After receiving her Ph.D. in condensed matter physics from MIT, Pollack came to Cornell to work with the Low Temperature Physics group. She was a Postdoctoral Associate (1989-1991) and a Research Associate (1991-1997) in the Microkelvin Laboratory. In 1997, with support from the NSF and the LASSP Biophysics Group, she changed the focus of her research program to Biophysics. In 1999 she became Senior Research Associate in LASSP. She joined the faculty in Applied and Engineering Physics in 2000. Her research focuses on developing and applying physics-based tools to gain insight into outstanding problems in molecular biology. She received the Swanson Excellence in Teaching Award in 2003, and the Chau Excellence in Teaching Award in 2012.
Pollack's research program has two distinct themes. The first theme is instrumentation: the development of experimental tools that enable novel, time-resolved studies of proteins, DNA or RNA. By coupling microfluidics with light (either x-rays or lasers), our group has developed and applied tools that report dynamic shape changes as these large molecules assume ('fold' to) their biologically active states.
The second theme is a tight research focus on electrostatic interactions in RNA and DNA. The large negative charge carried by these nucleic acids significantly impacts their structure and function. This topic is timely, as recognition of RNA's central role in the cell continues to increase at an astonishing rate.
- 2016. "Asymmetric unwrapping of nucleosomal DNA propagates asymmetric opening and dissociation of the histone core." Proceedings of the National Academy of Sciences 114 (2): 334-339. .
- 2016. "Visualizing single-stranded nucleic acids in solution." Nucleic Acids Research 1-13. .
- 2016. "Mixing injector enables time-resolved crystallography with high hit rate at X-ray free electron lasers." Structural Dynamics 3. .
- 2016. "Protein-DNA and ion-DNA interactions revealed through contrast variation SAXS." Biophysical Reviews 8 (2): 139-149. .
- 2016. "Understanding Nucleic Acid Structural Changes by Comparing Wide-Angle X-ray Scattering (WAXS) Experiments to Molecular Dynamics Simulations." Journal of Chemical Physics 144. .
Selected Awards and Honors
- Chau Excellence in Undergraduate Research Supervision (Cornell University) 2012
- Dorothy and Fred Chau Excellence in Teaching Award 2011
- NIH EUREKA-R01 2009
- National Science Foundation Career Award 2004
- Mentor of Merrill Presidential Scholar (Cornell University) 2003
- School of Applied and Engineering Physics
- Pollack Research Group
- Cornell Center for Materials Research
- Cornell High Energy Synchrotron Source
- BA (Physics), Brandeis University, 1983
- Ph D (Physics), MIT, 1989