Abstract
Methods for atomic force microscopy (AFM) imaging of human metaphase chromosomes were introduced in the present study. Chromosomes from the lymphocytes were fixed and prepared onto glass slides as the chromosome spread, and observed in phosphate-buffered saline by dynamic mode AFM. On the contrary, chromosomes from the human cell line BALL-1 were isolated using the hexylene glycol method, absorbed onto a silane-coated glass slide, and observed in a hexylene glycol buffer solution by dynamic mode AFM. AFM provides three-dimensional topographic images of both fixed and unfixed human chromosomes with height information. The ultrastructural image of a pair of chromatids was also obtained by AFM in a liquid condition. The combined use of the AFM and light microscopy of cytochemically and/or immunocytochemically stained chromosomes is also expected to be useful for studies on the localization of chemical components in relation to the higher-order structure of the chromosomes.
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Hoshi, O., Ushiki, T. (2011). Atomic Force Microscopy Imaging of Human Metaphase Chromosomes in Liquid. In: Braga, P., Ricci, D. (eds) Atomic Force Microscopy in Biomedical Research. Methods in Molecular Biology, vol 736. Humana Press. https://doi.org/10.1007/978-1-61779-105-5_8
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DOI: https://doi.org/10.1007/978-1-61779-105-5_8
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