Aspergillus niger – Page 2

Adaptive Changes and Genetic Mechanisms in Organisms Under Controlled Conditions: A Review

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Organisms adapt to their environments through changes in their genes and how genes are expressed, processes that can happen over many generations even in laboratory settings. Scientists study these adaptations in fungi, insects, and plants grown under controlled conditions to understand how evolution works over shorter timeframes. The research shows that both genetic mutations and modifications to how genes work (without changing DNA itself) drive these adaptive changes. Understanding these mechanisms helps scientists improve crop productivity, develop disease resistance, and address environmental challenges like climate change.

Isolation and identification of endophytic fungi from Alhagi sparsifolia Shap. and their antibacterial activity

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Researchers discovered ten types of fungi living inside the medicinal plant Alhagi sparsifolia that were never found before. Two of these fungi produced substances that killed harmful bacteria better than standard antibiotics, especially against E. coli. The researchers identified 26 different compounds in these fungi that are responsible for their antibacterial effects. This research opens new possibilities for developing natural antibacterial medicines from fungal sources.

Negative Effects of Occurrence of Mycotoxins in Animal Feed and Biological Methods of Their Detoxification: A Review

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Molds that grow on grains and feed produce toxic substances called mycotoxins that can seriously harm farm animals, causing liver and kidney damage, reproductive problems, and reduced productivity. While proper storage and farming practices help prevent contamination, some mycotoxins still get through. Recent research shows that beneficial bacteria like those in yogurt and certain yeasts can effectively remove these toxins from animal feed, making it safer for livestock while protecting the environment from harmful chemicals.

Adaptation strategies in haloalkaliphilic fungi: Aspergillus salinarum, Cladosporium sphaerospermum, and Penicillium camemberti

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Researchers studied three special fungi that can survive in extremely salty and alkaline environments. These fungi adapt to harsh conditions by producing more proteins, fats, and special enzymes that have antimicrobial properties. The findings suggest these fungi could be useful for cleaning contaminated soils, producing medicines, and developing new industrial products.

Optimization of triterpenoids biosynthesis in Athelia termitophila as a source of natural products

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Researchers optimized growing conditions for a parasitic termite fungus called Athelia termitophila to produce more triterpenoids, which are medicinal compounds with health benefits. By systematically testing different nutrients and fermentation parameters, they increased triterpenoid production by 1.9 times and fungal biomass by 1.66 times. This breakthrough makes it more practical and cost-effective to produce these natural compounds for use in pharmaceuticals and functional foods.

Pb immobilization by phosphate-solubilizing fungi and fluorapatite under different Mn2+ concentrations

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Researchers studied how two types of beneficial fungi (Aspergillus niger and Penicillium chrysogenum) can remove dangerous lead contamination from environments. By adding the mineral fluorapatite and controlling the level of manganese in the growth medium, they found that Aspergillus niger was much more effective at capturing and permanently locking up lead particles, preventing them from leaching back into the environment. The optimal amount of manganese (7.5 mg/L) significantly boosted the fungi’s production of organic acids that capture lead, making this an environmentally friendly solution for cleaning polluted sites.

Insights into metabolic and pharmacological profiling of Aspergillus ficuum through bioinformatics and experimental techniques

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Researchers studied a fungus called Aspergillus ficuum and found it contains compounds with potential medicinal benefits. The fungal extract showed strong antibacterial activity against disease-causing bacteria and reduced inflammation in mice. Additionally, the extract had antioxidant properties that help fight harmful free radicals, with no toxic effects observed, making it a promising candidate for developing new medications.

Effects and molecular mechanism of endophytic elicitors on the accumulation of secondary metabolites in medicinal plants

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This review explains how beneficial fungi living inside medicinal plants can boost the production of healing compounds. These endophytic fungi act as natural triggers that activate the plant’s own defense systems, causing it to produce more of the valuable medicinal substances used in traditional and modern medicine. By understanding how this process works, scientists can develop better methods to grow medicinal plants and produce natural drugs more sustainably without depleting wild plant populations.

Highly Filled Biocomposites Based on Metallocene Ethylene-Octene Copolymers with Wood Flour: Features of a Biodegradation Mechanism

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Scientists studied plastic materials mixed with wood flour to understand how they break down in soil. By testing different amounts of wood flour mixed with a special plastic called ethylene-octene copolymer, they found that having 40% wood flour creates the best conditions for biodegradation. The wood particles spread throughout the plastic create more surface area for microbes and environmental factors to attack, which speeds up decomposition. This research helps create better biodegradable plastics for sustainable products.

Invasive fungal otitis media with peripheral facial paralysis

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This case describes a rare fungal ear infection caused by Aspergillus fumigatus that spread to the mastoid bone and caused facial nerve paralysis. The patient had ear drainage and hearing loss for 4 years before diagnosis. Treatment required two surgical procedures to remove infected tissue combined with 6 months of antifungal medication, eventually resulting in healing and recovery of facial nerve function.

Fungal Species: Aspergillus niger