Direct, high-resolution measurement of furrow stiffening during division of adherent cells

Matzke, R.; Jacobson, Ken; Radmacher, Manfred

doi:10.1038/35078583

Cited by 300 publications

(250 citation statements)

References 21 publications

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“…II C͒ suggested that G 2 M and native mitotic cells were stiffer than cells in the other phases. The increased stiffness of mitotic cells has been reported by other authors 32,33 and is associated with a reorganization of the cytoskeleton ͑Fig. 4͒.…”

Section: G Higher Stiffness Of Mitotic Cellsmentioning

confidence: 85%

Measuring cell adhesion forces during the cell cycle by force spectroscopy

Weder¹,

Vörös²,

Giazzon³

et al. 2009

Biointerphases

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Force spectroscopy has been used to measure the adhesion of Saos-2 cells to a glass surface at different phases of the cell cycle. The cells were synchronized in three phases of the cell cycle: G 1 , S, and G 2 M. Cells in these phases were compared with unsynchronized and native mitotic cells. Individual cells were attached to an atomic force microscope cantilever, brought into brief contact with the glass surface, and then pulled off again. The force-distance curves obtained allowed the work and maximum force of detachment as well as the number, amplitude, and position of discrete unbinding steps to be determined. A statistical analysis of the data showed that the number of binding proteins or protein complexes present at the cell surface and their binding properties remain similar throughout the cell cycle. This, despite the huge changes in cell morphology and adhesion that occur as the cells enter mitosis. These changes are rather associated with the changes in cytoskeletal organization, which can be quantified by force spectroscopy as changes in cell stiffness.

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Section: G Higher Stiffness Of Mitotic Cellsmentioning

confidence: 85%

Measuring cell adhesion forces during the cell cycle by force spectroscopy

Weder¹,

Vörös²,

Giazzon³

et al. 2009

Biointerphases

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show abstract

“…The prerequisite of imaging living cells in fluids is to attach them onto a flat support (such as glass) to withstand the lateral force exerted by the scanning tip. For those adherent cells, the most commonly used method is to directly culture them on a glass support for about 1-2 days and these cells can adhere to the support tightly [24]. Sometimes in order to enhance the cell adherence, adhesion proteins such as poly-L-lysine are coated onto the substrate [25].…”

Section: B-lymphoma Living Cell Imagingmentioning

confidence: 99%

Imaging and measuring the rituximab-induced changes of mechanical properties in B-lymphoma cells using atomic force microscopy

Liu

et al. 2011

Biochemical and Biophysical Research Communications

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“…Sacrificing two-dimensional resolution by using single line scans can increase time resolution while still capturing spatial information in one direction. The group of Radmacher used this trick to study the dynamics of 3T3 fibroblasts [1216], MTLn3 cells [1217], and potorous triactylis kidney cells [1218].…”

Section: Force Volume Modementioning

confidence: 99%