N6-Benzoyladenine: A Key Cytokinin Analogue for Plant Growth and Pharmaceutical Research
Harnessing the power of N6-Benzoyladenine for superior plant development and novel pharmaceutical breakthroughs.
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N6-Benzoyladenine
N6-Benzoyladenine stands out as a pivotal synthetic cytokinin, offering remarkable benefits for both plant science and pharmaceutical development. Its core value lies in its ability to significantly influence plant physiology, promoting essential processes like cell division and differentiation. This makes it an indispensable tool for researchers and cultivators seeking to optimize agricultural output and explore new therapeutic avenues.
- Promoting plant cell division and growth is a key aspect of N6-Benzoyladenine's value in agricultural applications.
- As a valuable pharmaceutical intermediate, N6-Benzoyladenine plays a role in the synthesis of new drug candidates.
- This cytokinin analogue is crucial for enhancing initial root formation and managing shoot development in plant tissue culture.
- Researchers utilize N6-Benzoyladenine as a research chemical to understand plant growth regulator mechanisms.
Advantages Provided by the Product
Enhanced Plant Development
Experience superior plant vigor and yield by leveraging N6-Benzoyladenine's capabilities to promote cell division and growth, vital for productive agriculture.
Pharmaceutical Innovation
As a key pharmaceutical intermediate, N6-Benzoyladenine supports the development of novel treatments, offering a scaffold for medicinal chemistry exploration.
Efficient Propagation
Achieve effective propagation in plant tissue culture by utilizing N6-Benzoyladenine for optimized root and shoot development, crucial for modern horticulture.
Key Applications
Plant Growth Regulation
N6-Benzoyladenine acts as a potent plant growth regulator, enhancing crop yields and improving overall plant health in agricultural settings.
Pharmaceutical Intermediates
Its role as a pharmaceutical intermediate makes it valuable for research into new drug therapies by enabling the exploration of various cellular activities.
Tissue Culture
In plant tissue culture, N6-Benzoyladenine is essential for stimulating cell division, facilitating the propagation of numerous plant species.
Biochemical Research
This compound serves as a vital research chemical for biochemical assays, aiding in the study of cellular processes and signaling pathways.