C
Catherine G. Galbraith
Researcher at Oregon Health & Science University
Publications - 30
Citations - 7299
Catherine G. Galbraith is an academic researcher from Oregon Health & Science University. The author has contributed to research in topics: Integrin & Extracellular matrix. The author has an hindex of 16, co-authored 28 publications receiving 6894 citations. Previous affiliations of Catherine G. Galbraith include University of California, San Diego & Duke University.
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Journal ArticleDOI
Rapid three-dimensional isotropic imaging of living cells using Bessel beam plane illumination
Thomas A. Planchon,Liang Gao,Daniel E. Milkie,Michael W. Davidson,James A. Galbraith,Catherine G. Galbraith,Eric Betzig +6 more
TL;DR: Scanned Bessel beams are used in conjunction with structured illumination and/or two-photon excitation to create thinner light sheets better suited to three-dimensional (3D) subcellular imaging.
Journal ArticleDOI
The relationship between force and focal complex development.
TL;DR: It is shown that initial integrin–ECM adhesions become capable of exerting migration force with the recruitment of vinculin, a marker for focal complexes, which are precursors of focal adhesion.
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Interferometric fluorescent super-resolution microscopy resolves 3D cellular ultrastructure
Gleb Shtengel,James A. Galbraith,Catherine G. Galbraith,Jennifer Lippincott-Schwartz,Jennifer M. Gillette,Suliana Manley,Rachid Sougrat,Clare M. Waterman,Pakorn Kanchanawong,Michael W. Davidson,Richard D. Fetter,Harald F. Hess +11 more
TL;DR: iPALM closes the gap between electron tomography and light microscopy, enabling both molecular specification and resolution of cellular nanoarchitecture.
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Live-cell photoactivated localization microscopy of nanoscale adhesion dynamics.
TL;DR: By allowing observation of a wide variety of nanoscale dynamics, live-cell PALM provides insights into molecular assembly during the initiation, maturation and dissolution of cellular processes.
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Multiple forces contribute to cell sheet morphogenesis for dorsal closure in Drosophila.
TL;DR: The Drosophila embryo is established as an excellent system for the investigation of wound healing because it rapidly and reproducibly heals from both mechanical and ultraviolet laser wounds, even those delivered repeatedly.