Rae Robertson-Anderson

Rae Robertson-Anderson's AcademicInfluence.com Rankings

Physics

#8259

World Rank

#10430

Historical Rank

Biophysics

#430

World Rank

#442

Historical Rank

physics Degrees

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Physics

Rae Robertson-Anderson's Degrees

PhD Biophysics University of California, Berkeley
Bachelors Physics Stanford University

Why Is Rae Robertson-Anderson Influential?

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According to Wikipedia, Rae Marie Robertson-Anderson is an American biophysicist who is Associate Professor at the University of San Diego. She works on soft matter physics and is particularly interested in the transport and molecular mechanics of biopolymer networks. Robertson-Anderson is a member of the Council on Undergraduate Research.

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Rae Robertson-Anderson'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

When Ends Meet: Circular DNA Stretches Differently in Elongational Flows (2015) (58)
Onset of Non-Continuum Effects in Microrheology of Entangled Polymer Solutions (2014) (53)
Complex effects of molecular topology on diffusion in entangled biopolymer blends (2012) (47)
Optical Tweezers Microrheology: From the Basics to Advanced Techniques and Applications. (2018) (47)
Effect of molecular architecture on ring polymer dynamics in semidilute linear polymer solutions (2019) (46)
Single-molecule studies reveal that DEAD box protein DDX1 promotes oligomerization of HIV-1 Rev on the Rev response element. (2011) (44)
Nonlinear microrheology reveals entanglement-driven molecular-level viscoelasticity of concentrated DNA. (2014) (42)
Co-entangled actin-microtubule composites exhibit tunable stiffening and power-law stress relaxation (2018) (40)
Entangled F-actin displays a unique crossover to microscale nonlinearity dominated by entanglement segment dynamics. (2015) (38)
Active microrheology determines scale-dependent material properties of Chaetopterus mucus (2017) (37)
Varying crosslinking motifs drive the mesoscale mechanics of actin-microtubule composites (2019) (33)
Crowding induces complex ergodic diffusion and dynamic elongation of large DNA molecules. (2015) (29)
Myosin-driven actin-microtubule networks exhibit self-organized contractile dynamics (2020) (28)
Active Entanglement-Tracking Microrheology Directly Couples Macromolecular Deformations to Nonlinear Microscale Force Response of Entangled Actin. (2015) (26)
Synergistic Interactions Between DNA and Actin Trigger Emergent Viscoelastic Behavior. (2018) (23)
Nonlinear Actin Deformations Lead to Network Stiffening, Yielding, and Nonuniform Stress Propagation. (2017) (22)
DNA as a Model for Probing Polymer Entanglements: Circular Polymers and Non-Classical Dynamics (2016) (22)
Light-sheet microscopy with digital Fourier analysis measures transport properties over large field-of-view. (2016) (21)
Universal scaling of crowding-induced DNA mobility is coupled with topology-dependent molecular compaction and elongation. (2015) (20)
Bridging the spatiotemporal scales of macromolecular transport in crowded biomimetic systems. (2019) (20)
Unexpected entanglement dynamics in semidilute blends of supercoiled and ring DNA. (2019) (19)
Long-Lived Self-Entanglements in Ring Polymers. (2019) (17)
Direct Observation of Ring Polymer Dynamics in the Flow-Gradient Plane of Shear Flow (2020) (17)
Filament Rigidity Vies with Mesh Size in Determining Anomalous Diffusion in Cytoskeleton. (2019) (16)
Counterion crossbridges enable robust multiscale elasticity in actin networks (2019) (16)
Topology-dependent anomalous dynamics of ring and linear DNA are sensitive to cytoskeleton crosslinking (2019) (16)
Dynamics and rheology of ring-linear blend semidilute solutions in extensional flow: Single molecule experiments (2021) (15)
Viscoelastic properties of ring-linear DNA blends exhibit nonmonotonic dependence on blend composition (2020) (14)
