Cell Biology

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    Protocols in Current Issue
    Preparation and Manipulation of Olfactory Epithelium Explant Cultures for Measurement of the Mechanical Tension of Individual Axons Using the Biomembrane Force Probe
    Authors:  Coralie Fouquet and Alain Trembleau, date: 04/20/2019, view: 21, Q&A: 0
    [Abstract] In this paper, we describe a protocol allowing measurement of the mechanical tension of individual axons grown ex vivo from neural tissue explants. This protocol was developed with primary cultures of olfactory epithelium explants from embryonic (E13.5) mice. It includes a detailed description of explant dissection and culture, as well as ...
    Visualization of Plant Cell Wall Epitopes Using Immunogold Labeling for Electron Microscopy
    Author:  Mateusz Majda, date: 04/05/2019, view: 330, Q&A: 0
    [Abstract] Plant cell walls consist of different polysaccharides and structural proteins, which form a rigid layer located outside of the plasma membrane. The wall is also a very dynamic cell composite, which is characterized by complex polysaccharide interactions and various modifications during cell development. The visualization of cell wall components in ...
    Electron Microscopic Detection of Proteins and Protein Complexes in Mammalian Cells Using APEX-tagged, Conditionally Stable Nanobodies
    Authors:  Thomas E. Hall, James Rae, Nicholas Ariotti and Robert G. Parton, date: 11/20/2018, view: 927, Q&A: 0
    [Abstract] The recent development of 3D electron microscopic techniques for cells and tissues has necessitated the development of new methods for the detection of proteins and protein-complexes in situ. The development of new genetic tags, such as the ascorbate peroxidase, APEX, for electron microscopic detection of tagged proteins has expanded the ...
    Examining Autophagy in Plant by Transmission Electron Microscopy (TEM)
    Authors:  Xiyin Zheng, Chenguang Zhao and Yule Liu, date: 10/20/2018, view: 1035, Q&A: 0
    [Abstract] In plants, macroautophagy, here referred as autophagy, is a degradation pathway during which the double-membrane structure named autophagosome engulfs the cargo and then fuses with vacuole for material recycling.

    To investigate the process of autophagy, transmission electron microscopy (TEM) was used to monitor the ultrastructure of ...
    Metal-tagging Transmission Electron Microscopy for Localisation of Tombusvirus Replication Compartments in Yeast
    Authors:  Isabel Fernández de Castro and Cristina Risco, date: 04/20/2018, view: 1804, Q&A: 0
    [Abstract] Positive-stranded (+) RNA viruses are intracellular pathogens in humans, animals and plants. To build viral replicase complexes (VRCs) viruses manipulate lipid flows and reorganize subcellular membranes. Redesigned membranes concentrate viral and host factors and create an environment that facilitates the formation of VRCs within replication ...
    Electron Tomography to Study the Three-dimensional Structure of Plasmodesmata in Plant Tissues–from High Pressure Freezing Preparation to Ultrathin Section Collection
    Authors:  William J. Nicolas, Emmanuelle Bayer and Lysiane Brocard, date: 01/05/2018, view: 2865, Q&A: 0
    [Abstract] Plasmodesmata (PD) are nanometric (~20 nm wide) membrane lined pores encased in the cell walls of the adjacent plant cells. They allow the cells to exchange all types of molecules ranging from nutrients like sugar, hormones, to RNAs and various proteins. Unfortunately, they are also hijacked by phyto-viruses, enabling them to spread from ...
    Immunogold Electron Microscopy of the Autophagosome Marker LC3
    Authors:  Domenico Mattoscio, Andrea Raimondi, Carlo Tacchetti and Susanna Chiocca, date: 12/20/2017, view: 4169, Q&A: 0
    [Abstract] Even though autophagy was firstly observed by transmission electron microscopy already in the 1950s (reviewed in Eskelinen et al., 2011), nowadays this technique remains one of the most powerful systems to monitor autophagic processes. The autophagosome, an LC3-positive double membrane structures enclosing cellular materials, represents ...
    Using Light and Electron Microscopy to Estimate Structural Variation in Thylakoid Membranes
    Authors:  Hatsumi Nozue and Kiyokazu Kametani, date: 12/05/2017, view: 3140, Q&A: 0
    [Abstract] The shapes of chloroplasts and the architectures of internal thylakoid membranes are altered by growth and environmental changes (Lichtenthaler et al., 1981; Kutik, 1985; Terashima and Hikosaka, 1995). These morphological alterations proceed via transitional intermediates, during which dynamic and heterogeneous thylakoid membranes are ...
    Immunogold Localization of Molecular Constituents Associated with Basal Bodies, Flagella, and Extracellular Matrices in Male Gametes of Land Plants
    [Abstract] Male gametes (spermatozoids) are the only motile cells produced during the life cycle of land plants. While absent from flowering and most cone-bearing plants, motile cells are found in less derived taxa, including bryophytes (mosses, liverworts and hornworts), pteridophytes (lycophytes and ferns) and some seed plants (Ginkgo and cycads). ...
    Scanning Electron Microscopy of Motile Male Gametes of Land Plants
    Authors:  Karen Sue Renzaglia, Renee A. Lopez and Steven J. Schmitt, date: 10/05/2017, view: 3085, Q&A: 0
    [Abstract] The only motile cells produced in land plants are male gametes (spermatozoids), which are reduced to non-flagellated cells in flowering plants and most gymnosperms. Although a coiled architecture is universal, the complexity of land plant flagellated cells varies from biflagellated in bryophytes to thousands of flagella per gametes in the seed ...



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