Zhixun Li scite author profile

Zhixun Li

3Publications

24Citation Statements Received

133Citation Statements Given

How they've been cited

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114

123

Affiliations

Center for Life Sciences, Peking University

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Cryo‐Electron Tomography of Toxoplasma gondii Indicates That the Conoid Fiber May Be Derived from Microtubules

Yang

et al. 2023

Advanced Science

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Toxoplasma gondii (T. gondii) is the causative agent of toxoplasmosis and can infect numerous warm‐blooded animals. An improved understanding of the fine structure of this parasite can help elucidate its replication mechanism. Previous studies have resolved the ultrastructure of the cytoskeleton using purified samples, which eliminates their cellular context. Here the application of cryo‐electron tomography to visualize T. gondii tachyzoites in their native state is reported. The fine structure and cellular distribution of the cytoskeleton are resolved and analyzed at nanometer resolution. Additionally, the tachyzoite structural characteristics are annotated during its endodyogeny for the first time. By comparing the structural features in mature tachyzoites and their daughter buds, it is proposed that the conoid fiber of the Apicomplexa originates from microtubules. This work represents the detailed molecular anatomy of T. gondii, particularly during the budding replication stage of tachyzoite, and provides a reference for further studies of this fascinating organism.

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Integrated multimodality microscope for accurate and efficient target-guided cryo-lamellae preparation

Lü

Xiao

et al. 2023

Nat Methods

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Cryo-electron tomography (cryo-ET) is a revolutionary technique for resolving the structure of subcellular organelles and macromolecular complexes in their cellular context. However, the application of the cryo-ET is hampered by the sample preparation step. Performing cryo-focused ion beam milling at an arbitrary position on the sample is inefficient, and the target of interest is not guaranteed to be preserved when thinning the cell from several micrometers to less than 300 nm thick. Here, we report a cryogenic correlated light, ion and electron microscopy (cryo-CLIEM) technique that is capable of preparing cryo-lamellae under the guidance of three-dimensional confocal imaging. Moreover, we demonstrate a workflow to preselect and preserve nanoscale target regions inside the finished cryo-lamellae. By successfully preparing cryo-lamellae that contain a single centriole or contact sites between subcellular organelles, we show that this approach is generally applicable, and shall help in innovating more applications of cryo-ET.

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Cryo‐Electron Tomography of Toxoplasma gondii Indicates That the Conoid Fiber May Be Derived from Microtubules (Adv. Sci. 14/2023)

Li¹,

Du²,

Yang³

et al. 2023

Advanced Science

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Zhixun Li

Cryo‐Electron Tomography of Toxoplasma gondii Indicates That the Conoid Fiber May Be Derived from Microtubules

Integrated multimodality microscope for accurate and efficient target-guided cryo-lamellae preparation

Cryo‐Electron Tomography of Toxoplasma gondii Indicates That the Conoid Fiber May Be Derived from Microtubules (Adv. Sci. 14/2023)

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