Amy Rowat

Q: What Schools Are Affiliated With Amy Rowat

Amy Rowat is affiliated with the following schools: Harvard University, University of Southern Denmark, University of California, Berkeley, University of California, Los Angeles

Amy Rowat's AcademicInfluence.com Rankings

Amy Rowat

Physics

#8586

World Rank

#10832

Historical Rank

Biophysics

#422

World Rank

#434

Historical Rank

physics Degrees

Amy Rowat

Biology

#15470

World Rank

#19453

Historical Rank

biology Degrees

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Physics
Biology

Amy Rowat's Degrees

Bachelors Physics University of California, Berkeley

Why Is Amy Rowat Influential?

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According to Wikipedia, Amy Rowat is an Associate Professor of biophysics at the University of California in Los Angeles and the first Marcie H. Rothman Presidential Chair in Food Studies. Her scientific research focuses on understanding the physical and mechanical properties of cells in diseases such as cancer. She also organizes public events on the science of cooking.

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Amy Rowat's Published Works

Number of citations in a given year to any of this author's works

Total number of citations to an author for the works they published in a given year. This highlights publication of the most important work(s) by the author

Published Works

Ultrahigh-throughput screening in drop-based microfluidics for directed evolution (2010) (982)
Designer emulsions using microfluidics (2008) (645)
Biocompatible surfactants for water-in-fluorocarbon emulsions. (2008) (603)
Drop-based microfluidic devices for encapsulation of single cells. (2008) (487)
The cell as a material. (2007) (413)
Nuclear Envelope Composition Determines the Ability of Neutrophil-type Cells to Passage through Micron-scale Constrictions* (2013) (255)
Dropspots: a picoliter array in a microfluidic device. (2009) (239)
Universal behavior of membranes with sterols. (2006) (234)
Mechanical properties of the cell nucleus and the effect of emerin deficiency. (2006) (192)
Vesicle fluctuation analysis of the effects of sterols on membrane bending rigidity (2004) (171)
Migration in Confined 3D Environments Is Determined by a Combination of Adhesiveness, Nuclear Volume, Contractility, and Cell Stiffness. (2015) (149)
Tracking lineages of single cells in lines using a microfluidic device (2009) (127)
Towards an integrated understanding of the structure and mechanics of the cell nucleus (2008) (120)
A microfluidic approach to encapsulate living cells in uniform alginate hydrogel microparticles. (2012) (108)
Divalent cations crosslink vimentin intermediate filament tail domains to regulate network mechanics. (2010) (107)
Influence of ethanol on lipid membranes: from lateral pressure profiles to dynamics and partitioning. (2008) (93)
Characterization of the elastic properties of the nuclear envelope (2005) (88)
Interactions of oleic acid and model stratum corneum membranes as seen by 2H NMR. (2006) (84)
Quantitative Deformability Cytometry: Rapid, Calibrated Measurements of Cell Mechanical Properties. (2017) (80)
Stiffness of pancreatic cancer cells is associated with increased invasive potential. (2016) (77)
Cancer cells become less deformable and more invasive with activation of β-adrenergic signaling (2016) (60)
miR-509-3p is clinically significant and strongly attenuates cellular migration and multi-cellular spheroids in ovarian cancer (2016) (52)
The physical origins of transit time measurements for rapid, single cell mechanotyping. (2016) (46)
Screening cell mechanotype by parallel microfiltration (2015) (42)
Effects of farnesol on the physical properties of DMPC membranes. (2005) (37)
Emerin Deregulation Links Nuclear Shape Instability to Metastatic Potential. (2018) (33)
Experimental evidence of the electrostatic contribution to membrane bending rigidity (2004) (32)
Fabrication of reversibly adhesive fluidic devices using magnetism. (2009) (31)
Probing single cells using flow in microfluidic devices (2012) (29)
Brillouin light scattering studies of the mechanical properties of polystyrene/polyisoprene multilayered thin films (1996) (27)
Tumour-suppressor microRNAs regulate ovarian cancer cell physical properties and invasive behaviour (2016) (26)
Predicting cancer cell invasion by single-cell physical phenotyping. (2018) (25)
Electrodes on a budget: Micropatterned electrode fabrication by wet chemical deposition. (2009) (20)
A microfluidic technique to probe cell deformability. (2014) (20)
The kitchen as a physics classroom (2014) (19)
Neural regulation of cancer: from mechanobiology to inflammation (2016) (19)
