Wang, Michelle D

research

research and scholarship focus

Professor Michelle Wang's research interests compromises:

single molecule mechanical manipulations of biological molecules
high-resolution optical trapping and detection
single molecule fluorescence imaging and detection
nanofabrication
molecular motor mechanisms
biopolymer kinetics and dynamics
protein-DNA interactions (especially those involved in gene expression)
genomics
modeling of diffusion, kinetics, and dynamics of biomolecules

primary investigator of

MECHAN-CHEMICAL KINECTICS AND MECHANISMS OF TRANSCRIPTION | Research Grant
SINGLE MOLECULE STUDIES OF NUCLEOSOME AND TRANSCRIPTION | Research Grant
TORSIONAL REGULATION OF TRANSCRIPTION | Research Grant

research areas

biological physics | research concentration area (Physics)
experimental condensed-matter physics | research concentration area (Physics)

affiliations

faculty appointment in

Physics (PHYS) | Cornell department

member of graduate field

Biophysics | graduate field
Physics | graduate field

other Cornell affiliations

Laboratory of Atomic and Solid State Physics (LASSP) | research center
Nanobiotechnology Center (NBTC) | research center
Weill Institute for Cell and Molecular Biology Advisory Committee | committee

teaching

teaches

AEP 2170 - Physics II: Electricity and Magnetism (MWF 10:10:AM-11:00:AM) | fall 2009 class
PHYS 2217 - Physics II: Electricity and Magnetism (MWF 10:10:AM-11:00:AM) | fall 2009 class
AEP 2170 - Physics II: Electricity and Magnetism (MWF 10:10:AM-11:00:AM) | fall 2008 class
PHYS 2217 - Physics II: Electricity and Magnetism (MWF 10:10:AM-11:00:AM) | fall 2008 class

service

current professional activities

Member, American Physical Society
Member, American Biophysical Society

event host

Single-molecule and super-resolution imaging of biomolecules and cells | Thursday, September 6, 2007 4:30 PM

background

educational background

B.S., Physics, Nanjing University. 1985
M.S, Physics, University of Southern Mississippi, 1998
Ph.D. student, Institute of Physics, Chinese Academy of Sciences, 1985-86, Ph.D., Biophysics, University of Michigan at Ann Arbor, 1993
Postdoctoral Fellow, Biophysics, Princeton University, 1994-97

professional background

Associate Professor, Physics, Cornell University, 2004-Present
Assistant Professor, Physics, Cornell University, 1998-2004

awards and distinctions

Outstanding Student Award, Nanjing University, 1985
University of Michigan Biophysics Fellowship, 1988-89
National Cancer Institute Fellowship, 1994
Damon Runyon-Walter Winchell Foundation Postdoctoral Fellowship, 1995-97
Damon Runyon Scholar Award, 1999-00. Dale F.
Betty Ann Frey Scholar of the Damon Runyon-Walter Winchell Foundation, 1999
Alfred P. Sloan Research Fellow, 1999-01
Beckman Young Investigator Award, 1999-02.
Keck Foundation Distinguished Young Scholar in Medical Research Award, 2000-07.

featured in

Cornell researchers determine how an enzyme plays a key role in gene copying | Cornell Chronicle feature
Five Cornell faculty members receive Provost's Awards for Distinguished Scholarship | Cornell Chronicle feature
Michelle Wang is first researcher on Ithaca campus to be named Hughes Institute Investigator | Cornell Chronicle feature
Researchers 'unzip' molecules to measure interactions keeping DNA packed in cells | Cornell Chronicle feature

publications

selected publications (listing in progress)

2008 Abrupt Buckling Transition Observed during the Plectoneme Formation of Individual DNA Molecules.
S. Forth, C. Deufel, M.Y. Sheinin, B. Daniels, J.P. Sethna, and M.D. Wang.
Physical Review Letters 100:148301 (2008) (Full Text PDF).

Kinetic modeling of transcription elongation.
L. Bai, A. Shundrovsky, and M.D. Wang.
In "RNA polymerases as molecular motors" by the Royal Society of Chemistry in press (2008).

Single molecule studies of RNA polymerase transcription.
A. Shundrovsky, L. Bai, T.J. Santangelo, and M.D. Wang.
In "Escherichia coli and Salmonella typhimurium EcoSal: Cellular and Molecular Biology", eds. I. Artsitmovitch (2008).

