Research Keyword: Antimicrobial peptides

Bioactive Peptides and Other Immunomodulators of Mushroom Origin

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Mushrooms contain special compounds called peptides and proteins that can boost your immune system and fight harmful bacteria. These mushroom-derived compounds show promise as natural alternatives to antibiotics, which are becoming less effective due to antibiotic resistance. Researchers are studying how these mushroom compounds could help treat difficult infections, wounds that won’t heal, and cancer, though more testing is needed before they can be used widely as medicines.

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Advances of Peptides for Plant Immunity

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Plant peptides are small signaling molecules that help plants defend themselves against diseases and pests. These peptides can work by directly killing pathogens or by activating the plant’s immune system. Researchers have identified over 1000 different plant peptides, and this review explains how they work and how they could be used to create disease-resistant crops and natural biopesticides.

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Microbial links to Alzheimer’s disease

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This review examines whether germs like bacteria, fungi, and viruses might play a role in causing Alzheimer’s disease. Scientists have found that certain bacteria from the mouth and gut, fungal infections, and cold sores (herpes viruses) appear more frequently in Alzheimer’s patients and may trigger the brain changes that damage memory and thinking. While the evidence is promising, researchers still need to determine whether these infections actually cause Alzheimer’s or simply make it worse once it develops.

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Expression of a novel NaD1 recombinant antimicrobial peptide enhances antifungal and insecticidal activities

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Scientists created a new genetically modified tobacco plant that produces a powerful natural pest-fighting protein called NaD1. By attaching special chitin-binding components to this protein, they made it stick better to fungal pathogens and insect digestive systems. When tested, these enhanced proteins killed fungi more effectively and caused higher mortality rates in crop-damaging insects, offering a promising natural alternative to chemical pesticides.

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Recent innovations and challenges in the treatment of fungal infections

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Fungal infections are becoming more common and harder to treat due to drug resistance, especially in people with weakened immune systems. Current antifungal medications are becoming less effective because fungi are adapting to resist them, and these drugs can cause serious side effects. Scientists are developing new treatment strategies using combinations of existing drugs, engineered biological approaches, and specially designed delivery systems to overcome resistance and improve patient outcomes.

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Effect of Antibacterial Peptide Microsphere Coating on the Microbial and Physicochemical Characteristics of Tricholoma matsutake during Cold Storage

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This research demonstrates that coating expensive wild matsutake mushrooms with special antimicrobial peptides wrapped in tiny polymer microspheres can keep them fresh for up to 20 days instead of just 1-3 days. The coating works by protecting mushrooms from water loss, microbial spoilage, and browning while preserving their texture and nutritional quality. This edible coating technology could help mushroom producers sell their products over longer distances and extend availability of these prized wild mushrooms.

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The antifungal mechanism of EntV-derived peptides is associated with a reduction in extracellular vesicle release

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Researchers discovered that a small peptide derived from a bacterium called EntV can fight Candida fungal infections by targeting specialized vesicles (tiny sacs) that fungi use to spread infections. Unlike traditional antifungal drugs that kill fungi, EntV works by blocking the release of these vesicles, reducing the fungus’s ability to infect and form protective biofilms. This new approach could lead to treatments that work against drug-resistant fungi without the toxicity issues of current antifungals.

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