Selected article for: "apical surface and cell ultrastructure"

Author: Amir Saberi; Anastasia A. Gulyaeva; John L. Brubacher; Phillip A. Newmark; Alexander E. Gorbalenya
Title: A planarian nidovirus expands the limits of RNA genome size
  • Document date: 2018_4_11
  • ID: gwgflckq_15
    Snippet: The copyright holder for this preprint (which was not peer-reviewed) is the . https://doi.org/10.1101/299776 doi: bioRxiv preprint route for viral transmission. Notably, particles in sub-epidermal layers have a "hazy" appearance and are embedded in a relatively electron-dense matrix (Fig. 3D) . In contrast, particles closer to the apical surface of the epidermis appear as relatively discrete structures, standing out against electron-lucent surrou.....
    Document: The copyright holder for this preprint (which was not peer-reviewed) is the . https://doi.org/10.1101/299776 doi: bioRxiv preprint route for viral transmission. Notably, particles in sub-epidermal layers have a "hazy" appearance and are embedded in a relatively electron-dense matrix (Fig. 3D) . In contrast, particles closer to the apical surface of the epidermis appear as relatively discrete structures, standing out against electron-lucent surrounding material (Fig. 3E) . The size, ultrastructure, and host-cell locations are all consistent with these structures being nidoviral nucleocapsids (43, 44) .

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