Publications by authors named "Angelique De Visch"
Cell-free transcription-translation (TXTL) systems expressing genes from linear dsDNA enable the rapid prototyping of genetic devices while avoiding cloning steps. However, repetitive inclusion of a reporter gene is an incompressible cost and sometimes accounts for most of the synthesized DNA length. Here we present reporter systems based on split-GFP systems that reassemble into functional fluorescent proteins and can be used to monitor gene expression in TXTL.
View Article and Find Full Text PDFHost metabolism reprogramming is a key feature of Mycobacterium tuberculosis () infection that enables the survival of this pathogen within phagocytic cells and modulates the immune response facilitating the spread of the tuberculosis disease. Here, we demonstrate that a previously uncharacterized secreted protein from , Rv1813c, manipulates the host metabolism by targeting mitochondria. When expressed in eukaryotic cells, the protein is delivered to the mitochondrial intermembrane space and promotes the enhancement of host ATP production by boosting the oxidative phosphorylation metabolic pathway.
View Article and Find Full Text PDFThe use of linear DNA templates in cell-free systems promises to accelerate the prototyping and engineering of synthetic gene circuits. A key challenge is that linear templates are rapidly degraded by exonucleases present in cell extracts. Current approaches tackle the problem by adding exonuclease inhibitors and DNA-binding proteins to protect the linear DNA, requiring additional time- and resource-intensive steps.
View Article and Find Full Text PDFMycobacterium tuberculosis (Mtb) is able to persist in the body through months of multi-drug therapy. Mycobacteria possess a wide range of regulatory proteins, including the protein kinase B (PknB) which controls peptidoglycan biosynthesis during growth. Here, we observed that depletion of PknB resulted in specific transcriptional changes that are likely caused by reduced phosphorylation of the H-NS-like regulator Lsr2 at threonine 112.
View Article and Find Full Text PDFChemically-induced dimerization (CID) systems are essential tools to interrogate and control biological systems. AcVHH is a single domain antibody homo-dimerizing upon caffeine binding. AcVHH has a strong potential for clinical applications through caffeine-mediated in vivo control of therapeutic gene networks.
View Article and Find Full Text PDFArticle Synopsis
- Engineered bacteria have the potential to greatly enhance diagnostics and therapies, but current limitations exist due to the few detectable signals available.
- The study introduces a framework for creating synthetic receptors in bacteria that respond to new ligands through a mechanism that uses single-domain antibodies linked to DNA-binding domains.
- The research demonstrates the successful engineering of these receptors in E. coli and their compatibility with synthetic gene circuits, allowing for customizable and scalable applications in detecting previously unrecognized ligands.
Article Synopsis
- Mycobacterium tuberculosis (Mtb) uses a protein called LppM to help it survive inside immune cells by blocking acidification, a process crucial for its persistence.
- LppM is attached to the mycobacterial cell wall but can also be found as a shorter version released into the environment, indicating its dual presence.
- The study reveals that LppM's structure is unique compared to other Mtb proteins and suggests it may interact with specific immune-modulating molecules, shedding light on protein secretion and localization in Mtb.