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Showing 1–6 of 6 results
Advanced filters: Author: Marcel Drabbels Clear advanced filters

  • Laser flash melting experiments have rendered cryo-EM fast enough to observe the microsecond motions of proteins. The authors extend the observation window of this emerging technique tenfold, to hundreds of microseconds, by sealing cryo-EM samples in ultrathin liquid cells.

    • Wyatt A. Curtis
    • Jakub Wenz
    • Ulrich J. Lorenz
    ResearchOpen Access
    Nature Communications
    P: 1-8

  • Here, the authors show that microsecond time-resolved cryo-EM can be used to observe real-life protein dynamics, which they demonstrate by capturing the pH-induced contraction of the CCMV capsid.

    • Oliver F. Harder
    • Sarah V. Barrass
    • Ulrich J. Lorenz
    ResearchOpen Access
    Nature Communications
    Volume: 14, P: 1-6

  • Supercooled water in so-called “no man’s land” promises to reveal the origin of the water anomalies. Here, the authors use electron diffraction to provide the first characterization that spans this temperature range, which narrows down the array of possible explanations.

    • Constantin R. Krüger
    • Nathan J. Mowry
    • Ulrich J. Lorenz
    ResearchOpen Access
    Nature Communications
    Volume: 14, P: 1-4

  • Individual proteins tend to adopt preferred orientations when subjected to vitrification for cryo-electron microscopy analysis. A laser flash melting procedure followed by rapid revitrification provides a simple approach to mitigate this issue, reducing the number of micrographs required for successful structure determination at high-resolution.

    • Monique S. Straub
    • Oliver F. Harder
    • Ulrich J. Lorenz
    ResearchOpen Access
    Nature Methods
    Volume: 22, P: 1880-1886

  • Light pulses with controllable parameters are desired for studying the fundamental properties of matter. Here the authors generate and use phase-manipulated and highly time-stable XUV pulse pairs to probe the coherent evolution and dephasing of XUV electronic coherences in helium and argon.

    • Andreas Wituschek
    • Lukas Bruder
    • Frank Stienkemeier
    ResearchOpen Access
    Nature Communications
    Volume: 11, P: 1-7