Gabriele Monshausen
Associate Professor of Biology
-
264 Frear North
University Park, PA - gbm10@psu.edu
- 814-867-3339
Research Summary
Plant cell signaling. Hormonal and mechanical signal transduction in plant growth regulation. Live cell imaging of subcellular microdomains of ionic signaling.
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Huck Affiliations
Publication Tags
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Growth Arabidopsis Indoleacetic Acids Gravitropism Auxins Seedlings Phosphotransferases Signal Transduction Root Growth Cyclic Nucleotide Gated Cation Channels Cells Ions Image Analysis Meristem Mutants Mechanoreceptors Mechanotransduction Phosphotransferases (Kinases) Receptors Cellular Mechanotransduction Biomechanical Phenomena Calcium Growth And Development Tissues Arabidopsis ThalianaMost Recent Publications
High-Resolution Kinematic Analysis of Root Gravitropic Bending Using RootPlot
Aditi Bhat, Cody L. DePew, Gabriele B. Monshausen, 2022, on p. 95-109
Stimulus-specific processing of the plasma membrane receptor-like kinase FERONIA in Arabidopsis thaliana
Cassidy Cornblatt, Han-Wei Shih, Gabriele Monshausen, 2021, Biorxiv
The cyclic nucleotide-gated channel CNGC14 regulates root gravitropism in arabidopsis thaliana
Han Wei Shih, Cody L. Depew, Nathan D. Miller, Gabriele B. Monshausen, 2015, Current Biology on p. 3119-3125
Imaging of dynamic ion signaling during root gravitropism
Gabriele B. Monshausen, 2015, Methods in Molecular Biology on p. 43-55
The receptor-like kinase FERONIA is required for mechanical signal transduction in Arabidopsis seedlings
Han Wei Shih, Nathan D. Miller, Cheng Dai, Edgar P. Spalding, Gabriele B. Monshausen, 2014, Current Biology on p. 1887-1892
A force of nature: Molecular mechanisms of mechanoperception in plants
Gabriele B. Monshausen, Elizabeth S. Haswell, 2013, Journal of Experimental Botany on p. 4663-4680
Auxin increases the hydrogen peroxide (H<sub>2</sub>O<sub>2</sub>) concentration in tomato (Solanum lycopersicum) root tips while inhibiting root growth
Maria G. Ivanchenko, Désirée Den Os, Gabriele B. Monshausen, Joseph G. Dubrovsky, Andrea Bednářová, Natraj Krishnan, 2013, Annals of Botany on p. 1107-1116
Visualizing Ca<sup>2+</sup> signatures in plants
Gabriele B. Monshausen, 2012, Current Opinion in Plant Biology on p. 677-682
Co-regulation of root hair tip growth by ROP GTPases and nitrogen source modulated pH fluctuations
Daria Bloch, Gabriele Monshausen, Simon Gilroy, Shaul Yalovsky, 2011, Plant Signaling and Behavior on p. 426-429
Dynamics of auxin-dependent Ca <sup>2+</sup> and pH signaling in root growth revealed by integrating high-resolution imaging with automated computer vision-based analysis
Gabriele B. Monshausen, Nathan D. Miller, Angus S. Murphy, Simon Gilroy, 2011, Plant Journal on p. 309-318
Most-Cited Papers
The receptor-like kinase FERONIA is required for mechanical signal transduction in Arabidopsis seedlings
Han Wei Shih, Nathan D. Miller, Cheng Dai, Edgar P. Spalding, Gabriele B. Monshausen, 2014, Current Biology on p. 1887-1892
A force of nature: Molecular mechanisms of mechanoperception in plants
Gabriele B. Monshausen, Elizabeth S. Haswell, 2013, Journal of Experimental Botany on p. 4663-4680
The cyclic nucleotide-gated channel CNGC14 regulates root gravitropism in arabidopsis thaliana
Han Wei Shih, Cody L. Depew, Nathan D. Miller, Gabriele B. Monshausen, 2015, Current Biology on p. 3119-3125
Auxin increases the hydrogen peroxide (H<sub>2</sub>O<sub>2</sub>) concentration in tomato (Solanum lycopersicum) root tips while inhibiting root growth
Maria G. Ivanchenko, Désirée Den Os, Gabriele B. Monshausen, Joseph G. Dubrovsky, Andrea Bednářová, Natraj Krishnan, 2013, Annals of Botany on p. 1107-1116
Imaging of dynamic ion signaling during root gravitropism
Gabriele B. Monshausen, 2015, Methods in Molecular Biology on p. 43-55
High-Resolution Kinematic Analysis of Root Gravitropic Bending Using RootPlot
Aditi Bhat, Cody L. DePew, Gabriele B. Monshausen, 2022, on p. 95-109
Stimulus-specific processing of the plasma membrane receptor-like kinase FERONIA in Arabidopsis thaliana
Cassidy Cornblatt, Han-Wei Shih, Gabriele Monshausen, 2021, Biorxiv