2007 Single molecule studies reveal dynamics of DNA unwinding by the ring-shaped T7 helicase.
D.S. Johnson, L. Bai, B.Y. Smith, S.S. Patel, and M.D. Wang.
Cell 129:1299-1309 (2007) (Full Text PDF).

Nanofabricated quartz cylinders for angular optical trapping: torque detection during DNA supercoiling.
C. Deufel, S. Forth, C.R. Simmons, S. Dejgosha, and M.D. Wang.
Nature Methods 4:223-5 (2007) (Full Text PDF).

Mechano-chemical kinetics of transcription elongation.
L. Bai, R.M. Fulbright, & M.D. Wang.
Physical Review Letters 98:068103 (2007) (Full Text PDF).

2006 Probing SWI/SNF remodeling of the nucleosome by unzipping single DNA molecules.
A. Shundrovsky, C. L. Smith, J.T. Lis, C.L. Peterson, and M.D. Wang.
Nature Structural and Molecular Biology 13:549-54 (2006) (Full Text PDF).

Single-molecule analysis of RNA polymerase transcription.
L. Bai, T.J. Santangelo, and M.D. Wang.
Annual Review of Biophysics and Biomolecular Structure 35:343�60 (2006) (Full Text PDF).

Detection of forces and displacements along the axial direction in an optical trap.
C. Deufel and M.D. Wang.
Biophysical Journal 90:657-67 (2006) (Full Text PDF).

2005 Detection of high affinity mismatch binding and sliding clamp modes for the MSH2-MSH6 mismatch recognition complex by single-molecule unzipping force analysis.
J. Jiang, L. Bai, J. Surtees, Z. Gemici, M.D. Wang, and E. Alani.
Molecular Cell 20:771-81 (2005) (Full Text PDF).

Functional hydrogel surfaces: binding kinesin-based molecular motor proteins to selected patterned sites.
T. Yu, Q. Wang, D.S. Johnson, M.D. Wang, and C.K. Ober.
Advanced Functional Materials 15: 1303-1309 (2005) (Full Text PDF).

Specific contributions of histone tails and their acetylation to the mechanical stability of nucleosomes.
B. Brower-Toland, D.A. Wacker, R.M. Fulbright, J.T. Lis, W.L. Kraus, and M.D. Wang.
Journal of Molecular Biology 346:135-146 (2005) (Full Text PDF).

2004 A single molecule technique to study sequence-dependent transcription pausing.
A. Shundrovsky, T.J. Santangelo, J.W. Roberts, and M.D. Wang.
Biophysical Journal 87:3945-53 (2004) (Full Text PDF).

Sequence-dependent kinetic model for RNA polymerase elongation.
L. Bai, A. Shundrovsky, and M.D. Wang.
Journal of Molecular Biology 344:335-349 (2004) (Full Text PDF).

The molecular mechanism of transcription inhibition by Microcin J25.
K. Adelman, J. Yuzenkova, A. La Porta, J.T. Lis, S. Brukhov, M.D. Wang, and K.V. Severinov.
Molecular Cell 14:753-762 (2004) (Full Text PDF).

Optical torque wrench: angular trapping, rotation and torque detection using quartz microparticles.
A. La Porta and M.D. Wang.
Physical Review Letters 92:190801 (2004) (Full Text PDF).

Twisty Tweezers - Physical Review Focus Article on the Angular Optical Trap

Use of optical trapping techniques to study single nucleosome dynamics.
B. Brower-Toland, and M.D. Wang.
Methods in Enzymology: Chromatin and Chromatin Remodeling Enzymes 376:62-72 (2004). (Full Text PDF).

2003 Dynamic force spectroscopy of protein-DNA interactions by unzipping DNA double helix.
S.J. Koch, and M.D. Wang.
Physical Review Letters 91:028103 (2003) (Full Text PDF).

Biophysicists 'unzip' DNA technique that could aid drug development

linked articles

A single-molecule technique to study sequence-dependent transcription pausing | journal article
Probing SWI/SNF remodeling of the nucleosome by unzipping single DNA molecules | journal article
Single-molecule analysis of RNA polymerase transcription | journal article
Specific contributions of histone tails and their acetylation to the mechanical stability of nucleosomes. | journal article

speaker at Cornell event

Stretching, Twisting, and Unzipping DNA | Wednesday, November 1, 2006 4:30 PM