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Wolfram Siede

Showing results (11-20 of 22) with videos related to

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Radiation and Environmental Biophysics|September 18, 2007
Regulation of Saccharomyces cerevisiae DNA polymerase eta transcript and proteinRitu Pabla, Donald Rozario, Wolfram Siede
The Journal of Biological Chemistry|January 11, 2003
Checkpoint arrest signaling in response to UV damage is independent of nucleotide excision repair in Saccharomyces cerevisiaeHong Zhang, Jena Taylor, Wolfram Siede
Biochemical and Biophysical Research Communications|January 15, 2013
Role of polymerase η in mitochondrial mutagenesis of Saccharomyces cerevisiaeNimrat Chatterjee, Ritu Pabla, Wolfram Siede
Methods in Enzymology|June 24, 2006
Characterization of checkpoint responses to DNA damage in Saccharomyces cerevisiae: basic protocolsRitu Pabla, Vaibhav Pawar, Hong Zhang, et al.
Journal of Molecular Signaling|May 13, 2010
NSC109268 potentiates cisplatin-induced cell death in a p53-independent mannerEswar Shankar, Chandreyi Basu, Brett Adkins, et al.
Cancer Chemotherapy and Pharmacology|January 27, 2010
Enhancement of cisplatin sensitivity by NSC109268 in budding yeast and human cancer cells is associated with inhibition of S-phase progressionDilip Jain, Nila Patel, Melanie Shelton, et al.
DNA Repair|October 12, 2004
DNA decay and limited Rad53 activation after liquid holding of UV-treated nucleotide excision repair deficient S. cerevisiae cellsMichele Giannattasio, Federico Lazzaro, Wolfram Siede, et al.
The Journal of Biological Chemistry|March 17, 2004
Spontaneous DNA damage in Saccharomyces cerevisiae elicits phenotypic properties similar to cancer cellsBarbara A Evert, Tiffany B Salmon, Binwei Song, et al.
Mechanisms of Ageing and Development|June 23, 2009
Checkpoint kinase phosphorylation in response to endogenous oxidative DNA damage in repair-deficient stationary-phase Saccharomyces cerevisiaeVaibhav Pawar, Liu Jingjing, Nila Patel, et al.
Nucleic Acids Research|November 1, 2005
Mutagenic effects of abasic and oxidized abasic lesions in Saccharomyces cerevisiaeYoke W Kow, Gaobin Bao, Brenda Minesinger, et al.
Pageof 3

Showing results (11-20 of 22) with videos related to

Sort By:
Pageof 3
Radiation and Environmental Biophysics|September 18, 2007
Regulation of Saccharomyces cerevisiae DNA polymerase eta transcript and proteinRitu Pabla, Donald Rozario, Wolfram Siede
The Journal of Biological Chemistry|January 11, 2003
Checkpoint arrest signaling in response to UV damage is independent of nucleotide excision repair in Saccharomyces cerevisiaeHong Zhang, Jena Taylor, Wolfram Siede
Biochemical and Biophysical Research Communications|January 15, 2013
Role of polymerase η in mitochondrial mutagenesis of Saccharomyces cerevisiaeNimrat Chatterjee, Ritu Pabla, Wolfram Siede
Methods in Enzymology|June 24, 2006
Characterization of checkpoint responses to DNA damage in Saccharomyces cerevisiae: basic protocolsRitu Pabla, Vaibhav Pawar, Hong Zhang, et al.
Journal of Molecular Signaling|May 13, 2010
NSC109268 potentiates cisplatin-induced cell death in a p53-independent mannerEswar Shankar, Chandreyi Basu, Brett Adkins, et al.
Cancer Chemotherapy and Pharmacology|January 27, 2010
Enhancement of cisplatin sensitivity by NSC109268 in budding yeast and human cancer cells is associated with inhibition of S-phase progressionDilip Jain, Nila Patel, Melanie Shelton, et al.
DNA Repair|October 12, 2004
DNA decay and limited Rad53 activation after liquid holding of UV-treated nucleotide excision repair deficient S. cerevisiae cellsMichele Giannattasio, Federico Lazzaro, Wolfram Siede, et al.
The Journal of Biological Chemistry|March 17, 2004
Spontaneous DNA damage in Saccharomyces cerevisiae elicits phenotypic properties similar to cancer cellsBarbara A Evert, Tiffany B Salmon, Binwei Song, et al.
Mechanisms of Ageing and Development|June 23, 2009
Checkpoint kinase phosphorylation in response to endogenous oxidative DNA damage in repair-deficient stationary-phase Saccharomyces cerevisiaeVaibhav Pawar, Liu Jingjing, Nila Patel, et al.
Nucleic Acids Research|November 1, 2005
Mutagenic effects of abasic and oxidized abasic lesions in Saccharomyces cerevisiaeYoke W Kow, Gaobin Bao, Brenda Minesinger, et al.
Pageof 3