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CXC chemokines in neovascular eye disease – CHEMO-NED
CXCL4 chemokines and demonstrated many unique features of these molecules. We will evaluate these molecules
Implementabilty and Robustness of Timed Systems – ImpRo
Implementability and Robustness of Timed Systems
A genome-wide study of nucleosome positioning in Paramecium tetraurelia nuclei – GENOMAC
Paramecium is a model for the study of the mechanisms involved in the recognition of DNA sequences that are eliminated from the genome at each sexual cycle. Our project aims at evaluating whether these sequences are packaged into chromatin or are localized in free regions, likely more easily accessible to the machineries that carry on genome rearrangements
A novel, integrated approach to the mechanisms and dynamics of episodic memory: from genes to cells and neural network properties. – MolCellCog
The objective of the project is to understand how the dynamic activity of specific neurons and brain mechanisms of plasticity lead to the formation of memories of past experineces and how these memories are reorganized with time.
Acetyl-CoA and acetate metabolism in trypanosomes: identification of parasite specific pathways – ACETOTRYP
very unusual biological, genetic and biochemical features that stimulate broad scientific and evolutionary
Advanced Surgery with Insterstitial capacitive Micromachined Ultrasonic Transducer for conformationnal thermal ablation of brain tumors – ASIMUT
cooling of the probe during treatments (these 3 features are innovations of CMUT probes compared to other
Aging, cognitive strategy variations and brain reorganisations – StratAgHem
specific to the aging brain, or a general brain feature to cope with resource-consuming conditions, and
Algorithmic methods for infinite graphs – AMIS
The AMIS project is a theoretical research project coordinated by Arnaud Carayol. It also involves Christopher Broadbent, Axel Haddad, Matthew Hague, Antoine Meyer, Chloé Rispal et Oliver Serre. The project started in January 2011 for a duration of 36 months. It was funded entirely by an ANR grant of 103,160 €.<br />
Archaeological fresh and fossil plant exudates and tars: chemistry, manufacture and uses – EXSUDARCH
Exploitation of resins and tar plants from prehistory to the Middle Ages
Autologous white adipose tissue withdrawn extemporaneously and biphasic calcium phosphate particles for bone defect reconstruction – WHATBONE
This biomaterial named «WHATBONE« can be prepared extemporaneously. It is composed of calcium phosphate particles, blood or plasma, and adipose tissue. Easy to prepare, moldable, adaptable to large bone defects and cost-effective, it could be an alternative to bone autograft in human.