melanoma – Page 4 – mycolab.ai

Marine-derived Acremonium strain prioritization using untargeted metabolomics approach for the identification of cytotoxic cyclic depsipeptides

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Researchers studied fungi collected from Arctic driftwood to find new cancer-fighting compounds. Using advanced chemical analysis tools, they identified six different fungal strains and found that one strain, Acremonium synnematoferum, produced five unique compounds called depsipeptides. These compounds killed cancer cells in laboratory tests, showing promise as potential cancer treatments. This research highlights how extreme Arctic environments can harbor fungi with powerful medicinal properties.

Utilization of Corn Steep Liquor for the Production of Fairy Chemicals by Lepista sordida Mycelia

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Researchers found that corn steep liquor, a waste product from corn processing, can be used as an inexpensive ingredient to help grow mushroom mycelia that produce fairy chemicals. Fairy chemicals are special compounds with potential uses in agriculture and cosmetics, but they are very expensive to produce. By using different concentrations of corn steep liquor in growth media, scientists determined optimal conditions for either growing more mycelia or producing more of the beneficial chemicals, making these compounds more affordable for practical use.

Anti-Melanogenic Activity of Calocedrus formosana Wood Essential Oil and Its Chemical Composition Analysis

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Researchers tested an essential oil from Taiwan’s precious Calocedrus formosana wood to see if it could lighten skin by blocking melanin production. The oil worked very well at stopping melanin synthesis in laboratory cells, with a compound called thymol being responsible for most of the lightening effect. This natural product could potentially be used in skin whitening cosmetics and offers a safer alternative to synthetic ingredients.

The Major Stilbene Compound Accumulated in the Roots of a Resistant Variety of Phoenix dactylifera L. Activates Proteasome for a Path in Anti-Aging Strategy

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Researchers found that date palm roots from disease-resistant varieties contain a special compound called 3,3′,4,5,5′-pentahydroxy-trans-stilbene that acts as a natural antioxidant and anti-aging agent. This compound can protect aging skin cells by activating the proteasome, which is like the cell’s recycling system that removes damaged proteins. The findings suggest this natural compound could potentially help slow down skin aging and protect against age-related diseases.

Unraveling the Fungi–Cancer Connection

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Fungi living in and around tumors play surprisingly important roles in cancer development and treatment response, yet they have been largely overlooked compared to bacteria. Different cancer types host specific fungal species that can promote tumor growth through immune suppression and toxin production. By better understanding and potentially targeting these tumor-associated fungi, researchers believe we could develop new combination treatments that enhance the effectiveness of existing cancer therapies.

Skin Improvement with Antioxidant Effect of Yuja (Citrus junos) Peel Fractions: Wrinkles, Moisturizing, and Whitening

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Yuja, a citrus fruit traditionally used in Asian medicine, shows promising benefits for skin health. This study found that extracts from Yuja peels can help reduce wrinkles, improve skin moisture, and lighten dark spots by protecting skin cells from UV damage and reducing harmful free radicals. The effects work through natural mechanisms that boost collagen production and inhibit melanin overproduction, making Yuja peel fractions promising ingredients for new skincare products.

Kojic Acid Showed Consistent Inhibitory Activity on Tyrosinase from Mushroom and in Cultured B16F10 Cells Compared with Arbutins

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This study compared four skin-whitening compounds to find the best one for use as a testing standard in laboratories. Kojic acid was found to be the most reliable choice because it effectively blocks the enzyme tyrosinase, which produces skin pigment, without damaging cells. The researchers tested these compounds both in test tubes and in actual melanoma cells to understand how they work differently.

Investigation of the In Vitro Antioxidant, Anticholinesterase, Antiurease, Antityrosinase, and Cytotoxic Properties of a Novel Compound: 4-Methoxy-2-(4-Methoxyphenyl)Benzo[d][1,3,2]Dioxaborole

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Scientists created a new chemical compound containing boron that showed promise as a potential medicine. The compound was effective at neutralizing harmful molecules in cells and inhibiting enzymes related to Alzheimer’s disease. Importantly, it did not damage healthy cells or kill cancer cells, suggesting it could be safe for future medical applications in treating various diseases.

Anti-Inflammation and Anti-Melanogenic Effects of Maca Root Extracts Fermented Using Lactobacillus Strains

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Researchers studied maca root, an Andes plant traditionally used for health benefits, by fermenting it with beneficial bacteria (Lactobacillus strains). They tested whether fermented maca could reduce skin inflammation and prevent excessive skin darkening. The fermented version worked significantly better than regular maca at both reducing inflammation markers and inhibiting melanin production in skin cells, suggesting it could be a valuable ingredient in cosmetic products designed to brighten skin and reduce irritation.

Comparative Multi-Omics Analysis and Antitumor Activity of Phylloporia crataegi and Phylloporia fontanesiae

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Researchers compared two types of medicinal fungi (Phylloporia crataegi and Phylloporia fontanesiae) to understand why one is better at fighting cancer. They used advanced techniques to examine the fungi’s chemicals, genes, and proteins, discovering that P. crataegi contains special compounds like trans-cinnamic acid that help kill cancer cells. This study provides important information for developing new cancer treatments from these fungi.

Disease: melanoma