Research Keyword: P-type ATPase

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.

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The P-type calcium pump Spf1 regulates immune response by maintenance of the endoplasmic reticulum-plasma membrane contacts during Candida albicans systemic infection

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A fungal pump protein called Spf1 helps Candida albicans secrete toxins that damage the immune system during infection. When researchers deleted the SPF1 gene, the fungus could not effectively release these toxins, triggering a much weaker immune response and allowing infected mice to survive better. This discovery suggests that controlling this calcium pump could be a new strategy for treating serious fungal infections.

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

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When Aspergillus terreus fungi are grown in laboratory conditions for extended periods, they sometimes undergo changes that make them look different and behave differently. Scientists found that these changed strains become more susceptible to amphotericin B, a common antifungal drug. By studying the genes and proteins in both the original and changed strains, researchers discovered that special proteins called P-type ATPases appear to be responsible for the fungus’s natural resistance to this drug, offering new targets for developing better antifungal treatments.

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