- Associate Professor, Chemical Engineering
- Phone: 979-862-4021
- Email: gtreeves@tamu.edu
- Office: CHEN 208
- Website: Research Website
Educational Background
- Ph.D., Chemical Engineering, Princeton University – 2008
- B.S., Chemical Engineering, University of Florida – 2002
- B.S., Mathematics, University of Florida – 2002
Research Interests
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- Systems biology
- Cell-cell signaling
- Live cell imaging
- Transcriptional networks
- Engineering principles of biology
Awards & Honors
- 2013 National Science Foundation Faculty Early Career Development (CAREER) award
- 2007 Jane Coffin Childs Memorial Fellowship for Medical research
- 2006 Ticona Outstanding Teaching Assistant Award
- 2002 National Science Foundation Graduate Research Fellowship
- 2001 NCAA Postgraduate Scholarship
- 2001 SEC Boyd-McWhorter Scholarship
Selected Publications
- Al Asafen, H.; Bandodkar, P. U.; Carrell-Noel, S.; Schloop, A. E.; Friedman, J. & Reeves, G. T. Robustness of the Dorsal morphogen gradient with respect to morphogen dosage. PLoS computational biology, 2020, 16, e1007750
- Schloop, A. E.; Bandodkar, P. U. & Reeves, G. T. Formation, interpretation, and regulation of the Drosophila Dorsal/NF-κB gradient. Current Topics in Developmental Biology, 2020, 143-191
- Bandodkar, P. U.; Al Asafen, H. & Reeves, G. T. Spatiotemporal control of gene expression boundaries using a feedforward loop. Dev Dyn, 2020, 249, 369-382
- Reeves, G. T. The engineering principles of combining a transcriptional incoherent feedforward loop with negative feedback. Journal of biological engineering, 2019, 13, 62
- Carrell, S. N.; O'Connell, M. D.; Jacobsen, T.; Pomeroy, A. E.; Hayes, S. M. & Reeves, G. T. A facilitated diffusion mechanism establishes the Drosophila Dorsal gradient. Development, The Company of Biologists, 2017, 144, 4450-4461