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Exposició virtual de projectes d’investigació

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Barcelona | Microxerrada Online | Exposició virtual de projectes de recerca

Exposició virtual de projectes de recerca europeus:

Per a molts centres de recerca i universitats, la Comissió Europea (CE) és una font elemental per proporcionar finançament a la investigació. En general, els projectes d’investigació finançats per la CE són projectes de col·laboració, el que significa que involucren diversos laboratoris d’investigació (generalment entre 6 a 15 instituts) i també a empreses de tot Europa i més enllà.

A continuació, es presenten alguns d’aquests projectes, també per mostrar la diversitat d’investigacions que hi ha. Tots ells estan coordinats per un institut de recerca a Barcelona. S’emetran el dia 27/11 des del canal de YouTube de la Nit de la Recerca.

  • Coordinats al Centre de Regulació Genòmica (www.crg.eu):

OPATHY (www.opathy.eu)

OPATHY (from Omics of PATHogenics Yeasts) is a European research training network that explores the potential of innovative technologies, including genomics, transcriptomics and proteomics, to study the interactions of yeasts that cause disease to humans. The OPATHIANS develop new diagnostic tools to monitor yeast infections in the clinic, supporting medical doctors and patients worldwide.

This project has received funding from the European Union’s Horizon 2020 research and innovation programme under the Marie Sklodowska-Curie grant agreement No 642095.

VÍDEO

DIVIDE (https://divide-eunetwork.org)

Cell division occurs during tissue growth and cellular reproduction and is carefully controlled by a set of genes and proteins. In general, there are two types of cell division: mitosis, when cells divide to produce identical daughter cells, and meiosis, when cells create eggs and sperm cells with half of the chromosomal content.

DivIDe is a European training network of 11 young international researchers who addressed cell division and studied the functional role of tubulin, the main building block of MTs, from a different perspective using complementary and interdisciplinary techniques, approaches and experimental model systems.

This project has received funding from the European Union’s Horizon 2020 research and innovation programme under the Marie Sklodowska-Curie grant agreement No 642095.

VÍDEO

MycoSynVac (https://www.mycosynvac.eu)

The MycoSynVac project aims at using cutting-edge synthetic biology methods to engineer Mycoplasma pneumoniae as a universal chassis for vaccination. We will (1) modify existing methods of genome transplantation used for Mycoplasma species, (2) develop serum-free medium for scale-up in bioreactors and (3) analyze how to bring the product to market after efficacy of the vaccine has been shown in animal studies, ultimately to fight Mycoplasma infections in farm animals.

This project has received funding from the European Union s Horizon 2020 research and innovation programme under grant agreement No 634942.

VÍDEO

4DCellFate (www.4DCellFate.eu)

The 4DCellFate project aims to elucidate how the PRC and NuRD complexes control cell fate, by systematically analyzing various aspects of these complexes: their structure, their function in various cellular contexts, and their interactions with other regulatory factors, nucleic acids, and nucleosomes.

4DCellFate was a project in the ‘Health Theme’ of the European Commission’s Seventh Framework Programme, with the grant agreement no. 277899.

VÍDEO

  • Coordinats en el Instituto de Ciencias del Mar (www.icm.csic.es):

SINGEK (http://www.singek.eu)

SINGEK is an EU H2020 Marie Skłodowska-Curie Innovative Training Network devised to provide a unique and structured PhD training programme to a new generation of scientists with the highest expertise in Single Cell Genomics, from the initial stages of cell sorting to genome sequencing and gene annotation, to the full exploitation of the data obtained.

This project has received funding from the European Union’s horizon 2020 research and innovation programme under the Marie Sklodowska-Curie Grant Agreement No 675752.

VÍDEO

MIXITIN (https://www.mixotroph.org)

MixITiN is training an innovative team of Early Stage Researchers (ESRs) to develop new methodologies for researching, monitoring and managing our marine environment according to the recently revised paradigm for marine pelagic production. MixITiN brings together world-class European research and training centres from 9 different countries, with skillsets from molecular biology, physiology and computer modelling, to marine and coastal zone management, public and media engagement.

This project has received funding from the European Union’s Horizon 2020 research and innovation programme under the Marie Skłodowska-Curie grant agreement No 766327.

VÍDEO

  • Coordinats en el Instituto Catalán de Investigación Química (http://www.iciq.es):

An Artificial Leaf (www.a-leaf.eu)

Mimicking the photosynthetic function of green plants and algae is one of the major technological challenges scientist around the world are facing nowadays. Natural photosynthesis transforms water (H2O) and carbon dioxide (CO2) into oxygen and carbohydrates using exclusively the energy of the sun. An artificial photosynthesis scheme will work in an analogous way, absorbing sunlight to combine water and CO2 into oxygen and chemicals, including fuels.

This project has received funding from the European Union’s Horizon 2020 research and innovation program under grant agreement 732840-A-LEAF

VÍDEO

Sunergy (https://www.sunergy-initiative.eu)

SUNERGY aims at becoming a large European Research and Innovation initiative working towards the conversion and storage of renewable energy into fossil-free fuels and chemicals.

Our current enterprise unites and builds on two initiatives funded under Horizon 2020: SUNRISE and ENERGY-X. They were selected by the European Commission to prepare for FET Flagship status, a billion-euro programme which identifies “visionary, science-driven, large-scale research initiatives addressing grand scientific and technological challenges”.

VÍDEO

Sunrise (https://sunriseaction.com)

Artificial photosynthesis for a clean energy future. The objective of the Sunrise project is to provide a sustainable alternative to the production of fossil-based, energy-intensive fuels and basic chemicals. The required energy will be provided by sunlight, the raw materials will be abundantly available molecules, such as water, carbon dioxide and nitrogen.

This project has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No 816336

VÍDEO

Coordinen:

Amb el suport de:

Amb el finançament de:

european commission
Aquest projecte rep fons dels programes de recerca i innovació Horitzó 2020 de la Unió Europea en el marc del projecte EuNightCat (954506)

This project receives funding from the European Union’s Horizon 2020 research and innovation programs under the project EuNightCat (954506).