Research Keyword: KEGG analysis

Exploring the Mechanisms of Amino Acid and Bioactive Constituent Formation During Fruiting Body Development in Lyophyllum decastes by Metabolomic and Transcriptomic Analyses

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This research study examined how Lyophyllum decastes mushrooms develop and accumulate their valuable nutrients and flavor compounds. Scientists found that amino acids and polysaccharides reach their highest levels when the mushroom is mature, ready for harvesting. By analyzing the genes and chemical changes during mushroom growth, researchers identified the specific pathways responsible for producing these beneficial compounds. This knowledge helps improve mushroom cultivation and confirms its value as a healthy functional food.

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Functional genomic analysis of Bacillus cereus BC4 strain for chromium remediation in contaminated soil

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Scientists discovered a bacterium called Bacillus cereus BC4 that can remove dangerous chromium from contaminated soil very effectively. By sequencing the bacteria’s genes, they found specific proteins that help it break down and transport chromium, converting the toxic form into a less harmful version. This research could help clean up polluted soils and restore damaged ecosystems, offering a natural and sustainable approach to environmental cleanup.

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Antiviral effects of Pediococcus acidilactici isolated from Tibetan mushroom and comparative genomic analysis

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Researchers found that bacteria from Tibetan mushrooms, particularly Pediococcus acidilactici, can effectively prevent rotavirus infection that causes diarrhea in children and animals. When tested in laboratory cells and in mice, this beneficial bacteria reduced virus levels significantly and protected the intestines from damage. Genetic analysis shows this probiotic strain has the right combination of genes to fight viral infections, making it a promising natural treatment option.

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Sustainable Recycling of Mushroom Residue as an Effective Substitute for Cotton Hull Waste in Volvariella volvacea Cultivation: Evidence from Physicochemical and Microbiome Analyses

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This research shows that mushroom waste left over from growing mushrooms can be successfully recycled as a growing medium for straw mushrooms, similar to the traditional cotton hull waste currently used. The recycled mushroom residue produces mushrooms of equivalent quality and quantity but costs much less to purchase. By analyzing the microscopic bacterial communities in the compost, scientists found that different bacteria help break down the organic matter in both types of substrates, supporting efficient mushroom growth.

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