cross-kingdom interactions

Using Fungi in Artificial Microbial Consortia to Solve Bioremediation Problems

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This review explores how combinations of fungi and other microorganisms can clean up polluted soil and water more effectively than using individual microbes alone. Fungi are particularly valuable because they produce powerful enzymes that can break down toxic substances like heavy metals, dyes, pesticides, and plastics. By carefully designing microbial teams and sometimes immobilizing them in gels or on materials, scientists can achieve much higher removal rates of pollutants while maintaining environmental safety.

Xylem Sap Mycobiota in Grapevine Naturally Infected with Xylella fastidiosa: A Case Study: Interaction of Xylella fastidiosa with Sclerotinia sclerotiorum

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Researchers studied the fungi living inside grapevine water-conducting tissues in Mallorca, Spain, where a bacterial disease called Pierce’s disease is spreading. They found both helpful and harmful fungi living alongside the disease-causing bacteria. When they tested what happens when both the bacteria and a fungal pathogen infect grapevines together in controlled conditions, the plants became much more severely damaged than with either pathogen alone, suggesting these microorganisms work together to harm the plant.

Characterization of the gut mycobiome in patients with non-alcoholic fatty liver disease and correlations with serum metabolome

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This study examined fungi in the gut of people with fatty liver disease and found that certain fungal species are more common in diseased patients. By analyzing both gut fungi and blood chemicals, researchers discovered that fungi significantly influence metabolic substances related to liver health. A computer model combining information about gut fungi and bacteria could identify fatty liver disease with reasonable accuracy, suggesting that fungi could be useful for disease diagnosis and potential treatment.

Characterization of the gut mycobiome in patients with non-alcoholic fatty liver disease and correlations with serum metabolome

mycolabadmin

This research reveals that the types of fungi living in our gut are linked to fatty liver disease in ways we didn’t fully understand before. While researchers have long studied bacteria in our gut, they largely ignored fungi, which turns out to play an important role too. The study found that certain fungal species are more common in people with fatty liver disease, and these fungi influence the metabolites (chemical compounds) in the blood that affect liver health. By combining information about fungi, bacteria, and blood chemistry, scientists developed a test that could identify fatty liver disease with 77% accuracy, suggesting that looking at gut fungi could help doctors diagnose and treat this common liver condition.

Research Keyword: cross-kingdom interactions

Using Fungi in Artificial Microbial Consortia to Solve Bioremediation Problems

Xylem Sap Mycobiota in Grapevine Naturally Infected with Xylella fastidiosa: A Case Study: Interaction of Xylella fastidiosa with Sclerotinia sclerotiorum

Characterization of the gut mycobiome in patients with non-alcoholic fatty liver disease and correlations with serum metabolome

Characterization of the gut mycobiome in patients with non-alcoholic fatty liver disease and correlations with serum metabolome