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R. Broderick, S. Ramadurai, K. Toth, D. Togashi, A. G. Ryder, J. Langwoski, and H.P. Nasheuer.
2012
April
Plos One
Cell cycle-dependent mobility of Cdc45 in living cells determined by fluorescence correlation spectroscopy.
Published
()
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7
4
e35537
e35537
Eukaryotic DNA replication is a dynamic process requiring the co-operation of specific replication proteins. We measured the mobility of eGFP-Cdc45 by Fluorescence Correlation Spectroscopy (FCS) in vivo in asynchronous cells and in cells synchronized at the G1/S transition and during S phase. Our data show that eGFP-Cdc45 mobility is faster in G1/S transition compared to S phase suggesting that Cdc45 is part of larger protein complex formed in S phase. Furthermore, the size of complexes containing Cdc45 was estimated in asynchronous, G1/S and S phase-synchronized cells using gel filtration chromatography; these findings complemented the in vivo FCS data. Analysis of the mobility of eGFP-Cdc45 and the size ofcomplexes containing Cdc45 and eGFP-Cdc45 after UVC-mediated DNA damage revealed no significant changes in diffusion rates and complex sizes using FCS and gel filtration chromatography analyses. This suggests that after UV-damage, Cdc45 is still present in a large multi-protein complex and that its mobility within living cells is consistently similar following UVC-mediated DNA damage.
http://www.nuigalway.ie/nanoscale/publications.html
http://dx.doi.org/10.1371/journal.pone.0035537
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