Date published: 2025-9-5
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Fungal Metabolites

Santa Cruz Biotechnology now offers a broad range of fungal metabolites for use in various applications. Fungal metabolites, produced by fungi during their metabolic processes, are a diverse group of compounds that play significant roles in scientific research. These compounds include mycotoxins, antibiotics, and other bioactive molecules that are essential for studying fungal biology, ecology, and interactions with other organisms. Researchers utilize fungal metabolites to investigate the mechanisms of fungal growth, development, and pathogenesis. They are crucial in understanding how fungi adapt to different environments and how they interact with plants, animals, and other microbes. Additionally, fungal metabolites are employed in natural product chemistry to discover new compounds with potential applications in agriculture, industry, and biotechnology. These metabolites serve as valuable tools in explaining biochemical pathways and in developing new methods for controlling fungal diseases in crops and other settings. By providing a comprehensive selection of high-quality fungal metabolites, Santa Cruz Biotechnology supports advanced research in mycology, microbiology, and biochemistry, empowering scientists to achieve precise and reproducible results. These products drive innovation and discovery, enhancing our understanding of fungal processes and their applications in various scientific fields. View detailed information on our available fungal metabolites by clicking on the product name.

Items 21 to 23 of 23 total

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Product NameCAS #Catalog #QUANTITYPriceCitationsRATING

Demethoxyviridiol

56617-66-4sc-391780
1 mg
$250.00
(0)

Demethoxyviridiol is a notable fungal metabolite characterized by its intricate interactions with cellular signaling pathways in fungi. This compound influences the regulation of gene expression related to stress responses and secondary metabolite production. Its unique structural features allow it to engage in specific hydrogen bonding and hydrophobic interactions, enhancing its stability in various environments. Additionally, Demethoxyviridiol's reactivity with cellular components can modulate metabolic processes, contributing to the dynamic adaptability of fungal species.

Cytochalasin B

14930-96-2sc-3519
5 mg
$195.00
19
(1)

Cytochalasin B is a distinctive fungal metabolite known for its ability to disrupt cytoskeletal dynamics by binding to actin filaments. This interaction inhibits polymerization, leading to altered cell morphology and motility. Its unique structure facilitates specific binding affinities, influencing cellular processes such as endocytosis and cell division. The compound's role in modulating cellular architecture highlights its significance in understanding fungal biology and cellular mechanics.

Leptomycin B, Free Acid

87081-35-4sc-202210
sc-202210A
100 µg
500 µg
$196.00
$689.00
10
(0)

Leptomycin B, Free Acid, is a notable fungal metabolite recognized for its selective inhibition of nuclear export processes. It interacts specifically with the exportin-1 protein, disrupting the transport of various proteins and RNA from the nucleus to the cytoplasm. This interference alters gene expression and cellular signaling pathways. Its unique chemical structure allows for high specificity in binding, making it a critical tool for studying nuclear-cytoplasmic transport mechanisms in eukaryotic cells.

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