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The secret to DNA packing to one-millionth its size

Date:
January 13, 2022
Source:
Pohang University of Science & Technology (POSTECH)
Summary:
A research team succeeds at observing high-resolution 3D structure of human chromosomes using the radiation accelerator.
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Threads or earphone cables placed in tight spaces get easily tangled. On the contrary, our body's long and loose DNA packs into rod-shaped chromosomes one-millionth its size when the cell divides. If cell division occurs with DNA that is almost two meters in length, there is the risk of damage or loss in genetic information. Therefore, the condensation of chromosomes is essential to accurately transmitting genetic information.

A research team led by Professor Changyong Song and Dr. Daeho Sung, and Professor Jae-Hyung Jeon and Ph.D. candidate Chan Im in the Department of Physics at POSTECH, along with Professor Do Young Noh (Gwangju Institute of Science and Technology, GIST) used the X-ray from the third-generation synchrotron facility to analyze human chromosomes in their clustered state. These findings observed at the nanometer-scale resolution were published in the Proceedings of the National Academy of Sciences (PNAS).

The packing mechanism that condenses the chromosomes into one-millionth its size without any tangling and the 3D structure that enables this have puzzled researchers for over a half a century. However, it has been difficult to observe the chromosomes in their native condition. The researchers had to resort to detecting only some components of the chromosomes or infer their condensed state from looking at their uncoiled state.

This study verified the 3D structure of chromosomes by using coherent X-rays generated from the 3rd generation synchrotron facility after rapidly freezing the hydrated chromosomes and maintaining them in a cryogenic state. This is the research that uncovered the structure of the chromosomes in native states, unlike conventional techniques that thinly cut or dyed them.

Through the study, the research team confirmed that the chromosomes were formed in a fractal structure rather than the hierarchical structure stated in previous studies. In addition, a physical model showing the packing process of chromosomes was presented.

"Using coherent X-rays from the synchrotron, we have identified the 3D structure of chromosomes through high-resolution images at the nanometer-scale," explained Professor Changyong Song. "The technique developed in the study not only provides the key to understanding genetics -- the essence of all living things -- but also to uncover the 3D structures of other materials, such as viruses, whose detailed structure is of significant importance."

This research was conducted with the support from the Mid-Career Researcher Program, the Science Research Center (SRC) program, and the international joint research program of the National Research Foundation.


Story Source:

Materials provided by Pohang University of Science & Technology (POSTECH). Note: Content may be edited for style and length.


Journal Reference:

  1. Daeho Sung, Chan Lim, Masatoshi Takagi, Chulho Jung, Heemin Lee, Do Hyung Cho, Jae-Yong Shin, Kangwoo Ahn, Junha Hwang, Daewoong Nam, Yoshiki Kohmura, Tetsuya Ishikawa, Do Young Noh, Naoko Imamoto, Jae-Hyung Jeon, Changyong Song. Stochastic chromatin packing of 3D mitotic chromosomes revealed by coherent X-rays. Proceedings of the National Academy of Sciences, 2021; 118 (46): e2109921118 DOI: 10.1073/pnas.2109921118

Cite This Page:

Pohang University of Science & Technology (POSTECH). "The secret to DNA packing to one-millionth its size." ScienceDaily. ScienceDaily, 13 January 2022. <www.sciencedaily.com/releases/2022/01/220113151434.htm>.
Pohang University of Science & Technology (POSTECH). (2022, January 13). The secret to DNA packing to one-millionth its size. ScienceDaily. Retrieved November 20, 2024 from www.sciencedaily.com/releases/2022/01/220113151434.htm
Pohang University of Science & Technology (POSTECH). "The secret to DNA packing to one-millionth its size." ScienceDaily. www.sciencedaily.com/releases/2022/01/220113151434.htm (accessed November 20, 2024).

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