Your search keyword '"Petermann, Eva"' showing total 25 results

1. Supplementary Figure Legends from Diminished Origin-Licensing Capacity Specifically Sensitizes Tumor Cells to Replication Stress

Author

Zimmerman, Kristin M., primary, Jones, Rebecca M., primary, Petermann, Eva, primary, and Jeggo, Penelope A., primary

Published

2023

2. Data from BRCA2 and RAD51 Promote Double-Strand Break Formation and Cell Death in Response to Gemcitabine

Author

Jones, Rebecca M., primary, Kotsantis, Panagiotis, primary, Stewart, Grant S., primary, Groth, Petra, primary, and Petermann, Eva, primary

Published

2023

3. Supplementary Figure 1 from Targeted Mutations in the ATR Pathway Define Agent-Specific Requirements for Cancer Cell Growth and Survival

Author

Wilsker, Deborah, primary, Chung, Jon H., primary, Pradilla, Ivan, primary, Petermann, Eva, primary, Helleday, Thomas, primary, and Bunz, Fred, primary

Published

2023

4. Supplementary Figure Legends from Diminished Origin-Licensing Capacity Specifically Sensitizes Tumor Cells to Replication Stress

Author

Zimmerman, Kristin M., primary, Jones, Rebecca M., primary, Petermann, Eva, primary, and Jeggo, Penelope A., primary

Published

2023

5. Data from BRCA2 and RAD51 Promote Double-Strand Break Formation and Cell Death in Response to Gemcitabine

Author

Jones, Rebecca M., primary, Kotsantis, Panagiotis, primary, Stewart, Grant S., primary, Groth, Petra, primary, and Petermann, Eva, primary

Published

2023

6. Data from Diminished Origin-Licensing Capacity Specifically Sensitizes Tumor Cells to Replication Stress

Author

Zimmerman, Kristin M., primary, Jones, Rebecca M., primary, Petermann, Eva, primary, and Jeggo, Penelope A., primary

Published

2023

7. Data Supplement from BRCA2 and RAD51 Promote Double-Strand Break Formation and Cell Death in Response to Gemcitabine

Author

Jones, Rebecca M., primary, Kotsantis, Panagiotis, primary, Stewart, Grant S., primary, Groth, Petra, primary, and Petermann, Eva, primary

Published

2023

8. Data from Targeted Mutations in the ATR Pathway Define Agent-Specific Requirements for Cancer Cell Growth and Survival

Author

Wilsker, Deborah, primary, Chung, Jon H., primary, Pradilla, Ivan, primary, Petermann, Eva, primary, Helleday, Thomas, primary, and Bunz, Fred, primary

Published

2023

9. Supplementary Figures from Diminished Origin-Licensing Capacity Specifically Sensitizes Tumor Cells to Replication Stress

Author

Zimmerman, Kristin M., primary, Jones, Rebecca M., primary, Petermann, Eva, primary, and Jeggo, Penelope A., primary

Published

2023

10. Supplementary Figures from Diminished Origin-Licensing Capacity Specifically Sensitizes Tumor Cells to Replication Stress

Author

Zimmerman, Kristin M., primary, Jones, Rebecca M., primary, Petermann, Eva, primary, and Jeggo, Penelope A., primary

Published

2023

11. Data from Targeted Mutations in the ATR Pathway Define Agent-Specific Requirements for Cancer Cell Growth and Survival

Author

Wilsker, Deborah, primary, Chung, Jon H., primary, Pradilla, Ivan, primary, Petermann, Eva, primary, Helleday, Thomas, primary, and Bunz, Fred, primary

Published

2023

12. Data from Diminished Origin-Licensing Capacity Specifically Sensitizes Tumor Cells to Replication Stress

Author

Zimmerman, Kristin M., primary, Jones, Rebecca M., primary, Petermann, Eva, primary, and Jeggo, Penelope A., primary

Published

2023

13. Supplementary Figure 1 from Targeted Mutations in the ATR Pathway Define Agent-Specific Requirements for Cancer Cell Growth and Survival

Author

Wilsker, Deborah, primary, Chung, Jon H., primary, Pradilla, Ivan, primary, Petermann, Eva, primary, Helleday, Thomas, primary, and Bunz, Fred, primary

Published

2023

14. Data Supplement from BRCA2 and RAD51 Promote Double-Strand Break Formation and Cell Death in Response to Gemcitabine

Author

Jones, Rebecca M., primary, Kotsantis, Panagiotis, primary, Stewart, Grant S., primary, Groth, Petra, primary, and Petermann, Eva, primary

Published

2023

15. Figure S1 to S7 from MYBL2 Supports DNA Double Strand Break Repair in Hematopoietic Stem Cells

Author

Bayley, Rachel, primary, Blakemore, Daniel, primary, Cancian, Laila, primary, Dumon, Stephanie, primary, Volpe, Giacomo, primary, Ward, Carl, primary, Almaghrabi, Ruba, primary, Gujar, Jidnyasa, primary, Reeve, Natasha, primary, Raghavan, Manoj, primary, Higgs, Martin R., primary, Stewart, Grant S., primary, Petermann, Eva, primary, and García, Paloma, primary

