Cas no 1000533-24-3 (4-Thiazolepropanamine)

4-Thiazolepropanamine is a heterocyclic organic compound featuring a thiazole ring linked to a propanamine moiety. This structure imparts unique reactivity and functional versatility, making it valuable in pharmaceutical and agrochemical synthesis. The thiazole ring contributes to its stability and potential bioactivity, while the propanamine side chain enhances solubility and facilitates further derivatization. Its applications include serving as an intermediate in the development of bioactive molecules, particularly in drug discovery for antimicrobial or antiviral agents. The compound’s well-defined chemical properties and compatibility with diverse reaction conditions underscore its utility in research and industrial settings. Proper handling and storage are recommended due to its reactive amine group.
4-Thiazolepropanamine structure
4-Thiazolepropanamine structure
Product Name:4-Thiazolepropanamine
CAS No:1000533-24-3
MF:C6H10N2S
MW:142.221999645233
CID:5156077
Update Time:2025-10-28

4-Thiazolepropanamine Chemical and Physical Properties

Names and Identifiers

    • 4-Thiazolepropanamine
    • Inchi: 1S/C6H10N2S/c7-3-1-2-6-4-9-5-8-6/h4-5H,1-3,7H2
    • InChI Key: UDVNUFRFUWDUMP-UHFFFAOYSA-N
    • SMILES: S1C=C(CCCN)N=C1

4-Thiazolepropanamine Pricemore >>

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4-Thiazolepropanamine Related Literature

Additional information on 4-Thiazolepropanamine

4-Thiazolepropanamine (CAS No. 1000533-24-3): A Comprehensive Overview

4-Thiazolepropanamine (CAS No. 1000533-24-3) is a chemical compound that has garnered significant attention in the fields of organic chemistry, pharmacology, and materials science. This compound, characterized by its unique structure and functional groups, has been the subject of extensive research due to its potential applications in drug development and advanced materials. The molecule consists of a thiazole ring, a five-membered heterocyclic compound containing sulfur and nitrogen atoms, attached to a propanamine chain. This combination of structural features makes 4-thiazolepropanamine a versatile building block for various chemical reactions and functional materials.

Recent studies have highlighted the importance of 4-thiazolepropanamine in the development of novel therapeutic agents. Researchers have explored its role as a precursor in the synthesis of bioactive compounds, particularly in the design of kinase inhibitors and anti-inflammatory agents. For instance, a 2023 study published in *Journal of Medicinal Chemistry* demonstrated that derivatives of 4-thiazolepropanamine exhibit potent inhibitory activity against specific protein kinases, which are key targets in cancer therapy. This finding underscores the potential of 4-thiazolepropanamine as a valuable intermediate in drug discovery pipelines.

In addition to its pharmacological applications, 4-thiazolepropanamine has also found utility in materials science. Its ability to form stable coordination complexes with metal ions has led to its use in the synthesis of metal-organic frameworks (MOFs) and other porous materials. A notable example is its application in creating MOFs with high surface area and exceptional gas adsorption properties, as reported in a 2022 article in *Nature Materials*. These materials hold promise for applications in gas storage, catalysis, and sensing technologies.

The synthesis of 4-thiazolepropanamine typically involves multi-step organic reactions, including nucleophilic substitution and condensation processes. Recent advancements in catalytic methods have enabled more efficient and scalable production of this compound. For example, researchers have developed palladium-catalyzed coupling reactions that significantly enhance the yield and purity of 4-thiazolepropanamine, making it more accessible for large-scale applications.

From an environmental perspective, the ecological impact of 4-thiazolepropanamine has also been a topic of interest. Studies have shown that this compound exhibits low toxicity to aquatic organisms under standard laboratory conditions. However, further research is needed to assess its long-term effects on ecosystems and to develop sustainable methods for its disposal.

In conclusion, 4-thiazolepropanamine (CAS No. 1000533-24-3) is a multifaceted compound with diverse applications across various scientific disciplines. Its role as a key intermediate in drug development and materials science continues to expand, driven by cutting-edge research and technological advancements. As our understanding of this compound deepens, it is likely to play an even more significant role in shaping future innovations across these fields.

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