Lingchong You, Professor of Biomedical Engineering  


Lingchong You

Dr. You's research interest focus on computational systems biology & synthetic biology, including mathematical modeling of cellular networks; mechanisms of information processing by gene networks; design, modeling and construction of robust gene networks for applications in engineering and medicine.

Contact Info:
Office Location:  1381 CIEMAS
Office Phone:  (919) 660-8408
Email Address:   send me a message
Web Page: http://www.genome.duke.edu/labs/YouLab/

Education:

PhD, University of Wisconsin, 2002
MS, USTC-China, 1997
BE, Chengdu University, 1994
Curriculum Vitae
Research Interests:

Dr. You's research interest focus on computational systems biology & synthetic biology, including mathematical modeling of cellular networks; mechanisms of information processing by gene networks; design, modeling and construction of robust gene networks for applications in engineering and medicine.

Specialties:

Genomics
Computational Biology
Nonlinear Dynamics
Awards, Honors, and Distinctions

Packard Fellowship, November, 2006
Teaching (Fall 2023):

  • BME 574.01, GENE CIRCUITS Synopsis
    FITZPATRK 1411, MW 01:25 PM-02:40 PM
Recent Publications

  1. Y. Tanouchi and D. Tu and J. Kim and L. You, Noise Reduction by Diffusional Dissipation in a Minimal Quorum Sensing Motif, Plos Computational Biology, vol. 4 no. 8 (August, 2008)  [abs].
  2. L. You and J. Yin, Evolutionary design on a budget: robustness and optimality of bacteriophage T7, Iee Proceedings Systems Biology, vol. 153 no. 2 (March, 2006), pp. 46 -- 52  [abs].
  3. R. Srivastava and L. You and J. Summers and J. Yin, Stochastic vs. deterministic modeling of intracellular viral kinetics, Journal Of Theoretical Biology, vol. 218 no. 3 (October, 2002), pp. 309 -- 321  [abs].
  4. D. Endy and L. You and I. J. Molineux and J. Yin, Prediction, design, and characterization of alternate genetic element orders for bacteriophage T7., Abstracts Of Papers Of The American Chemical Society, vol. 217 (March, 1999), pp. U205 -- U205 .
  5. L. You and F. H. Arnold, Directed evolution of subtilisin E in Bacillus subtilis to enhance total activity in aqueous dimethylformamide, Protein Engineering, vol. 9 no. 1 (January, 1996), pp. 77 -- 83  [abs].