Live imaging of H3K9 acetylation in plant cells

被引：0

作者：

Kazuki Kurita

Takuya Sakamoto

Noriyoshi Yagi

Yuki Sakamoto

Akihiro Ito

Norikazu Nishino

Kaori Sako

Minoru Yoshida

Hiroshi Kimura

Motoaki Seki

Sachihiro Matsunaga

机构：

[1] Faculty of Science and Technology,Department of Applied Biological Science

[2] Tokyo University of Science,undefined

[3] Imaging Frontier Center,undefined

[4] Organization for Research Advancement,undefined

[5] Tokyo University of Science,undefined

[6] Chemical Genomics Research Group,undefined

[7] RIKEN Center for Sustainable Resource Science,undefined

[8] Graduate School of Life Science and Systems Engineering,undefined

[9] Kyushu Institute of Technology,undefined

[10] Plant Genomic Network Research Team,undefined

[11] RIKEN Center for Sustainable Resource Science,undefined

[12] Graduate School of Bioscience and Biotechnology,undefined

[13] Tokyo Institute of Technology,undefined

来源：

Scientific Reports | / 7卷

关键词：

D O I：

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学科分类号：

摘要：

Proper regulation of histone acetylation is important in development and cellular responses to environmental stimuli. However, the dynamics of histone acetylation at the single-cell level remains poorly understood. Here we established a transgenic plant cell line to track histone H3 lysine 9 acetylation (H3K9ac) with a modification-specific intracellular antibody (mintbody). The H3K9ac-specific mintbody fused to the enhanced green fluorescent protein (H3K9ac-mintbody-GFP) was introduced into tobacco BY-2 cells. We successfully demonstrated that H3K9ac-mintbody-GFP interacted with H3K9ac in vivo. The ratio of nuclear/cytoplasmic H3K9ac-mintbody-GFP detected in quantitative analysis reflected the endogenous H3K9ac levels. Under chemically induced hyperacetylation conditions with histone deacetylase inhibitors including trichostatin A, Ky-2 and Ky-14, significant enhancement of H3K9ac was detected by H3K9ac-mintbody-GFP dependent on the strength of inhibitors. Conversely, treatment with a histone acetyltransferase inhibitor, C646 caused a reduction in the nuclear to cytoplasmic ratio of H3K9ac-mintbody-GFP. Using this system, we assessed the environmental responses of H3K9ac and found that cold and salt stresses enhanced H3K9ac in tobacco BY-2 cells. In addition, a combination of H3K9ac-mintbody-GFP with 5-ethynyl-2′-deoxyuridine labelling confirmed that H3K9ac level is constant during interphase.

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