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- Title
Counterion-Mediated Decompaction of Liquid Crystalline Chromosomes.
- Authors
Sun, Shiyong; Wong, Joseph T.Y.; Liu, Mingxue; Dong, Faqin
- Abstract
Liquid crystalline phases of DNA and nucleosome core particles can be formed in vitro, indicating the crucial roles of these phases in the maintenance and compaction of genomes in vivo. In the present study, sequential levels of liquid crystalline decompaction were identified in highly purified nuclei of Karenia papilionacea in response to the gradual chelation of divalent counterions by ethylenediaminetetraacetic acid (EDTA); the decompaction was observed using polarizing light microscopy, confocal laser scanning microscopy, and transmission electron microscopy and further confirmed utilizing microcalorimetry. Nested fibrous coils in 150 nm arc-like bands of chromatin were observed in the early stages of chromosomal decompaction. The microcalorimetry spectra of isolated nuclei revealed that the dynamic processes of nuclear decompaction occurred in a nonlinear manner; in addition, an EDTA-sensitive thermal transition between 60°C-70°C, corresponding to a liquid-crystalline-phase transition of chromosomes, was found. The results suggested that nested coils of fibrous chromatin filaments are responsible for the establishment and stabilization of the liquid crystalline and birefringence features of the chromosomes of dinoflagellates. The results also indicated that positively charged divalent counterions play significant roles in modulating liquid crystalline phases to compact the chromosomes of dinoflagellates. Sequential levels of liquid crystalline decompaction of DNA were identified in highly purified nuclei in response to chelation of divalent counterions by EDTA. Techniques used to examine this process included polarizing light microscopy, confocal laser microscopy, transmission electron microscopy, and microcalorimetry.
- Subjects
CHROMATIN; ETHYLENEDIAMINETETRAACETIC acid; TRANSMISSION electron microscopy; MICROCALORIMETRY; DINOFLAGELLATES
- Publication
DNA & Cell Biology, 2012, Vol 31, Issue 12, p1657
- ISSN
1044-5498
- Publication type
Article
- DOI
10.1089/dna.2012.1708