Publications by authors named "Mariana Margenat"
Article Synopsis
- PtpA, a virulence factor from bacteria, enters macrophages during infection and influences various cellular processes like immune response and lipid metabolism by interacting with specific eukaryotic proteins including the trifunctional protein enzyme (TFP).
- The study identifies Tyr-271 in TFP as a target for PtpA's activity, which affects TFP's localization and functionality within mitochondria, and this residue is notably absent in bacterial TFPs, hinting at a regulatory mechanism unique to eukaryotes.
- The research further reveals that PtpA and TFP form a stable complex, and while Jak kinase can phosphorylate Tyr-271, additional factors are necessary to fully activate PtpA, indicating a complex
We previously reported a multigene family of monodomain Kunitz proteins from Echinococcus granulosus (EgKU-1-EgKU-8), and provided evidence that some EgKUs are secreted by larval worms to the host interface. In addition, functional studies and homology modeling suggested that, similar to monodomain Kunitz families present in animal venoms, the E. granulosus family could include peptidase inhibitors as well as channel blockers.
View Article and Find Full Text PDFThe bacterial protein tyrosine phosphatase PtpA is a key virulence factor released by Mycobacterium tuberculosis in the cytosol of infected macrophages. So far only two unrelated macrophage components (VPS33B, GSK3α) have been identified as PtpA substrates. As tyrosine phosphatases are capable of using multiple substrates, we developed an improved methodology to pull down novel PtpA substrates from an enriched P-Y macrophage extract using the mutant PtpA D126A.
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- Disulfide-bond formation is crucial for the proper folding and function of secreted proteins, which are valuable for biotechnological applications.
- The text focuses on how Escherichia coli can be utilized to produce these proteins by maintaining redox balance and facilitating disulfide bond formation in the bacterial periplasm.
- It also reviews strategies to optimize E. coli compartments for higher yields of functional recombinant proteins, providing examples of successfully produced disulfide-rich proteins like protease inhibitors.
The cestode Echinococcus granulosus, the agent of hydatidosis/echinococcosis, is remarkably well adapted to its definitive host. However, the molecular mechanisms underlying the successful establishment of larval worms (protoscoleces) in the dog duodenum are unknown. With the aim of identifying molecules participating in the E.
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