Doug Wendell, Ph.D.
Asssociate Professor
Oakland University
Asssociate Professor
Oakland University
BIO 3400 Genetics
BIO 4402 Human Genetics
DNA Analysis for Detection and Identification of Invasive Species. Wendell-Lab.bsky.social
Wendell, D.L., T. Wilson, V.N. Washington and I.J. Limbert. 2025. Nuclear DNA markers to screen for hybridization between Phragmites australis americanus and other Phragmites subspecies. Invasive Plant Science and Management. https://doi.org/10.1017/inp.2025.10
Lindsay, D.L., J. Freeland, P. Gong, X. Guan, N.E. Harms, K.P. Kowalski, R.F. Lance, D. Oh, B.T. Sartain, and D.L. Wendell. 2023. Genetic analysis of North American Phragmites australis guides management approaches. Aquatic Botany 184: 103589. doi.org/10.1016/j.aquabot.2022.103589
Giest, J.A., J.L. Mancuso, M.M. Morin, K.P. Morin, K.P. Bommarito, E.N. Bovee, D. Wendell, B. Burroughs, M.R. Luttenton, D.L. Strayer, and S.D. Tiegs. 2022. The New Zealand mud snail (Potamopyrgus antipodarum): autecology and management of a global invader. Biol. Invasions 24 (4): 905-938. doi 10.1007/s10530-021-02681-7
Wendell, D.L., X. Huang, B. Gryspeerd, and J. Freeland, 2021. A simple screen to detect hybrids between native and introduced Phragmites australis in the United States and Canada. J. Great Lakes Research 47: 1453-1457. https://doi.org/10.1016/j.jglr.2021.08.002
Wendell, D.L, A. Vaziri, and G. Shergill, 2016. The Gene Encoding Dihydroflavonol 4-Reductase Is a Candidate for the anthocyaninless Locus of Rapid Cycling Brassica rapa (Fast Plants Type). PLoS ONE 11(8): e0161394. doi:10.1371/journal.pone.0161394
Slankster, E.E., J.M. Chase, L.M. Jones, and D. Wendell, 2012. DNA-based genetic markers for rapid cycling Brassica rapa (Fast Plants type) designed for the teaching laboratory. Slankster, EE, J.M. Chase, L.A. Jones, and D.L. Wendell, 2012. DNA-based genetic markers for rapid cycling Brassica rapa (Fast Plants type) designed for the teaching laboratory. Front. Plant Sci.3:118.
Wendell, D.L, D.M. Pickard, E.E, Slankster, and M.R. Belz, 2012. Human genetics with mustard: use of DNA markers for paternity tesing in rapid-cycling Brassica rapa (Fast Plants type). Tested Studies for Laboratory Teaching: Proceedings of the 33rd Workshop/Conference of the Association for Biology Lab Education (ABLE),
Burdzinski, C. and D.L. Wendell, 2007. Mapping the Anthocyaninless (anl) Locus in Rapid-Cycling Brassica rapa (RBr) to Linkage Group R9. BMC Genetics, 8:64
Wendell, D.L. and D. Picard, 2007. Teaching human genetics with mustard: rapid cycling Brassica rapa (Fast Plants type) as a model for human genetics in the classroom laboratory. CBE-Life Sciences Education, 6: 179-185
Wendell, D.L., A. Platts, and S. Land, 2006. Global analysis of gene expression in the estrogen induced pituitary tumor of the F344 rat. Journal of Steroid Biochemistry and Metabolism, 101: 188-196
Pandey, J. and D.L. Wendell, 2006. Angiogenesis and capillary maturation phenotypes associated with the Edpm3 locus on rat Chromosome 3. Mammalian Genome 17: 49-57
Pandey, J., A. Bannout, D. Wendell, 2004. The Edpm5 locus prevents the "angiogenic switch" in an estrogen-induced rat pituitary tumor. Carcinogenesis, 25: 1829-1838.
Pandey, J., D. Cracchiolo, F.M. Hansen, D.L. Wendell, 2002. Strain differences and inheritance of angiogenic versus angiostatic activity in estrogen-induced rat pituitary tumors. Angiogenesis 5: 53-66
Cracchiolo, D., J.W. Swick, L. McKiernan, S. Raina, E. Holman, C. Sloan, and D.L. Wendell, 2002. Estrogen-dependent growth of a rat pituitary tumor involves, but does not require, a high level of vascular endothelial growth factor. Experimental Biology and Medicine 227: 492-499
Sclafani, R.V., and D.L. Wendell, 2001. Suppression of estrogen-dependent MMP-9 expression by Edpm5, a genetic locus for pituitary tumor growth in rat. Molecular and Cellular Endocrinology, 176: 145-153