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Literature DB >> 20534442

Quantitative 3D imaging of whole, unstained cells by using X-ray diffraction microscopy.

Huaidong Jiang¹, Changyong Song, Chien-Chun Chen, Rui Xu, Kevin S Raines, Benjamin P Fahimian, Chien-Hung Lu, Ting-Kuo Lee, Akio Nakashima, Jun Urano, Tetsuya Ishikawa, Fuyuhiko Tamanoi, Jianwei Miao.

Abstract

Microscopy has greatly advanced our understanding of biology. Although significant progress has recently been made in optical microscopy to break the diffraction-limit barrier, reliance of such techniques on fluorescent labeling technologies prohibits quantitative 3D imaging of the entire contents of cells. Cryoelectron microscopy can image pleomorphic structures at a resolution of 3-5 nm, but is only applicable to thin or sectioned specimens. Here, we report quantitative 3D imaging of a whole, unstained cell at a resolution of 50-60 nm by X-ray diffraction microscopy. We identified the 3D morphology and structure of cellular organelles including cell wall, vacuole, endoplasmic reticulum, mitochondria, granules, nucleus, and nucleolus inside a yeast spore cell. Furthermore, we observed a 3D structure protruding from the reconstructed yeast spore, suggesting the spore germination process. Using cryogenic technologies, a 3D resolution of 5-10 nm should be achievable by X-ray diffraction microscopy. This work hence paves a way for quantitative 3D imaging of a wide range of biological specimens at nanometer-scale resolutions that are too thick for electron microscopy.

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Year: 2010 PMID： 20534442 PMCID： PMC2895086 DOI： 10.1073/pnas.1000156107

Source DB: PubMed Journal: Proc Natl Acad Sci U S A ISSN： 0027-8424 Impact factor: 11.205

36 in total

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6. Hard-x-ray lensless imaging of extended objects.

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7. High numerical aperture tabletop soft x-ray diffraction microscopy with 70-nm resolution.

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51 in total

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7. Semi-quantitative monitoring of confluence of adherent mesenchymal stromal cells on calcium-phosphate granules by using widefield microscopy images.

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