Boris Zhivotovsky - Selected Publications#
1. Orrenius, S., Zhivotovsky, B., and Nicotera, P. Regulation of cell death: The calcium-apoptosis link. Nature Rev. Mol. Cell Biol. 2003: 4, 552-565 (1260 citations, IF=36.5).
2. Orrenius, S., Gogvadze, V., and Zhivotovsky, B. Mitochondrial oxidative stress: Implications for cell death. Annu. Rev. Pharmacol. Toxicol. 2007: 47, 143-183 (473 citations, IF=18.5).
3. Samali, A., Cai, J., Zhivotovsky, B., Jones, D. P., and Orrenius, S. Presence of a pre-apoptotic complex of pro-caspase-3, Hsp60 and Hsp10 in the mitochondrial fraction of Jurkat cells. EMBO J., 1999: 19, 2040-2048 (343 citations, IF=10.8).
4. Zhivotovsky, B., Orrenius, S., Brustugun, O.T., and Doskeland, S.O. Injection of cytochrome c induces apoptosis. Nature, 1998: 391, 449-450 (242 citations, IF=42.4).
5. Zhivotovsky, B., Samali, A., Gahm, A., and Orrenius, S. Caspases: their intracellular localization and translocation during apoptosis. Cell Death Differ., 1999: 6, 644-651 (231 citations, IF=8.4).
6. Vakifahmetoglu, H., Olsson, M., and Zhivotovsky, B. Death through a tragedy: Mitotic Catastrophe. Cell Death Differ. 2008: 15, 1153-1162 (197 citations, IF=8.4).
7. Sundström, J.F., Vaculova, A., Smertenko, A.P., Savenkov, E.I., Golovko, A., Minina, E., Tiwari, B.S., Rodriguez-Nieto, S., Zamyatnin, A.A.Jr., Välineva, T., Saarikettu, J., Frilander, M.J., Suarez, M.F., Zavialov, A., Ståhl, U., Hussey, P.J., Silvennoinen, O., Sundberg, E., Zhivotovsky, B., Bozhkov, P.V. Tudor staphylococcal nuclease is an evolutionarily conserved component of the programmed cell death degradome. Nature Cell Biol. 2009: 11, 1347-1354 (82 citations, IF=20.0).
8. Kaminskyy, V.O., Piskunova, T., Zborovskaya, I.B., Tchevkina, E.M., and Zhivotovsky, B. Suppression of basal autophagy reduces lung cancer cell proliferation and enhances caspase-dependent and –independent apoptosis by stimulating ROS formation. Autophagy, 2012: 8, 1032-1044 (22 Citations, IF=11.4).
9. Imreh, G., Vakifahmetoglu Norberg, H., Imreh, S., and Zhivotovsky, B. Chromosomal breaks during mitotic catastrophe trigger γH2AX–ATM–p53-mediated apoptosis. J. Cell Sci., 2011: 124, 2951-2963 (15 Citations, IF=5.3).
10. Can, G., Akpinar, B., Baran, Y., Zhivotovsky, B., and Olsson, M. 5-Fluouracil signaling through a calcium-calmodulin-dependent pathway is required for p53 activation and apoptosis in colon carcinoma cells. Oncogene, 2013: 32, 4529-4538 (6 citations, IF=8.6).