BIOID IN TLS

Identification of novel regulators of translesion DNA synthesis in human cells

 Coordinatore KOBENHAVNS UNIVERSITET 

 Organization address postcode: 1017

contact info
Titolo: Mr.
Nome: Bjarne Friis
Cognome: Ploumark
Email: send email
Telefono: 4535322712
Fax: 4535324612

 Nazionalità Coordinatore Denmark [DK]
 Totale costo 221˙154 €
 EC contributo 221˙154 €
 Programma FP7-PEOPLE
Specific programme "People" implementing the Seventh Framework Programme of the European Community for research, technological development and demonstration activities (2007 to 2013)
 Code Call FP7-PEOPLE-2012-IEF
 Funding Scheme MC-IEF
 Anno di inizio 2014
 Periodo (anno-mese-giorno) 2014-01-01   -   2015-12-31

 Partecipanti

# participant  country  role  EC contrib. [€] 
1 KOBENHAVNS UNIVERSITET DK coordinator 221˙154.60

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 Word cloud

Esplora la "nuvola delle parole (Word Cloud) per avere un'idea di massima del progetto.

integrity    tls    replication    cell    screens    cells    damage    molecular    mechanisms    cellular    dna    genome    proteins   

 Obiettivo del progetto (Objective)

'Here, I propose to unravel the molecular mechanisms that regulate TLS during DNA damage bypass through advanced complementary approaches. Thousands of DNA damaging insults are inflicted daily upon the genomes of all living cells. If left unrepaired, these lesions can be life-threatening for organisms as they alter the content and organization of the genetic material. To overcome this constant challenge, cells are equipped with a global DNA damage response that impacts on diverse cellular processes to facilitate reestablishment of genome integrity. The genome is particularly vulnerable to DNA damage during DNA replication, where DNA is precisely duplicated as part of the cell division process. Translesion DNA synthesis (TLS), mediated by specialized low-fidelity DNA polymerases, is an important cellular mechanism for preventing gross chromosomal instability following DNA damage encountered during DNA replication. However, our understanding of how this is achieved at the molecular level remains surprisingly limited. First, in combination with state-of-the-art mass spectrometry facilities present at the CPR, I will set up a newly established screening method, termed BioID, for efficient, unbiased identification of novel proteins that specifically act at replication forks during TLS. Second, I will mine proteomic screens for DNA damage-regulated ubiquitylation for novel TLS-regulating factors. From these screens I will select the most promising candidate proteins for further validation and characterization of their potential roles in TLS regulation. I will study how these proteins impact on TLS by establishing cell lines capable of overexpressing or knocking down each factor, and employ these in a panel of biochemical and cell-based methods established in the host lab. This project will advance our understanding of the molecular mechanisms that control and integrate TLS activity with genome integrity maintenance.'

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