Research Keyword: kinetic analysis

Novel tyrosinase-inhibitory peptides derived from Locusta migratoria protein hydrolysates: Preparation, identification and molecular docking analysis

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Scientists have discovered that peptides from locusts can effectively inhibit tyrosinase, an enzyme responsible for skin pigmentation. These peptide extracts showed strong ability to prevent melanin production, comparable to existing skin-whitening agents but with much lower toxicity to normal cells. The research identified over 1100 different peptide sequences that could be useful in cosmetic and pharmaceutical products for treating age spots, freckles, and other pigmentation issues.

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Enhanced biodegradation of fluorinated pharmaceutical by Aspergillus flavus and Cunninghamella elegans biofilms: kinetics and mechanisms

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Two types of fungi, Aspergillus flavus and Cunninghamella elegans, can effectively break down pharmaceutical pollutants commonly found in wastewater, such as antidepressants and antibiotics. When grown as biofilms on foam carriers, these fungi removed over 90% of the target pharmaceuticals very quickly. The fungi accomplish this primarily through enzymatic breakdown rather than absorption, making them promising candidates for cleaning wastewater at treatment plants.

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Identification of (Z)-2-benzylidene-dihydroimidazothiazolone derivatives as tyrosinase inhibitors: Anti-melanogenic effects and in silico studies

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Scientists developed new chemical compounds that can block tyrosinase, an enzyme that produces skin pigment (melanin). These new compounds, called DHIT derivatives, work much better than existing skin lightening agents like kojic acid and appear to be safer. The best compound tested was 100 times more effective at stopping melanin production than kojic acid in laboratory tests and showed no toxicity to cells.

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