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Non-equilibrium dynamics in Atomic systems fo QUantum Simulation – NAQUAS
“interesting” target state, both of which are crucial features for adiabatic quantum computing. It is expected
Revealing the impact of centromeric DNA on centromere formation, integrity and function – CENtegrity
centromeric regions. These alterations are common features of cancer cells and developmental disorders.
demographics of planets close to their birth place & their occurrence in the disk and the bar of our Galaxy. – COLD-WORLDS
Cold Worlds uses the gravitational microlensing technique to explore a unique niche: cold planets with masses as small as the Earth orbiting all types of stars (even stellar remnants), old planets in large orbits, free planets (i.e. not bound to a star) and even exolunes orbiting extra-solar planets.
Active Cell Nematics – ActCellNem
To explore and interpret the behaviours of populations of confluent spindle-shaped cells confined in mesoscopic tracks and subjected to an external field.
Fibrations and algebraic group actions – FIBALGA
FIBrations and ALgebraic Group Actions
Working in the margin? Collaborative spaces as nodes of a new mobility system outside metropolis – PERI_WORK
Collaborative workspaces as nodes of a new mobility system outside metropolises
DETECTING EXTINCT AND UNKNOWN DIVERSITY WITH HORIZONTAL GENE TRANSFERS – STHORIZ
To a first approximation, all species are extinct, and those that are not are still unknown. This hidden biodiversity is or has been involved in horizontal gene transfers, just like the biodiversity that we know. <br />By detecting genes that have been horizontally acquired in genomes that we can analyze, this project proposes to detect species that are still unknown but that have been hosts of these genes at some point.
Understanding Fine Scale Processes in Intense Sediment Transport Regimes – SHEET-FLOW
Understanding Fine Scale Processes <br />in Intense Sediment Transport Regimes<br /><br />Fine-scale processes such as turbulence-particle and particle-particle interactions may be of prime importance for sediment flux dynamics. A new class of models, capable of tackling this issue exists but their development is limited by the lack of detailed high-resolution experimental data. Providing these missing data for developing innovative sediment transport models is at the core of the present project.
Cis- and trans-acting factors controlling R-loop-dependent genome instability – CisTransRloop
Several threats endanger the tight equilibrium between genome maintenance and expression that guarantees nuclear homeostasis. Among them, the formation of R-loops through hybridization of nascent mRNAs onto their DNA templates has emerged as a major cause of transcription-associated genetic instability. However, the molecular mechanisms involved in R-loop sensing and processing in space and time remain to be deciphered.
Light-activated Nickel catalysts – LightNing
The LightNing project aims at developing the first generation of LnNi(II)X2 precatalysts that could be cleanly, effectively and selectively photoreduced into well-defined and catalytically active Ni(I)/Ni(0) species.