Accuracy and precision in quantitative fluorescence microscopy JC Waters Journal of Cell Biology 185 (7), 1135-1148, 2009 | 758 | 2009 |
Localization of Mad2 to kinetochores depends on microtubule attachment, not tension JC Waters, RH Chen, AW Murray, ED Salmon The Journal of cell biology 141 (5), 1181-1191, 1998 | 596 | 1998 |
Association of spindle assembly checkpoint component XMAD2 with unattached kinetochores RH Chen, JC Waters, ED Salmon, AW Murray Science 274 (5285), 242-246, 1996 | 582 | 1996 |
Phototoxicity in live fluorescence microscopy, and how to avoid it J Icha, M Weber, JC Waters, C Norden BioEssays 39 (8), 1700003, 2017 | 441 | 2017 |
Vertebrate shugoshin links sister centromere cohesion and kinetochore microtubule stability in mitosis A Salic, JC Waters, TJ Mitchison Cell 118 (5), 567-578, 2004 | 378 | 2004 |
The kinetochore microtubule minus-end disassembly associated with poleward flux produces a force that can do work. JC Waters, TJ Mitchison, CL Rieder, ED Salmon Molecular Biology of the Cell 7 (10), 1547-1558, 1996 | 224 | 1996 |
Oscillating mitotic newt lung cell kinetochores are, on average, under tension and rarely push JC Waters, RV Skibbens, ED Salmon Journal of cell science 109 (12), 2823-2831, 1996 | 188 | 1996 |
Evaluating performance in three‐dimensional fluorescence microscopy JM Murray, PL Appleton, JR Swedlow, JC Waters Journal of microscopy 228 (3), 390-405, 2007 | 152 | 2007 |
Checkpoint signals in grasshopper meiosis are sensitive to microtubule attachment, but tension is still essential RB Nicklas, JC Waters, ED Salmon, SC Ward Journal of cell science 114 (23), 4173-4183, 2001 | 148 | 2001 |
Pathways of spindle assembly JC Waters, ED Salmon Current opinion in cell biology 9 (1), 37-43, 1997 | 141 | 1997 |
The force-producing mechanism for centrosome separation during spindle formation in vertebrates is intrinsic to each aster JC Waters, RW Cole, CL Rieder The Journal of cell biology 122 (2), 361-372, 1993 | 139 | 1993 |
Rapid image deconvolution and multiview fusion for optical microscopy M Guo, Y Li, Y Su, T Lambert, DD Nogare, MW Moyle, LH Duncan, ... Nature biotechnology 38 (11), 1337-1346, 2020 | 115 | 2020 |
Navigating challenges in the application of superresolution microscopy TJ Lambert, JC Waters Journal of Cell Biology 216 (1), 53-63, 2017 | 93 | 2017 |
Designing a rigorous microscopy experiment: Validating methods and avoiding bias APT Jost, JC Waters Journal of Cell Biology 218 (5), 1452-1466, 2019 | 92 | 2019 |
Direction of actin flow dictates integrin LFA-1 orientation during leukocyte migration P Nordenfelt, TI Moore, SB Mehta, JM Kalappurakkal, V Swaminathan, ... Nature communications 8 (1), 2047, 2017 | 92 | 2017 |
Polo-like kinase-dependent phosphorylation of the synaptonemal complex protein SYP-4 regulates double-strand break formation through a negative feedback loop. S Nadarajan, TJ Lambert, E Altendorfer, J Gao, MD Blower, JC Waters, ... Elife 6, e23437, 2017 | 75 | 2017 |
Mad2 binding by phosphorylated kinetochores links error detection and checkpoint action in mitosis JC Waters, RH Chen, AW Murray, GJ Gorbsky, ED Salmon, RB Nicklas Current biology 9 (12), 649-652, 1999 | 68 | 1999 |
A high-resolution multimode digital microscope system ED Salmon, SL Shaw, J Waters, CM Waterman-Storer, PS Maddox, E Yeh, ... Methods in cell biology 56, 185-215, 1998 | 63 | 1998 |
Live‐cell fluorescence imaging JC Waters Methods in cell biology 81, 115-140, 2007 | 58 | 2007 |
Concepts in quantitative fluorescence microscopy JC Waters, T Wittmann Methods in cell biology 123, 1-18, 2014 | 52 | 2014 |