Atomfair 6-Benzamidopurine C12H9N5O

Description 6-Benzamidopurine (CAS No. 4005-49-6) is a synthetic cytokinin analog with the molecular formula C12H9N5O and IUPAC name N-(7H-purin-6-yl)benzamide . This biologically active compound is widely utilized in plant tissue culture and agricultural research due to its ability to stimulate cell division and promote shoot proliferation. With a purity grade suitable for laboratory and research applications, our 6-Benzamidopurine is rigorously tested to ensure consistency and performance in experimental settings. It is supplied as a crystalline powder with high solubility in dimethyl sulfoxide (DMSO) and alkaline solutions. Ideal for researchers studying plant growth regulators, this compound is a valuable tool for…

Description

6-Benzamidopurine (CAS No. 4005-49-6) is a synthetic cytokinin analog with the molecular formula C₁₂H₉N₅O and IUPAC name N-(7H-purin-6-yl)benzamide. This biologically active compound is widely utilized in plant tissue culture and agricultural research due to its ability to stimulate cell division and promote shoot proliferation. With a purity grade suitable for laboratory and research applications, our 6-Benzamidopurine is rigorously tested to ensure consistency and performance in experimental settings. It is supplied as a crystalline powder with high solubility in dimethyl sulfoxide (DMSO) and alkaline solutions. Ideal for researchers studying plant growth regulators, this compound is a valuable tool for optimizing in vitro propagation, delaying senescence, and enhancing morphogenesis in plant biotechnology.

CAS No: 4005-49-6
Molecular Formula: C12H9N5O
Molecular Weight: 239.23
Exact Mass: 239.08070993
Monoisotopic Mass: 239.08070993
IUPAC Name: N-(7H-purin-6-yl)benzamide
SMILES: C1=CC=C(C=C1)C(=O)NC2=NC=NC3=C2NC=N3
Synonyms: N6-Benzoyladenine, 4005-49-6, 6-Benzamidopurine, n-benzoyladenine, Benzamide, N-1H-purin-6-yl-

Application

6-Benzamidopurine is primarily used as a plant growth regulator in tissue culture to induce shoot formation and enhance cytokinin activity. It is effective in delaying leaf senescence and improving the shelf life of harvested greens. Researchers also employ it to study signal transduction pathways in plant development. Its applications extend to micropropagation protocols for ornamental and horticultural species.

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