California State University, Northridge
Professor of Biology
Comprehensive Minority Faculty and Student Development Program (UAB)
mariaelena.zavala@csun.edu
http://www.csun.edu/science-mathematics/biology/maria-elena-zavala
Northridge
CA
91330
Ph.D. University of California, Berkley
I use plants as model systems to investigate problems in development and growth. Development proceeds in an orderly sequence and is the result of genes being turned on and off in a coordinated fashion. I am interested in understanding the regulation of gene expression on a cellular and tissue level. My students study how roots growl We have focused our attention on a cluster of cells, the quiescent center, that appear to be directly involved in maintaining normal growth and function. These cells provide progenitor cells for the surrounding meristems. We would like to know if the lines of communication are altered during growth and development and how new lines are maintained. We are also working on the types of signals involved in stimulating the development of new meristems in root tissue. These studies will help us understand how normal root growth is regulated and will allow us to gain an insight into the how cells become specialized and maintain their specialization.
1999. Zavala, M.E. PBS On Line Science. May 1999.
2000. Li,R., J.L. Sosa, and M.E. Zavala. Accumulation of O-glycosyltransferase inPhaseolus vulgaris and Zea mays following cold stress. Plant Growth Regulation Accepted
1992. M.E. Zavala, C.S. Randall, L.D. Ralph, and A. Galoustian. Probing Cell and Tissue Domains in Zea mays Roots. Molec. Biol. Cell. 3S:18a.
1992. E. Banuelos, A. Amezcua, and M.E. Zavala. Identification and Localization of Cell Cycle Control Proteins in Zea mays Root Tips. Molec. Biol. Cell. 3S:19a.
1992. D.L. Brandon, J. Corse, P.C. Higaki, and M.E. Zavala. Monoclonal Antibodies for Analysis of Cytokinin O-glucosides in Response to Cold Stress. (In) Physiology and Biochemistry of Cytokinins in Plants. (eds.) M. Kaminek, D.W.S. Mok and E. Zazimalova. pp. 447-453.
1. Changes in cytokinins in Zea mays root tips in response to cold stress. Pauline C. Higaki. (1990).
2. Effects of cytokinins in Zea mays roots. Dale H. Mishkin. (1992).
3. The role of abscisic acid in cold stress response of Zea mays root tips. Catherine S. Randall. (1993).
[REF: http://www.csun.edu/science-mathematics/biology/maria-elena-zavala ]