Published

2023

16. Table S1 from MYBL2 Supports DNA Double Strand Break Repair in Hematopoietic Stem Cells

Author

Bayley, Rachel, primary, Blakemore, Daniel, primary, Cancian, Laila, primary, Dumon, Stephanie, primary, Volpe, Giacomo, primary, Ward, Carl, primary, Almaghrabi, Ruba, primary, Gujar, Jidnyasa, primary, Reeve, Natasha, primary, Raghavan, Manoj, primary, Higgs, Martin R., primary, Stewart, Grant S., primary, Petermann, Eva, primary, and García, Paloma, primary

Published

2023

17. Data from MYBL2 Supports DNA Double Strand Break Repair in Hematopoietic Stem Cells

Author

Bayley, Rachel, primary, Blakemore, Daniel, primary, Cancian, Laila, primary, Dumon, Stephanie, primary, Volpe, Giacomo, primary, Ward, Carl, primary, Almaghrabi, Ruba, primary, Gujar, Jidnyasa, primary, Reeve, Natasha, primary, Raghavan, Manoj, primary, Higgs, Martin R., primary, Stewart, Grant S., primary, Petermann, Eva, primary, and García, Paloma, primary

Published

2023

18. Table S1 from MYBL2 Supports DNA Double Strand Break Repair in Hematopoietic Stem Cells

Author

Bayley, Rachel, primary, Blakemore, Daniel, primary, Cancian, Laila, primary, Dumon, Stephanie, primary, Volpe, Giacomo, primary, Ward, Carl, primary, Almaghrabi, Ruba, primary, Gujar, Jidnyasa, primary, Reeve, Natasha, primary, Raghavan, Manoj, primary, Higgs, Martin R., primary, Stewart, Grant S., primary, Petermann, Eva, primary, and García, Paloma, primary

Published

2023

19. Table S2 from MYBL2 Supports DNA Double Strand Break Repair in Hematopoietic Stem Cells

Author

Bayley, Rachel, primary, Blakemore, Daniel, primary, Cancian, Laila, primary, Dumon, Stephanie, primary, Volpe, Giacomo, primary, Ward, Carl, primary, Almaghrabi, Ruba, primary, Gujar, Jidnyasa, primary, Reeve, Natasha, primary, Raghavan, Manoj, primary, Higgs, Martin R., primary, Stewart, Grant S., primary, Petermann, Eva, primary, and García, Paloma, primary

Published

2023

20. Figure S1 to S7 from MYBL2 Supports DNA Double Strand Break Repair in Hematopoietic Stem Cells

Author

Bayley, Rachel, primary, Blakemore, Daniel, primary, Cancian, Laila, primary, Dumon, Stephanie, primary, Volpe, Giacomo, primary, Ward, Carl, primary, Almaghrabi, Ruba, primary, Gujar, Jidnyasa, primary, Reeve, Natasha, primary, Raghavan, Manoj, primary, Higgs, Martin R., primary, Stewart, Grant S., primary, Petermann, Eva, primary, and García, Paloma, primary

Published

2023

21. MYBL2 Supports DNA Double Strand Break Repair in Hematopoietic Stem Cells

Author

Bayley, Rachel, primary, Blakemore, Daniel, additional, Cancian, Laila, additional, Dumon, Stephanie, additional, Volpe, Giacomo, additional, Ward, Carl, additional, Almaghrabi, Ruba, additional, Gujar, Jidnyasa, additional, Reeve, Natasha, additional, Raghavan, Manoj, additional, Higgs, Martin R., additional, Stewart, Grant S., additional, Petermann, Eva, additional, and García, Paloma, additional

Published

2018

22. Mechanisms of Oncogene-Induced Replication Stress: Jigsaw Falling into Place

Author

Kotsantis, Panagiotis, primary, Petermann, Eva, additional, and Boulton, Simon J., additional

Published

2018

23. BRCA2 and RAD51 Promote Double-Strand Break Formation and Cell Death in Response to Gemcitabine

Author

Jones, Rebecca M., primary, Kotsantis, Panagiotis, additional, Stewart, Grant S., additional, Groth, Petra, additional, and Petermann, Eva, additional

Published

2014

24. Diminished Origin-Licensing Capacity Specifically Sensitizes Tumor Cells to Replication Stress

Author

Zimmerman, Kristin M., primary, Jones, Rebecca M., additional, Petermann, Eva, additional, and Jeggo, Penelope A., additional

Published

2013

25. Targeted Mutations in the ATR Pathway Define Agent-Specific Requirements for Cancer Cell Growth and Survival

Author

Wilsker, Deborah, primary, Chung, Jon H., additional, Pradilla, Ivan, additional, Petermann, Eva, additional, Helleday, Thomas, additional, and Bunz, Fred, additional

Published

2012