Janet Sheung scite author profile

Janet Sheung

3Publications

101Citation Statements Received

99Citation Statements Given

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105

Affiliations

Pitzer College, University of Illinois Urbana-Champaign, Marine Biological Laboratory

Publications

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Motor Domain Phosphorylation Modulates Kinesin-1 Transport

DeBerg

Blehm

Sheung

et al. 2013

Journal of Biological Chemistry

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Background: Kinesin-1 motor domain phosphorylation has been linked to impaired transport in axons. Results: A mechanism by which phosphorylation could affect transport is proposed. Conclusion: Phosphorylation decreases the stall force of kinesin and stabilizes autoinhibition. Significance: Kinesin phosphorylation could be used to fine tune the direction of cargo transport and contribute to pathology in neurodegenerative disease.

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Reorganization of complex ciliary flows around regeneratingStentor coeruleus

Wan

Hürlimann

Fenix

et al. 2019

Phil. Trans. R. Soc. B

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The phenomenon of ciliary coordination has garnered increasing attention in recent decades and multiple theories have been proposed to explain its occurrence in different biological systems. While hydrodynamic interactions are thought to dictate the large-scale coordinated activity of epithelial cilia for fluid transport, it is rather basal coupling that accounts for synchronous swimming gaits in model microeukaryotes such as Chlamydomonas. Unicellular ciliates present a fascinating yet understudied context in which coordination is found to persist in ciliary arrays positioned across millimetre scales on the same cell. Here, we focus on the ciliate Stentor coeruleus , chosen for its large size, complex ciliary organization, and capacity for cellular regeneration. These large protists exhibit ciliary differentiation between cortical rows of short body cilia used for swimming, and an anterior ring of longer, fused cilia called the membranellar band (MB). The oral cilia in the MB beat metachronously to produce strong feeding currents. Remarkably, upon injury, the MB can be shed and regenerated de novo. Here, we follow and track this developmental sequence in its entirety to elucidate the emergence of coordinated ciliary beating: from band formation, elongation, curling and final migration towards the cell anterior. We reveal a complex interplay between hydrodynamics and ciliary restructuring in Stentor , and highlight for the first time the importance of a ring-like topology for achieving long-range metachronism in ciliated structures. This article is part of the Theo Murphy meeting issue ‘Unity and diversity of cilia in locomotion and transport’.

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Visualizing Cytoplasmic Flow During Single-cell Wound Healing in <em>Stentor coeruleus</em>

Slabodnick

Prevo

Groß

et al. 2013

JoVE

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Although wound-healing is often addressed at the level of whole tissues, in many cases individual cells are able to heal wounds within themselves, repairing broken cell membrane before the cellular contents leak out. The giant unicellular organism Stentor coeruleus, in which cells can be more than one millimeter in size, have been a classical model organism for studying wound healing in single cells. Stentor cells can be cut in half without loss of viability, and can even be cut and grafted together. But this high tolerance to cutting raises the question of why the cytoplasm does not simply flow out from the size of the cut. Here we present a method for cutting Stentor cells while simultaneously imaging the movement of cytoplasm in the vicinity of the cut at high spatial and temporal resolution. The key to our method is to use a "double decker" microscope configuration in which the surgery is performed under a dissecting microscope focused on a chamber that is simultaneously viewed from below at high resolution using an inverted microscope with a high NA lens. This setup allows a high level of control over the surgical procedure while still permitting high resolution tracking of cytoplasm.

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Janet Sheung

Motor Domain Phosphorylation Modulates Kinesin-1 Transport

Reorganization of complex ciliary flows around regeneratingStentor coeruleus

Visualizing Cytoplasmic Flow During Single-cell Wound Healing in <em>Stentor coeruleus</em>

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