ZFIN ID: ZDB-PERS-010829-2
Ulrich, Florian
Email: florian.ulrich@med.nyu.edu
Address: New York University Skirball Institute of Biomolecular Medicine 540 First Avenue 4th Floor, Lab 14 New York, NY 10016 USA
Phone: 1-212-263-0298
Fax: 1-212-263-7760

Scientific Interests:
Neurovascular link
Angiogenesis in the zebrafish brain
Live Imaging

Ulrich, F., Grove, C., Torres-Vázquez, J., Baker, R. (2016) Development of functional hindbrain oculomotor circuitry independent of both vascularization and neuronal activity in larval zebrafish. Current Neurobiology. 7:62-73
Ulrich, F., Carretero-Ortega, J., Menéndez, J., Narvaez, C., Sun, B., Lancaster, E., Pershad, V., Trzaska, S., Véliz, E., Kamei, M., Prendergast, A., Kidd, K.R., Shaw, K.M., Castranova, D.A., Pham, V.N., Lo, B.D., Martin, B.L., Raible, D.W., Weinstein, B.M., Torres-Vazquez, J. (2016) Reck enables cerebrovascular development by promoting canonical Wnt signaling. Development (Cambridge, England). 143(1):147-59
Fang, L., Choi, S.H., Baek, J.S., Liu, C., Almazan, F., Ulrich, F., Wiesner, P., Taleb, A., Deer, E., Pattison, J., Torres-Vázquez, J., Li, A.C., and Miller, Y.I. (2013) Control of angiogenesis by AIBP-mediated cholesterol efflux. Nature. 498(7452):118-122
Zygmunt, T., Trzaska, S., Edelstein, L., Walls, J., Rajamani, S., Gale, N., Daroles, L., Ramírez, C., Ulrich, F., and Torres-Vazquez, J. (2012) In parallel interconnectivity of the dorsal longitudinal anastomotic vessels requires both VEGF signaling and circulatory flow. Journal of Cell Science. 125(21):5159-5167
Ulrich, F., Ma, L.H., Baker, R.G., and Torres-Vazquez, J. (2011) Neurovascular development in the embryonic zebrafish hindbrain. Developmental Biology. 357(1):134-51
Ulrich, F., and Heisenberg, C.P. (2008) Probing e-cadherin endocytosis by morpholino-mediated rab5 knockdown in zebrafish. Methods in molecular biology (Clifton, N.J.). 440:371-387
Ulrich, F., Krieg, M., Schotz, E.M., Link, V., Castanon, I., Schnabel, V., Taubenberger, A., Mueller, D., Puech, PH., and Heisenberg, C.P. (2005) Wnt11 Functions in Gastrulation by Controlling Cell Cohesion through Rab5c and E-Cadherin. Developmental Cell. 9(4):555-564
Puech, P.H., Taubenberger, A., Ulrich, F., Krieg, M., Muller, D.J., and Heisenberg, C.P. (2005) Measuring cell adhesion forces of primary gastrulating cells from zebrafish using atomic force microscopy. Journal of Cell Science. 118(18):4199-4206
Ulrich, F. (2005) Regulation of zebrafish gastrulation movements by slb/wnt11. Ph.D. Thesis. :1-2
Ulrich, F., and Heisenberg, C.P. (2004) Gastrulation in Zebrafish. In Fish Development and Genetics - the Zebrafish and Medaka Models. Gong, Z. and Korh, V., Eds. Book series of "Molecular Aspects of Fish and Marine Biology". 2
Ulrich, F., Concha, M.L., Heid, P.J., Voss, E., Witzel, S., Roehl, H., Tada, M., Wilson, S.W., Adams, R.J., Soll, D.R., and Heisenberg, C.P. (2003) Slb/Wnt11 controls hypoblast cell migration and morphogenesis at the onset of zebrafish gastrulation. Development (Cambridge, England). 130(22):5375-5384
Kilian, B., Mansukoski, H., Barbosa, F.C., Ulrich, F., Tada, M., and Heisenberg, C.P. (2003) The role of Ppt/Wnt5 in regulating cell shape and movement during zebrafish gastrulation. Mechanisms of Development. 120(4):467-476