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Thursday, November 6, 2014

Determination of motility forces on isolated chromosomes with laser tweezers

Nima Khatibzadeh, Alexander B. Stilgoe, Ann A. M. Bui, Yesenia Rocha, Gladys M. Cruz, Vince Loke, Linda Z. Shi, Timo A. Nieminen, Halina Rubinsztein-Dunlop & Michael W. Berns

Quantitative determination of the motility forces of chromosomes during cell division is fundamental to understanding a process that is universal among eukaryotic organisms. Using an optical tweezers system, isolated mammalian chromosomes were held in a 1064 nm laser trap. The minimum force required to move a single chromosome was determined to be ≈0.8–5 pN. The maximum transverse trapping efficiency of the isolated chromosomes was calculated as ≈0.01–0.02. These results confirm theoretical force calculations of ≈0.1–12 pN to move a chromosome on the mitotic or meiotic spindle. The verification of these results was carried out by calibration of the optical tweezers when trapping microspheres with a diameter of 4.5–15 µm in media with 1–7 cP viscosity. The results of the chromosome and microsphere trapping experiments agree with optical models developed to simulate trapping of cylindrical and spherical specimens.

DOI

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