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Effect of intense x-ray free-electron laser transient gratings on the magnetic domain structure of Tm:YIG
Ukleev, V., Burian, M., Gliga, S., Vaz, C. A. F., Rösner, B., Fainozzi, D., … Staub, U. (2023). Effect of intense x-ray free-electron laser transient gratings on the magnetic domain structure of Tm:YIG. Journal of Applied Physics, 133(12), 123902 (6 pp.). https://doi.org/10.1063/5.0119241
A multi-reservoir extruder for time-resolved serial protein crystallography and compound screening at X-ray free-electron lasers
Wranik, M., Kepa, M. W., Beale, E. V., James, D., Bertrand, Q., Weinert, T., … Standfuss, J. (2023). A multi-reservoir extruder for time-resolved serial protein crystallography and compound screening at X-ray free-electron lasers. Nature Communications, 14(1), 7956 (12 pp.). https://doi.org/10.1038/s41467-023-43523-5
Watching the release of a photopharmacological drug from tubulin using time-resolved serial crystallography
Wranik, M., Weinert, T., Slavov, C., Masini, T., Furrer, A., Gaillard, N., … Standfuss, J. (2023). Watching the release of a photopharmacological drug from tubulin using time-resolved serial crystallography. Nature Communications, 14(1), 903 (12 pp.). https://doi.org/10.1038/s41467-023-36481-5
Single-molecule nanopore dielectrophoretic trapping of α-synuclein with lipid membranes
Wu, J., Yamashita, T., Hamilton, A. D., Thompson, S., & Luo, J. (2023). Single-molecule nanopore dielectrophoretic trapping of α-synuclein with lipid membranes. Cell Reports Physical Science, 4(2), 101243 (13 pp.). https://doi.org/10.1016/j.xcrp.2022.101243
Dyneins
Yildiz, A., & Ishikawa, T. (2023). Dyneins. In R. A. Bradshaw, G. W. Hart, & P. D. Stahl (Eds.), Encyclopedia of cell biology: Vol. 3. Organizational aspects of cell biology - part 2 (pp. 110-137). https://doi.org/10.1016/B978-0-12-821618-7.00094-8
ATP-induced conformational change of axonemal outer dynein arms revealed by cryo-electron tomography
Zimmermann, N., Noga, A., Obbineni, J. M., & Ishikawa, T. (2023). ATP-induced conformational change of axonemal outer dynein arms revealed by cryo-electron tomography. EMBO Journal, 42(12), e112466 (15 pp.). https://doi.org/10.15252/embj.2022112466
Ice nucleation imaged with X-ray spectro-microscopy
Alpert, P. A., Boucly, A., Yang, S., Yang, H., Kilchhofer, K., Luo, Z., … Watts, B. (2022). Ice nucleation imaged with X-ray spectro-microscopy. Environmental Science: Atmospheres, 2(3), 335-351. https://doi.org/10.1039/D1EA00077B
Rationally designed helical peptidomimetics disrupt α-synuclein fibrillation
Bavinton, C. E., Sternke-Hoffmann, R., Yamashita, T., Knipe, P. C., Hamilton, A. D., Luo, J., & Thompson, S. (2022). Rationally designed helical peptidomimetics disrupt α-synuclein fibrillation. Chemical Communications, 58(33), 5132-5135. https://doi.org/10.1039/d2cc00212d
Role of dy on the magnetic properties of orthorhombic DyFeO<sub>3</sub>
Biswas, B., Michel, V. F., Fjellvåg, Ø. S., Bimashofer, G., Döbeli, M., Jambor, M., … Schneider, C. W. (2022). Role of dy on the magnetic properties of orthorhombic DyFeO3. Physical Review Materials, 6(7), 074401 (9 pp.). https://doi.org/10.1103/PhysRevMaterials.6.074401
Chimeric single α-helical domains as rigid fusion protein connections for protein nanotechnology and structural biology
Collu, G., Bierig, T., Krebs, A. S., Engilberge, S., Varma, N., Guixà-González, R., … Benoit, R. M. (2022). Chimeric single α-helical domains as rigid fusion protein connections for protein nanotechnology and structural biology. Structure, 30(1), 95-106. https://doi.org/10.1016/j.str.2021.09.002
