Research Keyword: high hydrostatic pressure

Insights into the Mechanisms and Functional Effects of Insoluble Dietary Fiber Modification: A Review

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Insoluble dietary fiber is important for digestive health but its rigid structure limits its usefulness in processed foods and medicine. Scientists can modify this fiber using various techniques like heating, pressure, enzymes, and chemicals to make it more effective. When combined properly, these modification strategies can dramatically improve dietary fiber’s ability to lower cholesterol, control blood sugar, and promote beneficial gut bacteria, making it valuable for functional foods and health applications.

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Revealing the metabolic potential and environmental adaptation of nematophagous fungus, Purpureocillium lilacinum, derived from hadal sediment

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Scientists discovered a special fungus living in the deepest part of the ocean (Mariana Trench) that can survive extreme pressure and produce compounds with disease-fighting properties. This fungus, Purpureocillium lilacinum, showed promise against bacteria, cancer cells, and parasitic worms. The research revealed how this fungus adapts to survive in one of Earth’s most extreme environments, potentially opening new sources for developing medicines and biological pest control.

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The HOG signal pathway contributes to survival strategies of the piezo-tolerant fungus Aspergillus sydowii DM1 in hadal sediments

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Scientists discovered a special deep-sea fungus from the Mariana Trench (nearly 7 miles deep) and studied how it survives extreme pressure and harsh conditions. By examining its DNA and turning off a specific gene called hog1, they found this gene is crucial for the fungus to handle stress and produce energy. Understanding how this deep-sea fungus adapts could help us develop stronger microorganisms for various applications and better understand how life survives in Earth’s most extreme environments.

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