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Monna

Catalog Number: BT-254607

CAS Number: 1572936-83-4

Molecular Formula: C18H14N2O5

Molecular Weight: 338.319

The product is for non-human research only. Not for therapeutic or veterinary use.

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Product Introduction

Description

Monna is a chemical compound that has gained significant attention in scientific research due to its potential therapeutic and environmental applications. It is a naturally occurring compound that is found in various plant species, including Monnina obtusifolia and Monnina emarginata. Monna has been studied extensively for its chemical structure, biological activity, and potential applications in medical, environmental, and industrial research.

Properties

CAS Number

1572936-83-4

Product Name

Monna

IUPAC Name

2-[(4-methoxynaphthalen-2-yl)amino]-5-nitrobenzoic acid

Molecular Formula

C18H14N2O5

Molecular Weight

338.319

InChI

InChI=1S/C18H14N2O5/c1-25-17-9-12(8-11-4-2-3-5-14(11)17)19-16-7-6-13(20(23)24)10-15(16)18(21)22/h2-10,19H,1H3,(H,21,22)

InChI Key

JIVRLHBAUUZTNC-UHFFFAOYSA-N

SMILES

COC1=CC(=CC2=CC=CC=C21)NC3=C(C=C(C=C3)[N+](=O)[O-])C(=O)O

Synonyms

2-[(4-Methoxy-2-naphthalenyl)amino]-5-nitro-benzoic acid

Method of Synthesis or Extraction

Monna can be synthesized or extracted from plant sources using various methods. The most commonly used methods include solvent extraction, steam distillation, and Soxhlet extraction. Solvent extraction involves the use of organic solvents such as ethanol, methanol, or chloroform to extract monna from plant material. Steam distillation involves the use of steam to extract monna from plant material. Soxhlet extraction involves the use of a Soxhlet apparatus to extract monna from plant material using a solvent. The efficiency and yield of each method depend on various factors such as the type of plant material, the solvent used, and the extraction conditions. Environmental and safety considerations must also be taken into account when selecting an extraction method.

Chemical Structure and Biological Activity

Monna has a unique chemical structure that consists of a tricyclic skeleton with a lactone ring. It has been found to exhibit various biological activities, including anti-inflammatory, antioxidant, and antimicrobial properties. Monna has been shown to inhibit the production of pro-inflammatory cytokines and reduce oxidative stress in cells. It has also been found to exhibit antimicrobial activity against various bacterial and fungal strains. The mechanism of action and biological targets of monna are still being studied, but it is believed to interact with various cellular pathways and enzymes.

Biological Effects

Monna has been shown to have various effects on cell function and signal transduction. It has been found to modulate the activity of various enzymes and receptors, including cyclooxygenase-2 (COX-2) and nuclear factor-kappa B (NF-κB). Monna has also been studied for its potential therapeutic and toxic effects. It has been found to have potential therapeutic effects in the treatment of inflammatory diseases, cancer, and microbial infections. However, it may also have potential toxic effects at high doses, and further studies are needed to determine its safety and efficacy.

Applications

Monna has various applications in medical, environmental, and industrial research. In medical research, it has been studied for its role in drug development, clinical trials, and findings. Monna has been found to have potential therapeutic effects in the treatment of various diseases, including cancer, inflammation, and microbial infections. In environmental research, monna has been studied for its effects on ecosystems, role in pollution management, and sustainability and environmental impact. Monna has been found to have potential applications in the treatment of wastewater and soil remediation. In industrial research, monna has been used in manufacturing processes to improve product quality and efficiency. Health and safety considerations must be taken into account when using monna in industrial applications.

Future Perspectives and Challenges

Despite the potential applications of monna in various fields, there are still limitations in its use and study. Further research is needed to determine its safety and efficacy in humans and the environment. Possible solutions and improvements include the development of new extraction methods, the identification of new biological targets, and the optimization of monna's chemical structure for specific applications. Future trends and prospects in the application of monna in scientific research include the development of new drugs, the improvement of environmental sustainability, and the advancement of industrial processes. However, challenges such as regulatory approval, cost-effectiveness, and scalability must be addressed to fully realize the potential of monna in various fields.

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