How enzymatic activity is involved in chromatin organization
Das, R., Sakaue, T., Shivashankar, G. V., Prost, J., & Hiraiwa, T. (2022). How enzymatic activity is involved in chromatin organization. eLife, 11, e79901 (18 pp.). https://doi.org/10.7554/eLife.79901
Cryptosporulation in <em>Kurthia</em> spp. forces a rethinking of asporogenesis in Firmicutes
Fatton, M., Filippidou, S., Junier, T., Cailleau, G., Berge, M., Poppleton, D., … Junier, P. (2022). Cryptosporulation in Kurthia spp. forces a rethinking of asporogenesis in Firmicutes. Environmental Microbiology, 24(12), 6320-6335. https://doi.org/10.1111/1462-2920.16145
Electron detection with CdTe and GaAs sensors using the charge integrating hybrid pixel detector JUNGFRAU
Fröjdh, E., Abrahams, J. P., Andrä, M., Barten, R., Bergamaschi, A., Brückner, M., … Zhang, J. (2022). Electron detection with CdTe and GaAs sensors using the charge integrating hybrid pixel detector JUNGFRAU. Journal of Instrumentation, 17, C01020 (12 pp.). https://doi.org/10.1088/1748-0221/17/01/C01020
Michaelis-Menten quantification of ligand signaling bias applied to the promiscuous vasopressin V2 receptor
Heydenreich, F. M., Plouffe, B., Rizk, A., Milić, D., Zhou, J., Breton, B., … Veprintsev, D. B. (2022). Michaelis-Menten quantification of ligand signaling bias applied to the promiscuous vasopressin V2 receptor. Molecular Pharmacology, 102(3), 139-149. https://doi.org/10.1124/molpharm.122.000497
Environmental control for X-ray nanotomography
Holler, M., Aidukas, T., Heller, L., Appel, C., Phillips, N. W., Müller-Gubler, E., … Ihli, J. (2022). Environmental control for X-ray nanotomography. Journal of Synchrotron Radiation, 29, 1223-1231. https://doi.org/10.1107/S1600577522006968
Structure of motile cilia
Ishikawa, T. (2022). Structure of motile cilia. In R. J. Harris & J. Marles-Wright (Eds.), Subcellular biochemistry: Vol. 99. Macromolecular protein complexes IV. Structure and function (pp. 471-494). https://doi.org/10.1007/978-3-031-00793-4_15
Rotation characteristics of acoustically actuated thin-film rotors in air and water
Jia, S., Sato, Y., Lim, R. Y. H., & Tsujino, S. (2022). Rotation characteristics of acoustically actuated thin-film rotors in air and water. In IEEE international ultrasonics symposium. IUS 2022. Symposium proceedings (p. (2 pp.). https://doi.org/10.1109/IUS54386.2022.9958207
Size and shape dependent rotation characteristics of thin film ultrasonic rotors
Jia, S., Sato, Y., & Tsujino, S. (2022). Size and shape dependent rotation characteristics of thin film ultrasonic rotors. Applied Physics Letters, 121(25), 254102 (6 pp.). https://doi.org/10.1063/5.0126000
Acoustic levitation and rotation of thin films and their application for room temperature protein crystallography
Kepa, M. W., Tomizaki, T., Sato, Y., Ozerov, D., Sekiguchi, H., Yasuda, N., … Tsujino, S. (2022). Acoustic levitation and rotation of thin films and their application for room temperature protein crystallography. Scientific Reports, 12, 5349 (14 pp.). https://doi.org/10.1038/s41598-022-09167-z
Thermoplastic microfluidics
Kristiansen, P. M., Karpik, A., Werder, J., Guilherme, M., & Grob, M. (2022). Thermoplastic microfluidics. In M. Rasponi (Ed.), Methods in molecular biology: Vol. 2373. Organ-on-a-chip. Methods and protocols (pp. 39-55). https://doi.org/10.1007/978-1-0716-1693-2_3