Understanding diffusion theory and Fick's law through food and cooking. (2015) (14)
DYT1 Dystonia Patient-Derived Fibroblasts Have Increased Deformability and Susceptibility to Damage by Mechanical Forces (2018) (14)
Osmotic stress: Is CoQ a membrane stabilizer? (2014) (13)
Farnesol-DMPC phase behaviour: a (2)H-NMR study. (2004) (12)
Commentary : Farnesylated peptides in model membranes: a biophysical investigation (vol 33, pg 300, 2003) (2004) (12)
Physical properties of the nucleus studied by micropipette aspiration. (2009) (12)
The Science of Chocolate: Interactive Activities on Phase Transitions, Emulsification, and Nucleation (2011) (11)
Shape transitions in soft spheres regulated by elasticity. (2013) (10)
Brillouin Light Scattering Determination of the Glass Transition in Thin, Freely-Standing Poly(styrene) Films (1995) (9)
Wrinkling of milk skin is mediated by evaporation. (2017) (9)
Correction: miR-509-3p is clinically significant and strongly attenuates cellular migration and multi-cellular spheroids in ovarian cancer (2017) (8)
A large displacement, high frequency, underwater microelectromechanical systems actuator (2015) (7)
The Science of Pizza: The Molecular Origins of Cheese, Bread, and Digestion Using Interactive Activities for the General Public (2010) (7)
Farnesylated peptides in model membranes: a biophysical investigation (2003) (7)
Farnesylated peptides in model membranes: a biophysical investigation (2004) (6)
The molecules we eat: Food as a medium to communicate science (2013) (5)
A protocol for screening cells based on deformability using parallel microfiltration (2017) (5)
Understanding epigenetic regulation: Tracking protein levels across multiple generations of cells (2009) (3)
Large Area Precision Cell Traction Force Measurements Using Gold Disk Mounted Micro-Pillars (2018) (3)
Automated tracking of yeast cell lineages (2010) (2)
Abstract 226: Parallel microfiltration (PMF): A novel method to screen cell mechanotype (2015) (1)
Mechanics of the Cell Nucleus as a Function of Lamin Expression in Granulocyte Differentiation (2010) (1)
Yeast Cell Encapsulation in Microfluidic Devices (2007) (0)
food and cooking Understanding diffusion theory and Fick's law through (2016) (0)
High Throughput Screening Methodology to Probe Cell Deformability (2012) (0)
Beta-Adrenergic Agonist Reduces the Deformability of Human Breast Cancer Cells (2016) (0)
Dynamics, kinetics and partitioning of alcohols in lipid membranes (2006) (0)
Single cell visualization of DNA repair \textit{in vivo}. (2008) (0)
Probing cell mechanical properties with microfluidic devices (2012) (0)
Transitions in Cell Nucleus Morphology Determined by Expression Levels of Nuclear Envelope Proteins (2012) (0)
TU-EF-303-01: Altered Mechanical Poperties of Cells and Nuclei in Cancer (2015) (0)
High-Throughput Cell Deformability Screening to Identify Novel Anti-Cancer Compounds (2018) (0)
Time-Resolved Observation of Neutrophile Migration Through Three-Dimensional Matrices (2011) (0)
Spreading Dynamics and Oscillatory Membrane Behavior of BLymphocytes (2011) (0)
Actin Dynamics and Membrane Topography During T Lymphocyte Spreading (2011) (0)
Interactive Taste Tests Enhance Student Learning (2015) (0)
Effect of farnesol on phospholipid membranes (2007) (0)
Rapid Isolation and Biophysical Characterization of Circulating Tumor Cells with Microfluidic Vortex Technology (2015) (0)
Mechanical stability of the nuclear envelope (2005) (0)
Probing single cells using flow in microfluidic devices (2012) (0)
Elastic properties of vimentin networks (2009) (0)
Neural Signaling Regulates Cancer Cell Physical Phenotypes (2018) (0)
Identifying Therapeutics for Platinum-Resistant Ovarian Cancer by Next Generation Mechanotyping (2017) (0)
The Physics of Food and Cooking - 2nd Annual Squishy Physics Lecture (2013) (0)
The Physical Origins of Cell Transit through Microfluidic Constrictions (2016) (0)
Packing properties of unsaturated lipid bilayers (2001) (0)
Cancer Cell Mechanotyping: From Screening to Disease Biophysics (2016) (0)
Form and flexibility of charged membranes. (2004) (0)
Publisher's Note: “A large displacement, high frequency, underwater microelectromechanical systems actuator” [J. Appl. Phys. 117, 014503 (2015)] (2015) (0)

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Other Resources About Amy Rowat

What Schools Are Affiliated With Amy Rowat?

Amy Rowat is affiliated with the following schools:

Amy Rowat's Academic­Influence.com Rankings

Amy Rowat's Degrees

Why Is Amy Rowat Influential?

Amy Rowat's Published Works

Published Works

Other Resources About Amy Rowat

What Schools Are Affiliated With Amy Rowat?

Amy Rowat's AcademicInfluence.com Rankings