N,N,N',N'-Tetramethylazodicarboxamide (TMAD): A Versatile Reagent for Protein Modification and Organic Synthesis
Explore the critical role of TMAD, a potent thiol oxidizing agent and valuable reagent in organic synthesis, revolutionizing protein analysis and chemical transformations.
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N,N,N',N'-Tetramethylazodicarboxamide
We pride ourselves on being a reliable supplier in China of high-quality N,N,N',N'-Tetramethylazodicarboxamide (TMAD), also known as Diamide. This versatile organic compound is essential for various scientific and chemical applications, particularly in protein modification studies and sophisticated organic synthesis procedures.
- Leverage TMAD for precise protein thiol oxidation analysis, allowing for the accurate titration of protein glutathiolation to differentiate it from other oxidative protein modifications, a key aspect for understanding cellular redox states.
- Utilize TMAD as a powerful reagent in the Mitsunobu reaction, offering a stable and effective alternative to traditional reagents, enabling complex organic transformations and the synthesis of diverse chemical structures.
- Benefit from its utility as a biochemical sensor, where TMAD responds to environmental changes by altering its optical properties, paving the way for new analytical methodologies in biological research.
- Incorporate TMAD into your workflow for its proven effectiveness in biochemical research, providing a reliable tool for studying redox dynamics and protein structure-function relationships.
Key Advantages Offered
Enhanced Protein Analysis
Accurately titrate protein glutathiolation with TMAD, providing crucial insights into oxidative protein modifications and cellular health, supporting your protein thiol oxidation analysis.
Versatile Organic Synthesis
Empower your organic synthesis projects with TMAD as a reliable substitute in the Mitsunobu reaction, facilitating efficient chemical transformations and enabling the exploration of complex molecular architectures.
Reliable Biochemical Tool
Employ TMAD as a robust biochemical sensor and reagent, contributing to advancements in understanding cellular processes and the development of new diagnostic and research tools.
Key Applications
Protein Chemistry
Analyze protein modifications and redox states with TMAD, a critical tool for protein thiol oxidation and understanding cellular signaling pathways.
Organic Synthesis
Facilitate complex chemical reactions, including the Mitsunobu reaction, with TMAD, a versatile reagent for creating novel organic compounds.
Biochemical Research
Utilize TMAD as a biochemical sensor and for its role in protein glutathiolation analysis, aiding in the study of enzymatic activity and cellular responses.
Medicinal Chemistry
Explore the potential of TMAD in developing new therapeutic agents by understanding its interaction with biological systems and its role in biochemical sensing.