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mangrove systems may be controlled by different mechanisms than in terrestrial systems. Therefore, we will analyze the molecular composition of soil organic matter associated with minerals to determine its
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metabolic restrictions, while in the gut, microbial metabolites influence immune regulation and tolerance. In this context, the FNRS and FNR funded projects will explore how metabolic pathways control T cell
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“minimal” and modular gene cascade to control MeCP2 re-expression and avoid any dosage drift. The thesis work will consist of designing and testing vectors containing gene cascades first during a first
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mosquitoes and the pathogens they transmit, and on the basis of these results, designs new strategies to control disease transmission. The PhD student (M/F) will benefit from interactions with students and
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INP - UGA, Grenoble Alpes University and the CNRS, in the field of Electrical Engineering Research. It covers a scientific spectrum ranging from materials and components to the design and control
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team “Spatial Control of Genome Integrity and Oncogenesis”, under the supervision of Dr. J. Basbous (DR2, CNRS). IGH is located on the Arnaud de Villeneuve campus and is part of the Objectif Employeur
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adult brains. These cells reside in tightly controlled microenvironments called “niches.” Objectives of the PhD project: The gestation and maternity periods in mammals open a window of important brain
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of ultrasound therapy and their control in real time. This team develops new methods for the control of ultrasonic cavitation, a phenomenon that enables the permeabilization of numerous biological membranes
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the growing industrial demand for efficient thermal management, this PhD project focuses on developing low-cost, low-tech, self-adaptive vortex generators as passive flow-control devices for various
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active in the fields of robotics, mechatronics, automatic control and artificial intelligence. Both departments are located in the same building, and have a long history of working together. A world