Michael Krieg
Affiliations: | Molecular and Cellular Physiology | Stanford University, Palo Alto, CA |
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Publications
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Sanfeliu-Cerdán N, Lin LC, Dunn AR, et al. (2023) Visualizing Neurons Under Tension In Vivo with Optogenetic Molecular Force Sensors. Methods in Molecular Biology (Clifton, N.J.). 2600: 239-266 |
Català-Castro F, Venturini V, Ortiz-Vásquez S, et al. (2021) Direct Force Measurements of Subcellular Mechanics in Confinement using Optical Tweezers. Journal of Visualized Experiments : Jove |
He L, Gulyanon S, Mihovilovic Skanata M, et al. (2019) Direction Selectivity in Drosophila Proprioceptors Requires the Mechanosensory Channel Tmc. Current Biology : Cb |
Das R, Wieser S, Krieg M. (2019) Neuronal stretch reception - making sense of the mechanosense. Experimental Cell Research |
Fehlauer H, Nekimken AL, Kim AA, et al. (2018) Using a Microfluidics Device for Mechanical Stimulation and High Resolution Imaging of C. elegans. Journal of Visualized Experiments : Jove |
Nekimken AL, Fehlauer H, Kim AA, et al. (2017) Pneumatic stimulation of C. elegans mechanoreceptor neurons in a microfluidic trap. Lab On a Chip |
Krieg M, Stühmer J, Cueva JG, et al. (2017) Genetic defects in β-spectrin and tau sensitize C. elegans axons to movement-induced damage via torque-tension coupling. Elife. 6 |
Lockhead D, Schwarz EM, O'Hagan R, et al. (2016) The tubulin repertoire of C. elegans sensory neurons and its context-dependent role in process outgrowth. Molecular Biology of the Cell |
Katta S, Krieg M, Goodman MB. (2015) Feeling Force: Physical and Physiological Principles Enabling Sensory Mechanotransduction. Annual Review of Cell and Developmental Biology. 31: 347-371 |
Kelley M, Yochem J, Krieg M, et al. (2015) FBN-1, a fibrillin-related protein, is required for resistance of the epidermis to mechanical deformation during C. elegans embryogenesis. Elife. 4 |