Macromolecular weight mechanisms and dynamics: From individual molecules to cell (Q19823): Difference between revisions

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Property / EU contribution
7,051,930.956 Euro
Amount7,051,930.956 Euro
UnitEuro
 
Property / EU contribution: 7,051,930.956 Euro / rank
Preferred rank
 
Property / EU contribution: 7,051,930.956 Euro / qualifier
exchange rate to Euro: 0.04 Euro
Amount0.04 Euro
UnitEuro
 
Property / EU contribution: 7,051,930.956 Euro / qualifier
point in time: 10 January 2020
Timestamp+2020-01-10T00:00:00Z
Timezone+00:00
CalendarGregorian
Precision1 day
Before0
After0
 

Revision as of 21:27, 22 September 2020

Project in Czech Republic financed by DG Regio
Language Label Description Also known as
English
Macromolecular weight mechanisms and dynamics: From individual molecules to cell
Project in Czech Republic financed by DG Regio

    Statements

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    176,298,273.9 Czech koruna
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    207,409,734.0 Czech koruna
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    8,296,389.36 Euro
    10 January 2020
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    85 percent
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    1 January 2017
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    31 October 2022
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    31 October 2022
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    Jihočeská univerzita v Českých Budějovicích
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    48°58'59.63"N, 14°26'33.79"E
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    37005
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    Projekt vytvoří mezinárodní vědecký tým v čele s KZVP R. Tůmou a bude se zabývat mechanismy fungování velkých makromolekulárních komplexů. Projekt zahrnuje propojení biofyzikálních a strukturních metod a jejich aplikaci na studium fotosyntetických pigmentů, roli RNA v replikace virů a regulaci, mechanismus V(D)J rekombinace, přestavba chromatinu a fungování membránových komplexů. Projekt využije vybudovanou přístrojovou infrastrukturu a rozšíří mezinárodní propojenost a profil centra. a. (Czech)
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    The project will set up an international scientific team, led by the CTPA R. Tům, and will deal with the mechanisms for the functioning of large macromolecular weight complexes. The project involves linking the biophysical and structural methods and their application to studies on photosynthetic pigments, the role of RNA in replication and regulation, the V (D) J recombination mechanism, the conversion of chromatt and the functioning of membrane complexes. The project will make use of the built instrument infrastructure and expand international connectivity and concentration. (English)
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    Identifiers

    CZ.02.1.01/0.0/0.0/15_003/0000441
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