Ning Wang scite author profile

Mechanical stresses were applied directly to cell surface receptors with a magnetic twisting device. The extracellular matrix receptor, integrin beta 1, induced focal adhesion formation and supported a force-dependent stiffening response, whereas nonadhesion receptors did not. The cytoskeletal stiffness (ratio of stress to strain) increased in direct proportion to the applied stress and required intact microtubules and intermediate filaments as well as microfilaments. Tensegrity models that incorporate mechanically interdependent struts and strings that reorient globally in response to a localized stress mimicked this response. These results suggest that integrins act as mechanoreceptors and transmit mechanical signals to the cytoskeleton. Mechanotransduction, in turn, may be mediated simultaneously at multiple locations inside the cell through force-induced rearrangements within a tensionally integrated cytoskeleton.

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Isolation and characterization of a bat SARS-like coronavirus that uses the ACE2 receptor

Yang

et al. 2013

Nature

1,652

1,586

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The 2002–3 pandemic caused by severe acute respiratory syndrome coronavirus (SARS-CoV) was one of the most significant public health events in recent history1. An ongoing outbreak of Middle East respiratory syndrome coronavirus (MERS-CoV)2 suggests that this group of viruses remains a major threat and that their distribution is wider than previously recognized. Although bats have been suggested as the natural reservoirs of both viruses3–5, attempts to isolate the progenitor virus of SARS-CoV from bats have been unsuccessful. Diverse SARS-like coronaviruses (SL-CoVs) have now been reported from bats in China, Europe and Africa5–8, but none are considered a direct progenitor of SARS-CoV because of their phylogenetic disparity from this virus and the inability of their spike proteins (S) to use the SARS-CoV cellular receptor molecule, the human angiotensin converting enzyme II (ACE2)9,10. Here, we report whole genome sequences of two novel bat CoVs from Chinese horseshoe bats (Family: Rhinolophidae) in Yunnan, China; RsSHC014 and Rs3367. These viruses are far more closely related to SARS-CoV than any previously identified bat CoVs, particularly in the receptor binding domain (RDB) of the S protein. Most importantly, we report the first recorded isolation of a live SL-CoV (bat SL-CoV-WIV1) from bat fecal samples in Vero E6 cells, which has typical coronavirus morphology, 99.9% sequence identity to Rs3367 and uses the ACE2s from human, civet and Chinese horseshoe bat for cell entry. Preliminary in vitro testing indicates that WIV1 also has a broad species tropism. Our results provide the strongest evidence to date that Chinese horseshoe bats are natural reservoirs of SARS-CoV, and that intermediate hosts may not be necessary for direct human infection by some bat SL-CoVs. They also highlight the importance of pathogen discovery programs targeting high-risk wildlife groups in emerging disease hotspots as a strategy for pandemic preparedness.

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Mechanotransduction at a distance: mechanically coupling the extracellular matrix with the nucleus

Wang

Tytell

Ingber

2009

Nat Rev Mol Cell Biol

1,542

1,351

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Research in cellular mechanotransduction often focuses on how extracellular physical forces are converted into chemical signals at the cell surface. However, mechanical forces that are exerted on surface-adhesion receptors, such as integrins and cadherins, are also channelled along cytoskeletal filaments and concentrated at distant sites in the cytoplasm and nucleus. Here, we explore the molecular mechanisms by which forces might act at a distance to induce mechanochemical conversion in the nucleus and alter gene activities.

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Ning Wang

Rethinking authenticity in tourism experience

Mechanotransduction Across the Cell Surface and Through the Cytoskeleton

Isolation and characterization of a bat SARS-like coronavirus that uses the ACE2 receptor

Mechanotransduction at a distance: mechanically coupling the extracellular matrix with the nucleus

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