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Faculty
 Paul R. Mueller, Ph.D.
Assistant Professor of Cell and Developmental Biology
Office: BSE 2.407
Phone: (210) 458-7845
Paul.Mueller@utsa.edu
Education Ph.D.,
Biology, California Institute of Technology, Pasadena, California
B.S., Microbiology, University of Wisconsin-Milwaukee, Milwaukee,
Wisconsin
Research Interests
Regulation of the Cell Cycle During Development
and the Checkpoint Response
The goal of our research is to elucidate the regulatory pathways
that control eukaryotic cell proliferation, particularly in relation to
embryogenesis and development. Eukaryotic cells, from yeast to human,
divide by following a series of events known as the cell cycle. In turn,
advancement through the cell cycle is driven by a family of cyclin
dependent kinases (Cdks). Strict regulation of the Cdks ensures that
cell proliferation takes place only in the proper temporal order and
only under the proper conditions. For example, the cell cycle of a
normal cell will stop or slow its progression in response to specific
developmental signals or perceived damage to cellular components. When
this regulation fails, developmental abnormalities and disease states
such as cancer can arise. In our research, we use the model system Xenopus
(African clawed frog) to study these problems. Xenopus offers the
advantage of combining both biochemical and developmental approaches.
For example, the cell cycle can be reconstituted with Xenopus egg
extracts, thus providing a powerful assay for studying the action of
recombinant or purified cell cycle regulators. In addition, Xenopus
embryos are easily obtained and cultured, and their size and external
development makes them ideal for microinjection and micromanipulation.
Finally, due to the highly conserved nature of the cell cycle regulatory
apparatus, it is possible to use complementation of more genetically
tractable organisms (fission and budding yeast) to study the action of Xenopus
proteins. Thus, our laboratory utilizes a multifaceted experimental
approach to elucidate how various Cdk regulatory mechanisms control cell
cycle progression.
Recent Publications
Leise, W. F. and Mueller, P. R. (2002) Multiple
Cdk1 Inhibitory Kinases Regulate the Cell Cycle During Development. Developmental
Biology 249:156-173
Leise, W. F. and P. R. Mueller (2004) Inhibition
of the Cell Cycle is Required for Convergent Extension of the Paraxial
Mesoderm during Xenopus Neurulation. Development
131:1703-1715.
Stafford, D., A. Hornbruch, P. R. Mueller, and V.
E. Prince (2004) A Conserved Role for Retinoid Signaling in Vertebrate
Pancreas Development. Development Genes and Evolution
214:432-441.
Mueller, P. R. and Leise, W. F. (2005) Measurement
of Wee Kinase Activity, in "Methods in Molecular Biology, vol. 296;
Cell Cycle Control: Mechanisms and Protocols", eds. T. Humphrey and
G. Brooks, pp 299-328; Humana Press, Totowa, NJ.
McSherry, T. D. and P. R. Mueller (2004). Xenopus
Cds1 is Regulated by DNA-PK and ATR during the Cell Cycle Checkpoint
Response to Double-Stranded DNA Ends. Molecular and Cellular Biology
24:9968-9985.
McSherry, T. D., A. Javaheri, A. Kitazono, S. J.
Kron, and P. R. Mueller (2007). Non-catalytic Function for ATR in the
Checkpoint Response. (Submitted).
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