Non-monotonic dependence of stiffness on actin crosslinking in cytoskeleton composites. (2019) (14)
Topological tuning of DNA mobility in entangled solutions of supercoiled plasmids (2020) (13)
Optical Tweezers Microrheology Maps the Dynamics of Strain-Induced Local Inhomogeneities in Entangled Polymers. (2019) (13)
Crowding Induces Entropically-Driven Changes to DNA Dynamics That Depend on Crowder Structure and Ionic Conditions (2018) (11)
Triggered disassembly and reassembly of actin networks induces rigidity phase transitions. (2019) (11)
Anomalous and heterogeneous DNA transport in biomimetic cytoskeleton networks. (2020) (9)
Active Cytoskeletal Composites Display Emergent Tunable Contractility and Restructuring (2021) (9)
Actin and microtubule crosslinkers tune mobility and control co-localization in a composite cytoskeletal network. (2020) (9)
Towards bioinspired wet adhesives: Lessons from assessing surface structures of the suction disc of intertidal clingfish. (2020) (8)
Subtle changes in crosslinking drive diverse anomalous transport characteristics in actin-microtubule networks (2020) (6)
DNA Conformation Dictates Strength and Flocculation in DNA-Microtubule Composites. (2021) (6)
Triggering Cation-Induced Contraction of Cytoskeleton Networks via Microfluidics (2020) (6)
Microscale Mechanics of Plug-and-Play In Vitro Cytoskeleton Networks (2019) (5)
Motor-Driven Restructuring of Cytoskeleton Composites Leads to Tunable Time-Varying Elasticity (2021) (5)
Maximally stiffening composites require maximally coupled rather than maximally entangled polymer species. (2019) (3)
Optical-Tweezers-integrating-Differential-Dynamic-Microscopy maps the spatiotemporal propagation of nonlinear strains in polymer blends and composites (2022) (3)
Fundamentals of Polymer Physics and Molecular Biophysics (2016) (3)
Active restructuring of cytoskeleton composites leads to increased mechanical stiffness, memory, and heterogeneity (2021) (3)
Analysis of RNA folding and ribonucleoprotein assembly by single-molecule fluorescence spectroscopy. (2012) (3)
Correction: Active microrheology determines scale-dependent material properties of Chaetopterus mucus (2018) (3)
Bridging the spatiotemporal scales of macromolecular transport in crowded biomimetic systems (2018) (2)
Topological digestion drives time-varying rheology of entangled DNA fluids (2021) (2)
DNA topology dictates emergent bulk elasticity and hindered macromolecular diffusion in DNA-dextran composites (2022) (2)
Motor-Driven Restructuring of Cytoskeleton Composites Leads to Tunable Time-Varying Elasticity. (2021) (1)
Comparison of the coil-stretch transition of linear and circular DNA in planar extensional flow (2014) (1)
Diffusion and conformational dynamics of single DNA molecules crowded by cytoskeletal proteins (2018) (1)
Kinesin and Myosin Motors Compete to Drive Rich Multi-Phase Dynamics in Programmable Cytoskeletal Composites (2021) (1)
Nonlinear microscale mechanics and macromolecular mobility of tunable cytoskeleton composites (2019) (1)
Reconstituting and Characterizing Actin-Microtubule Composites with Tunable Motor-Driven Dynamics and Mechanics. (2022) (1)
Quantifying Cytoskeleton Dynamics Using Differential Dynamic Microscopy. (2022) (1)
Salt-Mediated Stiffening, Destruction, and Resculpting of Actomyosin Network (2021) (1)
Ring DNA confers enhanced bulk elasticity and restricted macromolecular diffusion in DNA-dextran blends (2021) (1)
Crowding and confinement act in concert to slow DNA diffusion within cell-sized droplets (2022) (1)
Sustained order-disorder transitions in a model colloidal system driven by rhythmic crosslinking. (2021) (1)
Active Disassembly and Reassembly of Actin Networks Induces Distinct Biphasic Mechanics (2017) (1)
Single-molecule studies of DNA self-diffusion in entangled linear and circular DNA blends (2011) (1)
Motor-driven advection competes with crowding to drive spatiotemporally heterogeneous transport in cytoskeleton composites (2022) (1)
