John McDonald, Professor and Chair
About John McDonald
Ph.D., Genetics, University of California Davis, 1977
Phone: 404-894-3735, 404-385-6630
Fax: (404) 894-0519
Office: CE 201 / IBB 3314
Research Interests
Genome evolution and cancer research
Current Research
Retrotransponons and Evolution
Retrotransposons are the most abundant and wide spread class of eukaryotic transposable elements. For example, retrotransposons constitute ~10% of the Drosophila genome, ~20% of the rice genome, ~40% of the human genome, ~50% of the maize genome and >90% of the genome of some lilies. Our laboratory is interested in understanding the mechanisms underlying retroelement evolution and the impact these elements have had on the evolution of the host genomes in which they reside. We combine molecular biology and computational genomics to address these questions in a variety of organisms ranging from yeast to humans.
Cancer
Our laboratory's interests in retrotransposons extends to the role these elements may play in the alteration of chromatin structure and other epigenetic changes associated with tumorgenesis. In collaboration with the Ovarian Cancer Institute (Atlanta), we are engaged in efforts to identify molecular markers of early staged ovarian cancers using microarray (Affymetrix), 2-D gel and mass spectrometry (MALDI-TOF) technologies. We are also nterested in analyzing the molecular responses of different stages and classes of tumors to chemotherapy and in understanding the molecular basis of chemotherapy resistance.
Selected Publications
Bowen, N., P. Wade and J. F. McDonald. (2006) The Role of Pax8 in the Mesenchymal to Epithelial Transition of Ovarian Mesothelium into Epithelial Ovarian Carcinomas. Gynecologic Oncology (in press).
Polavarapu, N., N. Bowen and J. F. McDonald 2006. Identification and characterization of chimpanzee LTR retrotransposons. J. Virology (in press).
Herrera, R. J. , R. Lowery, A. Alfonso, J. F. McDonald and J. Luis..( 2006). Ancient retroviral insertions among human populations. J. Human Genetics (in press).
Ganko, E., C. Greene, J. Lewis, V. Bhattacharjee and J. F. McDonald. (2006) LTR retrotransposon-gene associations in D. melanogaster. J Mol Evol. 62: 111-120.
De Barry. J., E. Ganko and J. F. McDonald. (2006). The contribution of LTR retrotransposons sequences to gene evolution in Mus musculus. Mol Biol Evol . 23: 479-481.
McDonald, J.F., Matzke, M.A. and A.J. Matzke. (2005). Host defenses to transposable elements and the evolution of genomic imprinting. Cytogenet Genome Res. 110: 242-249.
Franchini, L.F., E.W. Ganko, J.F. McDonald. 2004. Retrotransposon-gene Mol. Biol. Evol. 21(7):1323-1331. 2004
Menendez L, Benigno BB, McDonald JF. 2004. L1 and HERV-W retrotransposons are hypomethylated in human ovarian carcinomas. Mol Cancer., Apr 26;3(1):12.
Gao, L, McCarthy EM, Ganko EW, McDonald JF. 2004. Evolutionary history of Oryza sativa LTR retrotransposons: a preliminary survey of the rice genome sequences. BMC Genomics, 5:18. PubMed / Journal Website
McCarthy, E.M., and J.F. McDonald. 2004. LTR Retrotransposons of Mus musculus. Genome Biology, 5:R14.