Research Topic: sugar transport

Key sugar transporters drive development and pathogenicity in Aspergillus flavus

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Researchers studied how Aspergillus flavus fungus transports sugars, which is crucial for its growth, producing the toxic aflatoxin that contaminates crops like corn and peanuts. By removing genes responsible for sugar transport, they found that the fungus became weak, couldn’t infect plants or animals effectively, and stopped producing the dangerous aflatoxin. This discovery could help develop new strategies to prevent aflatoxin contamination in food and reduce serious fungal infections in humans.

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Relative contribution of three transporters to D-xylose uptake in Aspergillus niger

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Researchers studied how three different protein transporters help the fungus Aspergillus niger absorb xylose, a type of sugar found in plant waste. They found that two of these transporters (XltA and XltD) were equally important, while the third (XltB) played a minor role. Interestingly, the fungus could still absorb xylose even without these three transporters, suggesting other backup transporters exist. This finding shows that predicting which transporters are important based on laboratory tests in yeast may not accurately reflect how they work in the original fungus.

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