Computational study of autonomous mechanical oscillations in a colloidal network crosslinked via clock proteins (2020) (0)
Single-Molecule Studies of DNA Self-Diffusion in Entangled Blends of Linear and Circular DNA (2012) (0)
Optical tweezers microrheology reveals the viscoelastic properties of entangled ring-linear DNA blends (2019) (0)
Tuning Dynamics of Myosin-Driven Actin-Microtubule Networks (2021) (0)
DNA topology dictates strength and flocculation in DNA-microtubule composites (2021) (0)
Microscale force response and morphology of tunable co-polymerized cytoskeleton networks (2017) (0)
Active microrheology of entangled blends of DNA and Actin link polymer flexibility to induced molecular deformations and stress propagation (2016) (0)
Mobility and Conformational Dynamics of large DNA diffusing through Cytoskeletal Networks (2017) (0)
Single molecule visualization of single ring polymers in the flow-gradient plane of shear flow (2020) (0)
Particle-tracking reveals heterogeneous subdiffusion in in vitro cytoskeleton composites (2019) (0)
Spatially controlled microtubule nucleation and organization from crosslinker MAP65 condensates (2022) (0)
Timed material self-assembly controlled by circadian clock proteins (2023) (0)
Investigation of Molecular Level Stress-Strain Relationships in Systems of Entangled F-Actin by Combined Force-Measuring Optical Tweezers and Fluorescence Microscopy (2012) (0)
Topological glass in self-entangled ring polymers (2019) (0)
Active microrheology of entangled biopolymer composites link polymer flexibility and length to molecular force response (2017) (0)
Effects of Crowding on DNA Self-Diffusion Using Single Molecule Methods (2014) (0)
Impact of cell-sized confinement on particle transport within a motor-driven cytoskeletal network. (2023) (0)
Actin crosslinker density tunes mesoscale mechanics in actin-microtubule composites (2019) (0)
Dynamic concatenation leads to anomalous transport of ring DNA in concentrated solutions. (2023) (0)
Dual-Function Epi-fluorescence Optical Tweezers to Characterize Single Polymer Interactions in Complex Polymeric Fluids (2011) (0)
Non-Ergodic Transport and Conformational Dynamics of DNA in Biomimetic Cytoskeleton Networks (2020) (0)
Selective-plane illumination microscopy to characterize diffusion of DNA in cytoskeletal networks (2018) (0)
Oligomeric Assembly of HIV-1 Rev on the Rev Response Element: Role of Cellular Cofactors (2012) (0)
Depletion Zone Effects in Active Microrheology Studies of DNA Solutions (2014) (0)
Mechanics and stress propagation in non-equilibrium cytoskeleton composites. (2023) (0)
Microscale Mechanics of Actin Networks During Dynamic Assembly and Dissociation (2017) (0)
Uncovering the effect of DNA topology on the mobility and conformational dynamics of crowded DNA molecules (2015) (0)
Nonlinear microrheology and molecular imaging to map microscale deformations of entangled DNA networks (2016) (0)
Colloidal diffusion and viscoelasticity in blended solutions of supercoiled, ring and linear DNA (2019) (0)
The spatial response of nonlinear strain propagation in response to actively driven microspheres through entangled actin networks (2015) (0)
Optical tweezers microrheology: from the basics to novel techniques and applications (Conference Presentation) (2018) (0)
Measure particle diffusion in cytoskeletal networks with light-sheet and differential dynamic microscopy (2019) (0)
Single-Molecule Studies of DNA Dynamics and Intermolecular Forces (2010) (0)
Simulation of cytoskeleton protein filament network behavior facilitated by motor proteins and crosslinking agents. (2023) (0)
Kinesin-driven active cytoskeletal composite restructuring. (2023) (0)
Nonlinear Microscale Mechanics of Actin Networks Governed by Coupling of Filament Crosslinking and Stabilization (2022) (0)
Tuning the depolymerization and restructuring of actin networks via thymosin and cofilin. (2023) (0)
