Current Research Related Publications (undergrads underlined)
Schnabl J, Litz MPH, Schneider C, PenkoffLidbeck N, Bashiruddin S, Schwartz MS, Alligood K, Devoto SH, Barresi MJF. Characterizing the diverse cells that associate with the developing commissures of the zebrafish forebrain. Dev Neurobiol. 2021 Jul;81(5):671-695.
Schwartz, M.S., Schnabl, J., Litz, M.P., Baumer, B.S. and Barresi, M., 2020. ΔSCOPE: A new method to quantify 3D biological structures and identify differences in zebrafish forebrain development. Developmental Biology, 460(2), pp.115-138.
Johnson, K., Barragan, J., Bashiruddin, S., Smith, C.J., Tyrrell, C., Parsons, M.J., Doris, R., Kucenas, S., Downes, G.B., Velez, C.M. and Schneider, C., 2016. Gfap‐positive radial glial cells are an essential progenitor population for later‐born neurons and glia in the zebrafish spinal cord. Glia, 64(7), pp.1170-1189.
Smith, C.J., Johnson, K., Welsh, T.G., Barresi, M.J. and Kucenas, S., 2016. Radial glia inhibit peripheral glial infiltration into the spinal cord at motor exit point transition zones. Glia, 64(7), pp.1138-1153.
Johnson K, Moriarty C, Tania N, Ortman A, Dipietrantonio K, Edens B, Eisenman J, Ok D, Krikorian S, Barragan J, Gole C, Barresi MJ. 2014. Kif11 dependent cell cycle progression in radial glial cells is required for proper neurogenesis in the zebrafish neural tube. Dev Biol. 387(1):73-92.
T. Yvanka de Soysa, Allison Ulrich, Timo Friedrich, Danielle Pite, Shannon L Compton, Deborah Ok, Rebecca L Bernardos, Gerald B Downes, Shizuka Hsieh, Rachael Stein, M Caterina Lagdameo, Katherine Halvorsen, Lydia-Rose Kesich and Michael JF Barresi. 2012. Macondo crude oil from the Deepwater Horizon oil spill disrupts specific developmental processes during zebrafish embryogenesis. BMC Biol. May 4; 10:40.
Barresi, MJ., Burton, S., DiPietrantonio, K., Amsterdam, A., Hopkins, N., and Karlstrom, R. 2010. Essential genes for astroglial development and axon pathfinding during zebrafish embryogenesis. Developmental Dynamics. 239(10):2603-18.
Deschene ER, Barresi MJ. 2009. Tissue targeted embryonic chimeras: zebrafish gastrula cell transplantation. J Vis Exp. (31).
Michael J. Barresi, Steven A. Farber, Lara D. Hutson, David R. Hyde, Jennifer O. Liang, Jacqueline K. Morris. 2008. Zebrafish in the classroom. Zebrafish 5(3): 205-208.
Barresi MJ, Hutson LD, Chien CB, Karlstrom RO. 2005. Hedgehog regulated Slit expression determines commissure and glial cell position in the zebrafish forebrain. Development. 132(16):3643-56.
Sbrogna JL, Barresi MJ, Karlstrom RO. 2003. Multiple roles for Hedgehog signaling in zebrafish pituitary development. Dev Biol. 254(1):19-35.
S.H. Devoto, W. Stoiber, C.L. Hammond, P. Steinbacher, J.R. Haslett, M.J.F. Barresi, S.E. Patterson, E. Adiarte, and S.M. Hughes. 2006. Generality of vertebrate developmental patterns: evidence for a dermomyotome in fish. Evolution and Development. Vol 8(1):p101-110.
Hernandez, L.P., Barresi, M.J.F., and Devoto, S.H. 2002. Functional Morphology and Developmental Biology of the Zebrafish: reciprocal illumination from an unlikely couple. Integrative and Comparative Biology, Vol 42(2):222-231.
Barresi MJ, D’Angelo JA, Hernandez LP, Devoto SH. 2001. Distinct mechanisms regulate slow-muscle development. Curr Biol. 11(18):1432-8.
Stickney HL, *Barresi MJ, Devoto SH. 2000. Somite development in zebrafish. Dev Dyn. 219(3):287-303. *Contributed equally.
Barresi MJ, Stickney HL, Devoto SH. 2000. The zebrafish slow-muscle-omitted gene product is required for Hedgehog signal transduction and the development of slow muscle identity. Development. 127(10):2189-99