B.A., University of Tennessee
Ph.D., University of Virginia
(Genetics, microbiology, cell biology)

• Biochemistry and Molecular Bio 451 - RESEARCH
• Biology 131 - BIOLOGY I LABORATORY
• Biology 301 - MICROBIOLOGY
• Biology 304 - GENETICS
• Biology 304 - GENETICS LAB
• Biology 451 - RESEARCH IN BIOLOGY
• Biology 486 - SENIOR SEMINAR

Pratt, Z. L, B. J. Drehman, M. E. Miller, and S. D. Johnston. (2007)  Mutual Interdependence of MSI1 (CAC3) and YAK1 in Saccharomyces cerevisiae.  Journal of Molecular Biology.368: 30-43.

Miller, M. E., F. R. Cross, A. L. Groeger, K. L. Jameson. (2005). Identification of novel and conserved functional and structural elements of the G1 cyclin Cln3 important for interactions with the Cdk, Cdc28 in S. cerevisiae. Yeast. 22(13):1021-1036.

Cross, F. R., V. Archambualt, M. Miller, and M. Klovstad. (2002).  Testing a Mathematical Model of the Yeast Cell Cycle.  Molecular Biology of the Cell.  13(1): 52-70.

Miller, M. E. and F. R. Cross. (2001) Mechanisms controlling subcellular localization of the G1 cyclins CLN2 and CLN3 in budding yeast.  Molecular and Cellular Biology. 21(18):  6292-6311. 

Miller, M. E. and F. R. Cross.  (2001) Cyclin specificity: how many wheels do you need on a unicycle?  Journal of Cell Science. 114 (10):1811-1820.

Miller, M. E.  and F. R. Cross. (2000) Distinct subcellular localization patterns contribute to functional specificity of the Cln2 and Cln3 cyclins of S. cerevisiae.  Molecular and Cellular Biology 20 (2): 542-555.

Miller, Cairns, Levinson, Yamamoto, Engel, and Smith.  (1996) Adenovirus E1A specifically blocks SWI/SNF-dependent transcriptional activation.  Molecular and Cellular Biology.  16 (10): 5737-5743.

Miller, Engel, and Smith. (1995) Cyclic AMP signaling is required for function of the N-terminal and CR1 domains of adenovirus E1A in Saccharomyces cerevisiae. Oncogene 11: 1623-1630.