Chromatin behavior in living cells: Lessons from single‐nucleosome imaging and tracking.

Autor: Ide, Satoru, Tamura, Sachiko, Maeshima, Kazuhiro
Předmět:
Zdroj: BioEssays; Jul2022, Vol. 44 Issue 7, p1-15, 15p
Abstrakt: Eukaryotic genome DNA is wrapped around core histones and forms a nucleosome structure. Together with associated proteins and RNAs, these nucleosomes are organized three‐dimensionally in the cell as chromatin. Emerging evidence demonstrates that chromatin consists of rather irregular and variable nucleosome arrangements without the regular fiber structure and that its dynamic behavior plays a critical role in regulating various genome functions. Single‐nucleosome imaging is a promising method to investigate chromatin behavior in living cells. It reveals local chromatin motion, which reflects chromatin organization not observed in chemically fixed cells. The motion data is like a gold mine. Data analyses from many aspects bring us more and more information that contributes to better understanding of genome functions. In this review article, we describe imaging of single‐nucleosomes and their tracked behavior through oblique illumination microscopy. We also discuss applications of this technique, especially in elucidating nucleolar organization in living cells. [ABSTRACT FROM AUTHOR]
Databáze: Complementary Index