Research Keyword: ubiquitination

Deubiquitinase Ubp5 is essential for pulmonary immune evasion and hematogenous dissemination of Cryptococcus neoformans

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Researchers studied a protein called Ubp5 that helps the fungus Cryptococcus neoformans cause disease in humans. By removing this protein, the fungus became much less harmful and the immune system could fight it better. The fungus with the missing protein had problems with its outer coating, couldn’t hide as well from the immune system, and couldn’t spread to the brain. This suggests that blocking Ubp5 could be a new way to help the body defend against this dangerous fungal infection.

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N6-methyladenosine-modified circRIMS2 mediates synaptic and memory impairments by activating GluN2B ubiquitination in Alzheimer’s disease

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This research reveals how an abnormal RNA molecule called circRIMS2 contributes to Alzheimer’s disease by damaging brain synapses and impairing memory. Scientists found that circRIMS2 levels are elevated through a chemical modification called m6A methylation, and this causes a cascade of events leading to the destruction of important proteins needed for brain communication. The study shows that blocking this damaging pathway using a specially designed peptide can restore memory and synaptic function in Alzheimer’s disease models, offering hope for new therapeutic approaches.

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Is metabolic generalism the Breakfast of Champions for pathogenic Candida species?

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This review examines how different Candida species, including the common cause of yeast infections (C. albicans) and the more dangerous bloodstream pathogen (C. glabrata), survive in the human body. While most pathogenic Candida species are metabolic generalists that can eat many different nutrients, the review shows that C. glabrata is a specialist that has found alternative strategies to thrive. Understanding these metabolic strategies is important for developing better treatments and fighting antifungal resistance.

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A mycovirus enhances fitness of an insect pathogenic fungus and potentially modulates virulence through interactions between viral and host proteins

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Scientists discovered a virus that infects Beauveria bassiana, a fungus used to control pests naturally. This virus actually helps the fungus by making it produce more spores, survive harsh conditions like sunlight and heat, and kill target insects faster. The virus does this by interacting with specific fungal proteins that control reproduction, stress response, and virulence. This discovery could lead to better biological pest control products that are more effective and reliable than current options.

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