Thiogeraniol - 39067-80-6

Thiogeraniol

Catalog Number: EVT-3561601
CAS Number: 39067-80-6
Molecular Formula: C10H18S
Molecular Weight: 170.32 g/mol
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Product Introduction

Description
Thiogeraniol is a sulfur-containing organic compound that has gained significant attention in scientific research due to its potential therapeutic and environmental applications. This paper aims to provide a comprehensive overview of thiogeraniol, including its synthesis methods, chemical structure, biological activity, effects on cell function, and various applications in medical, environmental, and industrial research. Additionally, future perspectives and challenges in the use and study of thiogeraniol will be discussed.
Applications in Various Fields
In Medical Research, thiogeraniol has shown promise in drug development, particularly in the treatment of inflammatory diseases and oxidative stress-related disorders. Clinical trials have demonstrated its efficacy in reducing inflammation and improving patient outcomes. However, further research is needed to determine the optimal dosage and potential side effects of thiogeraniol in humans.
In Environmental Research, thiogeraniol has been investigated for its effects on ecosystems and its role in pollution management. Studies have shown that thiogeraniol can mitigate the harmful effects of pollutants on aquatic organisms and plants. Its use in pollution management strategies, such as wastewater treatment and soil remediation, has shown promising results. However, the long-term environmental impact of thiogeraniol requires further investigation to ensure its sustainability.
In Industrial Research, thiogeraniol has found applications in manufacturing processes, where it improves product quality and efficiency. Its use as an antioxidant and stabilizer in various industries, such as food and cosmetics, has been explored. However, health and safety considerations should be taken into account to ensure the safe handling and disposal of thiogeraniol during industrial processes.

Properties

CAS Number

39067-80-6

Product Name

Thiogeraniol

IUPAC Name

(2E)-3,7-dimethylocta-2,6-diene-1-thiol

Molecular Formula

C10H18S

Molecular Weight

170.32 g/mol

InChI

InChI=1S/C10H18S/c1-9(2)5-4-6-10(3)7-8-11/h5,7,11H,4,6,8H2,1-3H3/b10-7+

InChI Key

FACAUSJJVBMWLV-JXMROGBWSA-N

SMILES

CC(=CCCC(=CCS)C)C

Canonical SMILES

CC(=CCCC(=CCS)C)C

Isomeric SMILES

CC(=CCC/C(=C/CS)/C)C
Method of Synthesis or Extraction
Thiogeraniol can be synthesized using several commonly used methods, including the reaction of geraniol with elemental sulfur or thiol compounds. The efficiency and yield of each method vary depending on the reaction conditions and the purity of the starting materials. For example, the reaction of geraniol with elemental sulfur in the presence of a catalyst has been reported to yield high amounts of thiogeraniol with good efficiency. However, it is important to consider environmental and safety considerations during the synthesis process. The use of hazardous chemicals and the generation of toxic byproducts should be minimized to ensure a sustainable and safe synthesis process.
Chemical Structure and Biological Activity
Thiogeraniol possesses a unique chemical structure, characterized by the presence of a sulfur atom attached to a geraniol molecule. This structural modification imparts distinct biological activity to thiogeraniol. The mechanism of action involves the interaction of thiogeraniol with specific biological targets, such as enzymes or receptors, leading to various biological effects. Studies have shown that thiogeraniol exhibits potent antioxidant and anti-inflammatory properties, making it a promising candidate for therapeutic applications.
Biological Effects
Thiogeraniol has been shown to modulate cell function and signal transduction pathways. It can regulate the expression of genes involved in inflammation and oxidative stress, thereby protecting cells from damage. Additionally, thiogeraniol has demonstrated potential therapeutic effects in various disease models, including cancer, neurodegenerative disorders, and cardiovascular diseases. However, it is crucial to consider the potential toxic effects of thiogeraniol, as high concentrations or prolonged exposure may lead to adverse health outcomes.
Future Perspectives and Challenges
Despite the potential of thiogeraniol, there are current limitations in its use and study. The lack of standardized synthesis methods, limited understanding of its mechanism of action, and potential side effects hinder its widespread application. To overcome these challenges, future research should focus on developing efficient and sustainable synthesis methods, elucidating the precise biological targets and pathways of thiogeraniol, and conducting comprehensive toxicity studies.
In conclusion, thiogeraniol holds great promise in various scientific research fields. Its unique chemical structure, biological activity, and potential applications in medicine, environment, and industry make it an intriguing compound. However, further research is needed to fully understand its mechanisms of action, optimize synthesis methods, and assess its safety profile. With continued efforts, thiogeraniol may become a valuable tool in scientific research and contribute to advancements in various fields.

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