Inefficient degradation of cyclin B1 re-activates the spindle checkpoint right after sister chromatid disjunction

MLA

Clijsters, Linda, et al. “Inefficient Degradation of Cyclin B1 Re-Activates the Spindle Checkpoint Right after Sister Chromatid Disjunction.” Cell Cycle, vol. 13, no. 15, Aug. 2014, pp. 2370–78. EBSCOhost, https://doi.org/10.4161/cc.29336.

APA

Clijsters, L., van Zon, W., Riet, B. ter, Voets, E., Boekhout, M., Ogink, J., Rumpf-Kienzl, C., & Wolthuis, R. M. (2014). Inefficient degradation of cyclin B1 re-activates the spindle checkpoint right after sister chromatid disjunction. Cell Cycle, 13(15), 2370–2378. https://doi.org/10.4161/cc.29336

Chicago

Clijsters, Linda, Wouter van Zon, Bas ter Riet, Erik Voets, Michiel Boekhout, Janneke Ogink, Cornelia Rumpf-Kienzl, and Rob MF Wolthuis. 2014. “Inefficient Degradation of Cyclin B1 Re-Activates the Spindle Checkpoint Right after Sister Chromatid Disjunction.” Cell Cycle 13 (15): 2370–78. doi:10.4161/cc.29336.