Rae Robertson-Anderson Explained

Rae Marie Robertson-Anderson is an American biophysicist who is a Professor and Associate Provost 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.

Early life and education

Robertson-Anderson grew up in Cincinnati, where she realised that she liked physics at high school.^[1] She studied physics at Georgetown University and graduated magna cum laude in 2003.^{[2] [3]} She was supported by a Clare Boothe Luce scholarship to study the diffusion of granular materials. She was made a member of Phi Beta Kappa. Robertson-Anderson moved to the University of California, San Diego for her graduate studies, completing a National Science Foundation supported PhD under the supervision of Douglas Smith on single-molecule studies of DNA.^[4] She used video fluorescence microscopy and single molecule tracking to monitor the diffusion coefficients of engineered DNA. Robertson-Anderson joined The Scripps Research Institute as a postdoctoral researcher working with David Millar. She worked on single-molecule microscopy to establish the binding kinetics in HIV-1 regulatory proteins.^[5]

Research and career

Robertson-Anderson joined the faculty of University of San Diego in 2009.^[6] She leads the Robertson-Anderson biophysics laboratory.^[7] She uses single-molecule microscopy and optical tweezers to understand macromolecule dynamics in soft matter.^[8] Using optical tweezer microrheology, Robertson-Anderson can measure intermolecular forces with piconewton precision.^[9] By using embedded microspheres and Stokes-Einstein relations it is possible to determine the viscoelastic properties of biomaterials.^[10]

Robertson-Anderson was awarded a United States Department of Defense Air Force Office of Scientific Research grant to study entangled DNA. She has developed optical tweezer technologies that can be used to track single molecules in actin protein networks.^[11] Networks of actin have a range of structural and dynamical properties, and respond to stress and strain.^[12] She uses fluorescence force-measuring optical tweezers to link molecular deformation (strain) and resistive forces (stress). She has also shown it is possible to use optical tweezers to transport microspheres through composite networks, measuring the forces that polymers use to resist the strain, and fluorescence microscopy to understand macromolecular mobility.^[13] She develops analysis algorithms, microfluidics and macromolecular synthesis techniques to determine the dynamics of nucleic acids.^[14] Her platform, Spatiotemporal Light-sheet Assisted Multiscale Macromolecular Transport Analysis Probe (SLAMMTAP), can be used to characterise DNA and cytoskeleton environments.

In 2015, Robertson-Anderson attended a Gordon and Betty Moore Foundation Scialog program, where she met Jenny Ross and became interested in cytoskeleton scaffolding proteins.^[15] Robertson-Anderson was awarded a W. M. Keck Foundation grant to develop autonomous materials based on cytoskeleton proteins that can use biologically-derived components, such as circadian clock proteins, to perform mechanical work.^[16] The circadian oscillator system is taken from cyanobacteria, and turns on and off in the presence of phosphate molecules.^[17] The proteins can function on the outside of living cells. The oscillators produce actomyosin, a protein complex which contracts muscle tissue.

Robertson-Anderson was made Chair of the Department of Physics and Biophysics at UCSD in 2015. She was the American Physical Society Woman of the Month in February 2017. She appeared on the Ada Lovelace Day podcast discussing her work on biological soft matter and biomaterials.^[18]

Robertson-Anderson is an advocate for undergraduate teaching and research. She is a member of the council for the Council on Undergraduate Research. She has developing a new advanced laboratory and improved the representation of women in the program at UCSD. She created the Beckman Scholarship Program to recruit talented undergraduate scientists. She has led National Science Foundation proposals to support students from underrepresented backgrounds into science, technology, engineering and maths subjects.^{[19] [20]} Her undergraduate student, Stephanie Gorczyca, won the American Physical Society LeRoy Apker Award for outstanding undergraduate research. Robertson-Anderson was awarded the University of San Diego Outstanding Undergraduate Mentor Award in 2015. She was named a Fellow of the American Physical Society in 2022 "for outstanding contributions to the fundamental knowledge of a wide range of biological processes including cell division, cytoskeletal organization, DNA tethering and helicases, and other active biological systems".^[21]

