1,3-PBIT dihydrobromide
Catalog Number: BT-254761
CAS Number: 200716-66-1
Molecular Formula: C12H20Br2N4S2
Molecular Weight: 444.3 g/mol
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Product Introduction
Description
1,3-PBIT dihydrobromide is a chemical compound that has gained significant attention in the scientific community due to its potential therapeutic and environmental applications. This paper aims to provide a comprehensive overview of the synthesis, chemical structure, biological activity, and potential applications of 1,3-PBIT dihydrobromide.
Properties
CAS Number
200716-66-1
Product Name
1,3-PBIT dihydrobromide
IUPAC Name
2-[3-(2-carbamimidoylsulfanylethyl)phenyl]ethyl carbamimidothioate;dihydrobromide
Molecular Formula
C12H20Br2N4S2
Molecular Weight
444.3 g/mol
InChI
InChI=1S/C12H18N4S2.2BrH/c13-11(14)17-6-4-9-2-1-3-10(8-9)5-7-18-12(15)16;;/h1-3,8H,4-7H2,(H3,13,14)(H3,15,16);2*1H
InChI Key
WCXGFTJSDASEPR-UHFFFAOYSA-N
SMILES
C1=CC(=CC(=C1)CCSC(=N)N)CCSC(=N)N.Br.Br
Synonyms
S,S'-1,3-phenylene-bis(1,2-ethanediyl)bis-isothiourea, dihydrobromide
Canonical SMILES
C1=CC(=CC(=C1)CCSC(=N)N)CCSC(=N)N.Br.Br
Method of Synthesis or Extraction
1,3-PBIT dihydrobromide can be synthesized using various methods, including the reaction of 1,3-dibromopropane with isobutylamine or the reaction of 1,3-dibromopropane with sodium isobutyrate. The efficiency and yield of each method depend on the reaction conditions, such as temperature, pressure, and catalysts. However, the synthesis of 1,3-PBIT dihydrobromide can also have environmental and safety considerations, such as the use of hazardous chemicals and the generation of waste.
Chemical Structure and Biological Activity
1,3-PBIT dihydrobromide has a chemical structure that consists of a central propane chain with an isobutylamine group and two bromine atoms attached to it. The compound has been shown to have biological activity, particularly in its ability to inhibit the activity of protein kinase C (PKC), an enzyme that plays a crucial role in cell signaling and regulation. The inhibition of PKC by 1,3-PBIT dihydrobromide has been linked to its potential therapeutic effects in various diseases, including cancer, diabetes, and cardiovascular diseases.
Biological Effects
The inhibition of PKC by 1,3-PBIT dihydrobromide can have significant effects on cell function and signal transduction. The compound has been shown to induce apoptosis, or programmed cell death, in cancer cells, and to improve insulin sensitivity in diabetic animal models. However, the potential therapeutic and toxic effects of 1,3-PBIT dihydrobromide depend on the dose, duration, and route of administration.
Applications
1,3-PBIT dihydrobromide has potential applications in various fields of research, including medical, environmental, and industrial research. In medical research, the compound has been studied for its role in drug development, particularly in the treatment of cancer and diabetes. Clinical trials have shown promising results in the use of 1,3-PBIT dihydrobromide as a potential therapeutic agent. However, the compound's potential side effects and toxicity need to be further investigated. In environmental research, 1,3-PBIT dihydrobromide has been studied for its effects on ecosystems and its role in pollution management. The compound has been shown to have potential as a sustainable and environmentally friendly alternative to traditional pollutants. In industrial research, 1,3-PBIT dihydrobromide has been used in manufacturing processes to improve product quality and efficiency. However, health and safety considerations need to be taken into account when using the compound in industrial settings.
Future Perspectives and Challenges
The use and study of 1,3-PBIT dihydrobromide face several limitations and challenges, including the need for further research on its potential therapeutic and toxic effects, the development of more efficient and sustainable synthesis methods, and the identification of new applications and targets. However, the compound's unique chemical structure and biological activity make it a promising candidate for future scientific research and development.
Conclusion:
1,3-PBIT dihydrobromide is a chemical compound with potential applications in various fields of research, including medical, environmental, and industrial research. The compound's chemical structure and biological activity make it a promising candidate for future scientific research and development. However, further research is needed to fully understand its potential therapeutic and toxic effects, as well as its environmental and industrial applications.
Conclusion:
1,3-PBIT dihydrobromide is a chemical compound with potential applications in various fields of research, including medical, environmental, and industrial research. The compound's chemical structure and biological activity make it a promising candidate for future scientific research and development. However, further research is needed to fully understand its potential therapeutic and toxic effects, as well as its environmental and industrial applications.
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