Transcriptome Analysis and CFEM Gene Overexpression in Metschnikowia bicuspidata Under Hemocyte and Iron Ion Stress
Bingnan Zuo, Xiaodong Li, Ji Zhang, Bingyu Li, Na Sun, Fang Liang

TL;DR
This study explores how a fungus causing milky disease in crabs adapts to stress and uses specific genes to enhance its infection ability.
Contribution
The study identifies novel stress adaptation mechanisms and the role of CFEM genes in Metschnikowia bicuspidata pathogenesis.
Findings
Hemocyte challenge activates DNA repair and ribosome biogenesis pathways in the fungus.
Iron overload triggers antioxidant systems and autophagy to mitigate ferroptosis.
CFEM gene overexpression increases biofilm formation and infection rates, confirming their role in virulence.
Abstract
The “milky disease” in Chinese mitten crabs (Eriocheir sinensis), caused by Metschnikowia bicuspidata, poses significant threats to aquaculture, though its pathogenic mechanisms remain poorly understood. This study employs transcriptomic sequencing to analyze gene expression changes in Metschnikowia bicuspidata under hemocyte challenge, iron overload (1 mmol/mL), and combined stress, with functional validation through Common in Fungal Extracellular Membrane (CFEMgene) overexpression strains. Key findings reveal that (1) hemocyte challenge activated base excision repair (−log10[P] = 7.58) and ribosome biogenesis pathways, indicating fungal adaptation through DNA repair and enhanced protein synthesis to counter host immune attacks (e.g., ROS-mediated damage). (2) Iron overload induced glutathione metabolism and pentose phosphate pathway enrichment, demonstrating mitigation of ferroptosis…
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Taxonomy
TopicsStudies on Chitinases and Chitosanases · Invertebrate Immune Response Mechanisms · Insect symbiosis and bacterial influences
