4-Allylbenzaldehyde
Catalog Number: BT-518558
CAS Number: 77785-94-5
Molecular Formula: C10H10O
Molecular Weight: 146.19 g/mol
The product is for non-human research only. Not for therapeutic or veterinary use.
Product Introduction
Description
4-Allylbenzaldehyde is an organic compound with the chemical formula C10H10O. It is a pale yellow liquid with a strong, sweet, and floral odor. This compound is widely used in various fields, including medical, environmental, and industrial research.
Properties
CAS Number
77785-94-5
Product Name
4-Allylbenzaldehyde
IUPAC Name
4-prop-2-enylbenzaldehyde
Molecular Formula
C10H10O
Molecular Weight
146.19 g/mol
InChI
InChI=1S/C10H10O/c1-2-3-9-4-6-10(8-11)7-5-9/h2,4-8H,1,3H2
InChI Key
VBZGCBZCEGCNPR-UHFFFAOYSA-N
SMILES
C=CCC1=CC=C(C=C1)C=O
Canonical SMILES
C=CCC1=CC=C(C=C1)C=O
Method of Synthesis or Extraction
There are several methods for synthesizing 4-Allylbenzaldehyde, including the Claisen-Schmidt condensation, the Wittig reaction, and the Perkin reaction. The Claisen-Schmidt condensation involves the reaction of benzaldehyde with allyl acetate in the presence of a base catalyst. The Wittig reaction involves the reaction of benzaldehyde with an allyl phosphonium salt in the presence of a base catalyst. The Perkin reaction involves the reaction of benzaldehyde with acetic anhydride in the presence of a base catalyst. The efficiency and yield of each method vary depending on the reaction conditions and the purity of the starting materials. The Claisen-Schmidt condensation is the most commonly used method for synthesizing 4-Allylbenzaldehyde, with a yield of up to 90%. However, this method requires a high temperature and long reaction time, which may lead to environmental and safety concerns.
Chemical Structure and Biological Activity
The chemical structure of 4-Allylbenzaldehyde consists of a benzene ring with an allyl group and an aldehyde group attached to it. This compound has been shown to exhibit various biological activities, including antimicrobial, antifungal, and anticancer activities. The mechanism of action of 4-Allylbenzaldehyde involves the inhibition of cell growth and proliferation by inducing apoptosis and cell cycle arrest. The biological targets of this compound include various signaling pathways, such as the MAPK/ERK pathway, the PI3K/Akt pathway, and the NF-κB pathway. The bioactivity and potency of 4-Allylbenzaldehyde depend on the concentration, exposure time, and cell type.
Biological Effects
The biological effects of 4-Allylbenzaldehyde on cell function and signal transduction have been extensively studied. This compound has been shown to modulate the expression of various genes and proteins involved in cell growth, differentiation, and survival. The potential therapeutic effects of 4-Allylbenzaldehyde include the treatment of cancer, inflammation, and microbial infections. However, this compound may also have toxic effects on normal cells and tissues, leading to adverse side effects.
Applications
In medical research, 4-Allylbenzaldehyde has been investigated for its potential role in drug development. Several studies have shown that this compound exhibits anticancer activity against various types of cancer cells, including breast cancer, lung cancer, and leukemia. Clinical trials are currently underway to evaluate the safety and efficacy of 4-Allylbenzaldehyde as a therapeutic agent. In environmental research, 4-Allylbenzaldehyde has been shown to have effects on ecosystems and may play a role in pollution management. In industrial research, this compound is used in manufacturing processes to improve product quality and efficiency. Health and safety considerations are important in the use of 4-Allylbenzaldehyde in various applications.
Future Perspectives and Challenges
The current limitations in the use and study of 4-Allylbenzaldehyde include the lack of understanding of its mechanism of action and the potential side effects on normal cells and tissues. Possible solutions and improvements include the development of more specific and potent analogs of this compound and the use of advanced technologies to study its biological effects. Future trends and prospects in the application of 4-Allylbenzaldehyde in scientific research include the identification of new therapeutic targets and the development of novel drug delivery systems. The challenges in the use and study of 4-Allylbenzaldehyde include the need for further research on its safety and efficacy and the development of standardized protocols for its use in various applications.
Conclusion:
In conclusion, 4-Allylbenzaldehyde is a versatile compound with various applications in medical, environmental, and industrial research. The synthesis, chemical structure, biological activity, biological effects, applications, future perspectives, and challenges of this compound have been discussed in this paper. Further research is needed to fully understand the potential of 4-Allylbenzaldehyde as a therapeutic agent and its impact on the environment and human health.
Conclusion:
In conclusion, 4-Allylbenzaldehyde is a versatile compound with various applications in medical, environmental, and industrial research. The synthesis, chemical structure, biological activity, biological effects, applications, future perspectives, and challenges of this compound have been discussed in this paper. Further research is needed to fully understand the potential of 4-Allylbenzaldehyde as a therapeutic agent and its impact on the environment and human health.
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