Active dynamics and tunable mechanics of actin-microtubule composites (2022) (0)
Diffusion and Conformational Dynamics of Linear and Circular DNA in Crosslinked Cytoskeleton Composites (2019) (0)
Characterization of actin filament deformation in response to actively driven microspheres propagated through entangled actin networks (2014) (0)
How crosslinking actin filaments influences the microscale viscoelastic properties of actin-microtubule composites (2019) (0)
Correction: Anomalous and heterogeneous DNA transport in biomimetic cytoskeleton networks. (2020) (0)
Investigating Molecular Level Stress-Strain Relationships in Entangled F-Actin Networks by Combined Force-Measuring Optical Tweezers and Fluorescence Microscopy (2013) (0)
Active Microrheology Using Optical Tweezers to Characterize Viscoelastic Properties of Entangled DNA COLE D. CHAPMAN, UCSD, (2013) (0)
\textbf{Active microrheology reveals molecular-level variations in the viscoelastic properties of }\textbf{\textit{Chaetopterus }}\textbf{mucus} (2016) (0)
Circadian clock proteins drive structural oscillations in colloidal fluids. (2023) (0)
Soft Matter (2014) (0)
Actin Controls the Dynamics and Microtubule Crosslinkers Tune Co-localization in Crosslinked Composite Actin-microtubule Networks (2020) (0)
Viscoelastic Properties of Entangled DNA Solutions: Dependence on Molecular Length and Concentration (2014) (0)
Interdisciplinary biophysics major with a comprehensive research-based capstone (2016) (0)
Actin crosslinking controls mobility, microtubule crosslinkers control co-localization in a composite cytoskeletal network (2020) (0)
Anomalous Transport Across Scales in Crosslinked Actin-Microtubule Composites (2020) (0)
Modeling composite cytoskeletal networks using effective medium theory (2019) (0)
Coupling structure to dynamics in crosslinked actin- microtubule composites (2019) (0)
The Effect of Varying Crosslinking Motifs on the Microscale Mechanics of Co-entangled Actin and Microtubules (2018) (0)
Microrheology of Active Actin-microtubule Networks (2020) (0)
Effect of molecular architecture on ring polymer dynamics in semidilute linear polymer solutions (2019) (0)
Fluorescence microscopy techniques for characterizing the microscale mechanical response of entangled actin networks (2015) (0)
Comparison of the Single Molecule Dynamics of Linear and Circular DNAs in Planar Extensional Flows (2015) (0)
Universal and Programmable Thinning and Thickening of Topologically-Active DNA Fluids (2021) (0)
Active microrheology of Chaetopterus mucus determines three intrinsic lengthscales that govern material properties (2016) (0)
Polymer threadings and rigidity dictate the viscoelasticity of entangled ring-linear blends and their composites with rigid rod microtubules (2022) (0)
Effects of Crowder Structure and Salt on DNA Mobility and Conformation in Crowded Environments (2016) (0)
Active microrheology reveals molecular-level variations in the viscoelastic properties of Chaetopterus mucus (2016) (0)
Modelling a colloidal network that can dynamically stiffen via bacterial circadian proteins, KaiABC (2021) (0)
Actin and microtubule crosslinkers roles in mobility and co-localization of filaments in a composite cytoskeletal network (2021) (0)
Time-Dependent Microscale Mechanics of Actomyosin Networks During Triggered Activity (2018) (0)
Microscale Mechanics of triggered bundling and unbundling of actin networks (2019) (0)
Nonlinear molecular deformations give rise to stress stiffening, yielding and non-uniform stress propagation in actin networks (2016) (0)
The Effect of Crosslinking on the Microscale Stress Response and Molecular Deformations in Actin Networks (2016) (0)
Triggering Salt-Induced Contraction of Cytoskeletal Networks with Microfluidics (2020) (0)
Dynamic concatenation of ring DNA leads to non-equilibrium viscoelasticity tuned by DNA size and concentration. (2023) (0)

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Rae Robertson-Anderson's Academic­Influence.com Rankings