Magdalena Bezanilla, Ph.D.
Affiliations: | 2000 | Johns Hopkins University, Baltimore, MD | |
2005-2017 | University of Massachusetts, Amherst, Amherst, MA | ||
2017- | Dartmouth University, Hanover, NH, United States |
Area:
Cell Biology, Biochemistry, ActinWebsite:
https://biology.dartmouth.edu/people/magdalena-bezanillaGoogle:
"Magdalena Bezanilla"Bio:
https://www.ibiology.org/speakers/magdalena-bezanilla/
https://news.dartmouth.edu/news/2017/08/magdalena-bezanilla-dartmouths-new-ee-just-professor
http://www.bio.umass.edu/brachypodium/bezanilla
https://www.emedevents.com/speaker-profile/magdalena-bezanilla
Parents
Sign in to add mentorThomas Dean Pollard | grad student | 2000 | Johns Hopkins | |
(Fission yeast myosin -II isoforms function in cytokinesis: Tails specify function and ring formation.) | ||||
Ralph S. Quatrano | post-doc | 1994-1997 | Washington University (Cell Biology Tree) |
Children
Sign in to add traineeCarlisle S. Bascom | grad student | U Mass Amherst | |
Luis Vidali | post-doc | (Neurotree) |
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Publications
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Weijers D, Bezanilla M, Jiang L, et al. (2021) Back to the roots: A focus on plant cell biology. The Plant Cell |
Kang BH, Anderson CT, Arimura SI, et al. (2021) A glossary of plant cell structures: Current insights and future questions. The Plant Cell |
Chang M, Wu SZ, Ryken SE, et al. (2021) COPII Sec23 proteins form isoform-specific endoplasmic reticulum exit sites with differential effects on polarized growth. The Plant Cell |
Radin I, Richardson RA, Coomey JH, et al. (2021) Plant PIEZO homologs modulate vacuole morphology during tip growth. Science (New York, N.Y.). 373: 586-590 |
Cheng X, Bezanilla M. (2021) SABRE populates ER domains essential for cell plate maturation and cell expansion influencing cell and tissue patterning. Elife. 10 |
Cheng X, Mwaura BW, Chang Stauffer SR, et al. (2020) A Fully Functional ROP Fluorescent Fusion Protein Reveals Roles for this GTPase in Subcellular and Tissue-level Patterning. The Plant Cell |
Rensing SA, Goffinet B, Meyberg R, et al. (2020) The Moss () : A Model Organism for Non-Seed Plants. The Plant Cell |
van Gisbergen P, Wu SZ, Cheng X, et al. (2020) analysis of formin dynamics reveals functional class diversification. Journal of Cell Science |
Tang H, Duijts K, Bezanilla M, et al. (2019) Geometric cues forecast the switch from 2D-to-3D growth in Physcomitrella patens. The New Phytologist |
Orr RG, Cheng X, Vidali L, et al. (2019) Orchestrating cell morphology from the inside out - using polarized cell expansion in plants as a model. Current Opinion in Cell Biology. 62: 46-53 |