Notes and References

1. Web site: Anderson Biophysics Research Group - About Research. home.sandiego.edu. 2019-03-09.
2. Web site: Biography - Rae M. Robertson Anderson, PhD - College of Arts and Sciences - University of San Diego. www.sandiego.edu. 2019-03-09.
3. Web site: Georgetown physics alumna mentors Apker Award winner. physics.georgetown.edu. 31 October 2016 . en. 2019-03-09.
4. Single-molecule studies of DNA dynamics and intermolecular forces. UC San Diego. 2007. en. Rae Marie. Robertson.
5. Robertson-Anderson. Rae M.. Wang. Jun. Edgcomb. Stephen P.. Carmel. Andrew B.. Williamson. James R.. Millar. David P.. 2011. Single-Molecule Studies Reveal that DEAD Box Protein DDX1 Promotes Oligomerization of HIV-1 Rev on the Rev Response Element. Journal of Molecular Biology. 410. 5. 959–971. 10.1016/j.jmb.2011.04.026. 21763499. 0022-2836. 3140434.
6. Web site: Speakers – CUWiP @ UCSD. en-US. 2019-03-09.
7. Web site: Anderson Biophysics Research Group - Home. home.sandiego.edu. 2019-03-09.
8. Robertson-Anderson. Rae M.. Kishan. Dholakia. Gabriel C.. Gabriel Spalding. Spalding. 2018-09-17. Optical tweezers microrheology: from the basics to novel techniques and applications (Conference Presentation). Optical Trapping and Optical Micromanipulation XV. 50. SPIE. 10.1117/12.2325083. 9781510620179. 125876630 .
9. Robertson-Anderson. Rae M.. 2018-08-21. Optical Tweezers Microrheology: From the Basics to Advanced Techniques and Applications. ACS Macro Letters. en. 7. 8. 968–975. 10.1021/acsmacrolett.8b00498. 35650960 . 9163451 . 2161-1653. free.
10. Chapman. Cole D.. Lee. Kent. Henze. Dean. Smith. Douglas E.. Robertson-Anderson. Rae M.. 2014-02-11. Onset of Non-Continuum Effects in Microrheology of Entangled Polymer Solutions. Macromolecules. 47. 3. 1181–1186. 10.1021/ma401615m. 0024-9297. 2014MaMol..47.1181C.
11. Web site: 2017 Women Physicist of the Month. www.aps.org. en. 2019-03-09.
12. Web site: NSF Award Search: Award#1255446 - CAREER: Elucidating the material properties of complex tunable biopolymer networks using single-molecule nano stress-strain transducers and sensors. www.nsf.gov. 2019-03-09.
13. Web site: Department of Physics – Colloquium: Untangling the Mechanics of Entangled Biopolymer Composites. 11 February 2019 . en-US. 2019-03-09.
14. McGorty. Ryan. Robertson-Anderson. Rae. A novel in vitro microscopy suite to elucidate intracellular transport and conformational dynamics of nucleic acids. en.
15. Web site: Arts and Sciences in the News - USD-Led Research Group Receives $1 Million Grant from W.M. Keck Foundation - University of San Diego. www.sandiego.edu. 2019-03-09.
16. Web site: NSF and Keck grants for Jenny Ross Physics Department UMass Amherst. Physics Department at UMass Amherst. en. 2019-03-09.
17. Web site: Building an Artificial Motile Tissue through Self-Organized Rhythmic Contractility - Scialog: Collaborative Teams. Research Corporation for Science Advancement. en. 2019-03-09.
18. Web site: Ep 8: Dr Rae Robertson-Anderson & Dr Thorunn Helgason Ada Lovelace Day podcast. FM. Player. player.fm. en. 2019-03-09.
19. Web site: NSF Award Search: Award#0965940 - Attracting students to Computer Science, Mathematics and Physics at USD. www.nsf.gov. 2019-03-09.
20. Web site: NSF Award Search: Award#1458252 - Supporting Students for Success in Mathematics, Computer Science and Physics at the University of San Diego. nsf.gov. 2019-03-09.
21. Web site: Fellows nominated in 2022. APS Fellows archive. American Physical Society. 2022-10-19.