gene expression profiling

Glyoxalase 1 Inducer, trans-Resveratrol and Hesperetin–Dietary Supplement with Multi-Modal Health Benefits

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A dietary supplement combining trans-resveratrol and hesperetin activates a cellular defense mechanism called Nrf2, which increases production of an enzyme (Glo1) that helps eliminate harmful byproducts of sugar metabolism. This supplement improved multiple aspects of health in studies, including better blood sugar control, reduced inflammation, and improved liver function. The combination works better than either ingredient alone, and the trans form of resveratrol is much more effective than the cis form.

Aspergillus terreus sectorization: a morphological phenomenon shedding light on amphotericin B resistance mechanism

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This study investigated why some strains of the fungus Aspergillus terreus are resistant to amphotericin B, an important antifungal medicine. Researchers compared a resistant strain with a mutated version that became susceptible to the drug. They found that certain genes called P-type ATPases are more active in resistant strains and may help the fungus pump ions and alter its cell membrane to survive the drug. Additionally, mutations in genes responsible for producing secondary metabolites were linked to the visible changes seen when fungal cultures degenerate.

Comparative transcriptome analysis reveals the role of sugar signaling in response to high temperature stress in Armillaria gallica

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Scientists studied how a fungus called Armillaria gallica responds to high heat, which is important because this fungus forms a partnership with a valuable medicinal plant called Gastrodia elata. They compared a heat-tolerant fungal strain with a heat-sensitive one and found that the heat-tolerant strain increases sugar accumulation and activates specific genes that help it survive hot conditions. Adding sucrose to the fungus’s growth medium helped it tolerate heat better, suggesting that sugar plays a key role in heat stress protection.

L-Rhamnose Dehydrogenase LraA of Aspergillus niger Shows High Substrate Specificity Matching Its Expression Profile

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Scientists studied an enzyme called LraA found in a common fungus (Aspergillus niger) that breaks down L-rhamnose, a sugar found in plant cell walls. They discovered that this enzyme is extremely selective and only works on L-rhamnose, unlike most other similar enzymes that can process multiple types of sugars. This makes it very useful for biotechnology applications where researchers want to specifically convert L-rhamnose without affecting other pathways.

Comparative transcriptomics uncovers poplar and fungal genetic determinants of ectomycorrhizal compatibility

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This research reveals the genetic ‘conversation’ between poplar tree roots and fungal partners that determines whether they form beneficial relationships. Scientists compared how different fungal species interact with poplar roots, identifying which genes turn on and off to allow compatible partnerships to develop. The study found that successful symbiosis requires careful coordination of plant defenses and fungal signaling molecules, particularly at the critical early stages of contact.

Mechanism Analysis of Amphotericin B Controlling Postharvest Gray Mold in Table Grapes

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Researchers discovered that amphotericin B, a natural compound produced by soil bacteria, effectively prevents gray mold disease on table grapes. The compound works by directly damaging the fungus’s cell membranes and also boosts the grape’s own defense mechanisms. This natural solution could replace harmful synthetic fungicides while extending the shelf life of grapes during storage and transport.

Arsenic Stress Resistance in the Endophytic Fungus Cladosporium cladosporioides: Physiological and Transcriptomic Insights into Heavy Metal Detoxification

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Researchers discovered a special fungus called Cladosporium cladosporioides living inside the roots of Gentiana yunnanensis, a traditional Chinese medicinal herb. This fungus is remarkably good at tolerating and neutralizing arsenic, a toxic heavy metal found in contaminated soils. The fungus uses multiple strategies to protect itself from arsenic damage, including moving the arsenic to its cell walls, converting it into less toxic forms, and activating protective defense systems.

Expression pattern, subcellular localization of Aspergillus oryzae ergosterol synthases, and their effects on ergosterol and fatty acid metabolism

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Researchers studied how Aspergillus oryzae fungi make ergosterol, a key ingredient in fungal cell membranes. They found that this process is much more complex in this mold than in baker’s yeast, with 49 genes involved. By selectively increasing expression of specific genes, they were able to boost ergosterol production by up to 2.3 times, which could have applications in producing fungal-derived medicines and improving fermented foods.

Mycorrhizal symbiosis and application of vitamin B3-treated Trichoderma Harzianum HE24 additively trigger immunity responses in faba bean plants against Rhizoctonia root rot and promote the plant growth and yield

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Researchers found that combining a beneficial fungus called Trichoderma harzianum with vitamin B3 and mycorrhizal fungi can effectively protect faba bean plants from root rot caused by Rhizoctonia solani. This combined treatment boosted the plant’s natural defense systems and significantly improved plant growth and seed production. The approach offers an environmentally friendly alternative to chemical fungicides for controlling this destructive plant disease.

Research Keyword: gene expression profiling