1878-83-7

Basic information

• Product Name: (3-hydroxyphenoxy)acetic acid
• CAS NO: 1878-83-7
• Molecular Formula: C₈H₈O₄
• Molecular Weight: 168.1467
• Mol File: 1878-83-7.mol
• Article Data: 5

Chemical Properties

• Boiling Point: 371.1°C at 760 mmHg
• Flash Point: 157.6°C
• Density: 1.367g/cm³
• Vapor Pressure: 3.66E-06mmHg at 25°C
• Refractive Index: 1.581
• CAS DataBase Reference: (3-hydroxyphenoxy)acetic acid(CAS DataBase Reference)
• NIST Chemistry Reference: (3-hydroxyphenoxy)acetic acid(1878-83-7)
• EPA Substance Registry System: (3-hydroxyphenoxy)acetic acid(1878-83-7)

Safety Data

• Hazardous Substances Data: 1878-83-7(Hazardous Substances Data)

Usage

Description

(3-hydroxyphenoxy)acetic acid, also known as mandelic acid, is a chemical compound with the molecular formula C8H8O4. It is a white crystalline powder with a faint odor and is soluble in water and most organic solvents. This versatile chemical is known for its unique properties and has a wide range of applications across different industries.

Uses

Used in Plant Growth Regulation:
(3-hydroxyphenoxy)acetic acid is used as a plant growth regulator for promoting cell elongation and the formation of roots and flowers in plants. It serves as a synthetic auxin, which is essential for various plant growth processes.
Used in Pharmaceutical Manufacturing:
(3-hydroxyphenoxy)acetic acid is used as an intermediate in the manufacturing of various pharmaceuticals. Its unique properties make it a valuable component in the development of new drugs and medications.
Used in Dye Production:
(3-hydroxyphenoxy)acetic acid is used as a key component in the production of dyes. Its chemical structure allows for the creation of a variety of dyes with different properties and applications.
Used in Organic Compound Synthesis:
(3-hydroxyphenoxy)acetic acid is used as a building block in the synthesis of other organic compounds. Its versatility makes it a valuable precursor in the production of various organic chemicals.
Used in Materials Science:
(3-hydroxyphenoxy)acetic acid has potential applications in the field of materials science, such as in the synthesis of functional polymers and biodegradable plastics. Its unique properties make it a promising candidate for developing new materials with specific characteristics and applications.

Upstream product

• 68747-24-0 ethyl 2-(3-hydroxyphenoxy)acetate 
• 6339-04-4 2-(3-acetamidophenoxy)acetic acid 
• 79-11-8 chloroacetic acid 
• 108-46-3 recorcinol 

Downstream Products

• 2012-28-4 (2,4,6-Trijod-3-hydroxy-phenoxy)-essigsaeure 
• 34918-51-9 2-(3-Hydroxy-phenoxy)-N-methyl-acetamide 
• 86605-34-7 2-(2'-fluorobenzeneazo)-5-hydroxy-phenoxyacetic acid 
• 86605-32-5 2-(2'-methoxybenzeneazo)-5-hydroxy-phenoxyacetic acid 
• 86605-36-9 2-(4'-methoxybenzeneazo)-5-hydroxy-phenoxyacetic acid 
• 86605-35-8 2-(4'-nitrobenzeneazo)-5-hydroxy-phenoxyacetic acid 
• 86605-31-4 2-(benzeneazo)-5-hydroxy-phenoxyacetic acid 
• 86605-28-9 2-(2'-hydroxybenzeneazo)-5-hydroxy-phenoxyacetic acid 
• 86605-33-6 2-(2'-chlorobenzeneazo)-5-hydroxy-phenoxyacetic acid 
• 86605-37-0 2-(3'-hydroxybenzeneazo)-5-hydroxy-phenoxyacetic acid 
• 102-39-6 1,3-phenylenedioxydiacetic acid 
• 86605-38-1 2-(2'-chlorobenzeneazo)-5-methoxy-phenoxyacetic acid 
• 86605-39-2 methyl 2-(2'-chlorobenzeneazo)-5-hydroxy-phenoxyacetate 
• 86605-40-5 methyl 2-(2'-methoxybenzeneazo)-5-hydroxy-phenoxyacetate 

Relevant articles and documents

Novel coupled molecules from active structural motifs of synthetic and natural origin as immunosuppressants

Introduction: Nitric oxide (NO) is an important mediator in the pathogenesis and control of immune system-related disorders and its levels are modulated by inducible NO synthase (iNOS). Oxidative stress is another pathological indication in majority of autoimmune disorders. The present study aims at the development of coupled molecules via selection of pharmacophores for both immunomodulatory and antioxidant activities through iNOS inhibition. Methods: Variedly substituted coumarin moieties are coupled with naturally occurring phenols through an amide linkage and were predicted for activities using computer-based program PASS. The compounds predicted to have dual activities were synthesized. Docking studies were carried out against iNOS (PDB 1R35) and compounds having good docking score were evaluated for immunomodulatory and antioxidant activities. Results: The synthesized compounds were found to be pure and were obtained in good yields. Compounds with maximum docking score (YR1a, YR2e, YR2c and YR4e) were selected for evaluation by in vitro models. Compounds YR2e and YR2c markedly inhibited the reduction of NBT dye and showed maximum percent iNOS inhibition. In DPPH assay, compound YR4e was observed as the most potent antioxidant (EC50 0.33 μM/mL). Based on these studies, compounds YR2e and YR2c were selected for haemagglutination test. Compound YR2e was observed as the most active immunosuppressant with maximal inhibitory ability of iNOS and NBT reduction and lower HAT value of 3.5. Conclusion: Compound YR2e can be utilized as a pharmacological agent in the prevention or treatment of immunomodulatory diseases such as tumors, rheumatoid arthritis, ulcerative colitis, organ transplant and other autoimmune disorders.

Antimalarial activity enhancement in hydroxymethylcarbonyl (HMC) isostere-based dipeptidomimetics targeting malarial aspartic protease plasmepsin

Plasmepsin (Plm) is a potential target for new antimalarial drugs, but most reported Plm inhibitors have relatively low antimalarial activities. We synthesized a series of dipeptide-type HIV protease inhibitors, which contain an allophenylnorstatine-dimethylthioproline scaffold to exhibit potent inhibitory activities against Plm II. Their activities against Plasmodium falciparum in the infected erythrocyte assay were largely different from those against the target enzyme. To improve the antimalarial activity of peptidomimetic Plm inhibitors, we attached substituents on a structure of the highly potent Plm inhibitor KNI-10006. Among the derivatives, we identified alkylamino compounds such as 44 (KNI-10283) and 47 (KNI-10538) with more than 15-fold enhanced antimalarial activity, to the sub-micromolar level, maintaining their potent Plm II inhibitory activity and low cytotoxicity. These results suggest that auxiliary substituents on a specific basic group contribute to deliver the inhibitors to the target Plm.

Roentgen contrast media on the basis of iodinated phenoxy fatty acids. Part 2.

-