.gov/dashboard/DTXSID90415326 | |
| Description | DSSTox provides a high quality public chemistry resource for supporting improved predictive toxicology. | |
Retrosynthesis Analysis
AI-Powered Synthesis Planning: Our tool employs the Template_relevance Pistachio, Template_relevance Bkms_metabolic, Template_relevance Pistachio_ringbreaker, Template_relevance Reaxys, Template_relevance Reaxys_biocatalysis model, leveraging a vast database of chemical reactions to predict feasible synthetic routes.
One-Step Synthesis Focus: Specifically designed for one-step synthesis, it provides concise and direct routes for your target compounds, streamlining the synthesis process.
Accurate Predictions: Utilizing the extensive PISTACHIO, BKMS_METABOLIC, PISTACHIO_RINGBREAKER, REAXYS, REAXYS_BIOCATALYSIS database, our tool offers high-accuracy predictions, reflecting the latest in chemical research and data.
Strategy Settings
| Precursor scoring | Relevance Heuristic |
|---|---|
| Min. plausibility | 0.01 |
| Model | Template_relevance |
| Template Set | Pistachio/Bkms_metabolic/Pistachio_ringbreaker/Reaxys/Reaxys_biocatalysis |
| Top-N result to add to graph | 6 |
Feasible Synthetic Routes
Citations
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Please be aware that all articles and product information presented on BenchChem are intended solely for informational purposes. The products available for purchase on BenchChem are specifically designed for in-vitro studies, which are conducted outside of living organisms. In-vitro studies, derived from the Latin term "in glass," involve experiments performed in controlled laboratory settings using cells or tissues. It is important to note that these products are not categorized as medicines or drugs, and they have not received approval from the FDA for the prevention, treatment, or cure of any medical condition, ailment, or disease. We must emphasize that any form of bodily introduction of these products into humans or animals is strictly prohibited by law. It is essential to adhere to these guidelines to ensure compliance with legal and ethical standards in research and experimentation.
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